MAT
8491_eeae
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_7334
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_cdd7
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand MAT8491_a550
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_ad22
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_0031
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_7472
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_3969
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_09e6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_f0e2
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_535e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications primase this enzyme builds RNA primers using the parental DNA strand as a template DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_9531
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_5745
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_0304
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_0332
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_1584
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_d5c5
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_581e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_2d33
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_921b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_9b53
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_fce8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_d714
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme unwinds the parental DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_894e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_24c2
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_1101
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_6036
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_6eed
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_f230
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_bb94
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_d93a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA primase this enzyme builds RNA primers using the parental DNA strand as a template DNA helicase this enzyme unwinds the parental DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_6a56
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_a683
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme separates the two strands of the DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_e30f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_2111
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_184d
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_27d8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_3fb6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_6a7f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_55b2
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_7e19
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_b820
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_36c6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_ec67
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_14e8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_649f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme unwinds the parental DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_92ea
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_3603
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_50ad
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_a9bb
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_18f3
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_eeec
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_fd05
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_5180
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_e110
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_c36c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_07e9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_2e5e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_b294
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_2c1f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_21b9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme separates the two strands of the DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_dca3
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_bb47
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_cdfc
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_b6db
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_0603
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_abb9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_123f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_c725
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_6052
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_c417
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_bc83
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_a6b0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_2690
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_d732
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_be36
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_88e0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_155c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_604f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_b6fe
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling single-strand binding proteins this protein holds the DNA strands apart while they are being replicated primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_9c8f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_3b71
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_bdd4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_7bf0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_9790
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_7aac
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_27b9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_d667
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_f846
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_ea0e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_8669
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_1c68
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_3523
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_2647
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_479a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_9e13
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_fef6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_c810
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_f4a1
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_9457
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_ce39
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme separates the two strands of the DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_243a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_852c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_e202
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_49f6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_fa50
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_21c3
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated primase this enzyme builds RNA primers using the parental DNA strand as a template DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_8de4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_c452
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_a5a1
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_f1f6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_5cc2
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_3b77
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_e5c4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_1f31
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_0e2c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_6cbb
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_fe2f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_8921
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_f01b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_752f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA helicase this enzyme unwinds the parental DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_5817
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_f5ad
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_4d68
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_d433
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_54a1
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_a0ac
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_efaa
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_e85c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_40ad
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_f72a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_4ab0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_cc4e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand primase this enzyme builds RNA primers using the parental DNA strand as a template DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_1df9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_5aaf
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_c07a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_fb88
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_3655
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_0ce6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme unwinds the parental DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_d0bc
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_6de0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA helicase this enzyme unwinds the parental DNA double helix DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_b513
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_687c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_4052
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_5b81
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_2a0c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA helicase this enzyme separates the two strands of the DNA double helix DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_0411
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_5fea
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_b05a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_3459
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_d6e6
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_5d19
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_11ae
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_a3c7
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_467b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_9db8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_6869
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_6108
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_aa11
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_b7c3
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_9ad4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_6415
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_753c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_3e04
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_70e3
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_bb25
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_8274
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_c237
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_5a40
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_52c0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_f6be
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme unwinds the parental DNA double helix DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_eb0b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_d9f0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_18fd
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_2c66
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_1265
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_7a8b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_0389
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_8a5e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_0d93
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_2194
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_07de
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_aa22
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_800c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_7566
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_6e2f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_2a18
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_3453
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA helicase this enzyme separates the two strands of the DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_5d13
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_9135
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_d9b0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_212d
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_3777
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
primase this enzyme builds RNA primers using the parental DNA strand as a template DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_9514
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_a655
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_789b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome primase this enzyme builds RNA primers using the parental DNA strand as a template DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_74fc
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA primase this enzyme builds RNA primers using the parental DNA strand as a template single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_dd14
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA gyrase this enzyme releases the supercoiling tension in the DNA double helix DNA polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments MAT8491_08e4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA gyrase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand