38e7_00dd
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_40d7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_4637
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_4349
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_175c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_a58f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_46b0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_5298
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_7ca3
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_34e1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_6623
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_f511
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_40e8
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_9a7d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_ed60
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_74ce
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_e349
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_f650
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_c7ee
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_5eb4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_956e
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_9c83
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_5c14
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_b88d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_8b28
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_0961
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_cab0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_d147
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_cae8
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_6d93
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_a4c0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_da61
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_9006
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_23f6
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_198d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_cacd
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_44c7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_a58e
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_de39
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_8f51
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_60dc
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_b79b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_8538
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_dcd4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_83bb
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_e425
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_2ec6
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_5ec7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_ea0f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_4274
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_cf7b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_3be7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_45e3
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_d246
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_c37d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_8644
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_3140
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_9bed
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_447d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_0425
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_5c68
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_cf25
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_77f2
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_8248
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_8566
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_8e86
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_803f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_c2e7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_460b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_e756
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_42da
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_3b98
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_4678
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_3af1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_af86
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_9061
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_928c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_38fc
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_248f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_d111
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_073c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_781c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_d1f9
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_6765
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_fe88
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_98a1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_65fc
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_169c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_5da2
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_763f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_9951
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_305a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_adb0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_53eb
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_6102
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_7d18
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_d55f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_4806
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_988c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_b3e0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_dc41
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_1008
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_5d23
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_aba4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_4ed1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_891b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_8045
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_ead4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_02e1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_66b2
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_edfe
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_1d27
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_ba02
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_f55d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_9f51
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_d284
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_4fed
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_7862
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_d6e3
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_4fc3
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_d545
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_00fb
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_27eb
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_883d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_3996
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_df05
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_ff0d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_7d07
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_d6b0
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_31c1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_e451
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_90a4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_5d04
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_448a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_ebe8
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_2fec
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_5f39
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_9e59
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_6779
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_d08c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_ee98
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_cb82
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_607b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_ba4b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_340c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_94b9
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_abb1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_f9b4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_b44d
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_080a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_8a87
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_e464
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_b4d4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_a08f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_4172
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_33f5
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_a42a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_b02f
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_077b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_587a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_defa
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_abf5
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_dbe2
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_6d38
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_2fab
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters MAT38e7_6fde
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_0e4b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_5335
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead MAT38e7_4edf
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_49c9
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_5469
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_a984
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_60af
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_d3ab
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_5a86
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_7cdf
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_7b28
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_fce6
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_3fbd
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_ae54
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_882e
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_aca9
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_16ab
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_3eeb
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_5812
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached MAT38e7_f72a
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_8ce4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template MAT38e7_aea7
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_4a2b
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_beba
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_9b3c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_37dc
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_ecac
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_6ab5
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel MAT38e7_898c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_a2a4
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Roche 454 pyrosequencing detects the light from the luciferase enzyme as it consumes the diphosphate molecules released when nucleotides are added to the DNA template MAT38e7_a8cc
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters PacBio single molecule real time (SMRT) sequencing detects a fluorescent tag on each nucleotide using a zero-mode waveguide with a single active DNA polymerase attached Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel MAT38e7_84e1
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
Ion Torrent semiconductor sequencing detects individual hydrogen ions released during DNA synthesis using microscopic pH meters Oxford Nanopore sequencing detects the electrical signal of nucleotides on a single-strand of DNA as it is pulled through a membrane protein channel Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation MAT38e7_870c
Match each of the following DNA sequencing techniques with their corresponding descriptions.
Note: Each choice will be used exactly once.
ABI solid sequencing detects sequences as they ligate to a di-base probe attached to a magnetic bead Illumina sequencing by synthesis detects the light emitted from fluorescently tagged nucleotides as they are added to the DNA template Classical Sanger sequencing takes advantage that di-deoxynucleotide triphosphates terminate DNA strand elongation and molecules of different lengths can be separated on a gel Terminal-dye Sanger sequencing detects fluorescently tagged di-deoxynucleotide triphosphates that terminate DNA strand elongation