MAT
8491_2e59
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_04e4
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 polymerase Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_a8df
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 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 DNA polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand MAT8491_f912
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_9fc1
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 separates the two strands of the DNA double helix DNA topoisomerase 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 MAT8491_73e2
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_f3b3
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 topoisomerase 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 MAT8491_8ab8
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 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_bd83
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 primase this enzyme builds RNA primers using the parental DNA strand as a template DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_1229
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 Ⅰ this enzyme replaces the RNA primers with DNA in the 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_971c
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 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 DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_16be
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 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_2ca9
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 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 sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_4718
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 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_6b53
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_5018
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling 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 primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_976d
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 topoisomerase 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 MAT8491_027a
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 polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA topoisomerase 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_a123
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 topoisomerase 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 helicase this enzyme separates the two strands of the DNA double helix MAT8491_b133
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix 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_1ad9
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 topoisomerase 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 prevents certain enzymes from falling off of the DNA MAT8491_92bf
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 sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA topoisomerase 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_a5d0
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_bf4f
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 sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA topoisomerase 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 MAT8491_e81a
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 topoisomerase 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 helicase this enzyme separates the two strands of the DNA double helix MAT8491_6590
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 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 sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_a6c2
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 separates the two strands of 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 topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_8d63
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 topoisomerase 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_5990
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 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_947d
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 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_c7ff
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 polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand DNA topoisomerase 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_5391
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 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 polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_e501
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 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 MAT8491_56f4
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 ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_ef99
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_149d
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 topoisomerase 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 polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_d63e
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 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_4524
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 topoisomerase 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 MAT8491_eb39
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 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_5d1c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_853d
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 synthesizing the entire leading strand 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 MAT8491_6b7a
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 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 primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_a03c
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 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 topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_3231
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 sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_d422
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 helicase this enzyme unwinds the parental DNA double helix DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_2c5d
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling DNA helicase this enzyme unwinds the parental 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 MAT8491_26ff
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA topoisomerase 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 MAT8491_b164
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 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 Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_0626
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 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_aaad
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 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 MAT8491_f3e8
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 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 DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_176d
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 ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_adbc
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 the synthesis of most of the bacterial chromosome DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_8a1b
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 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_caaa
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling 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 DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_1672
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 topoisomerase 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 builds RNA primers using the parental DNA strand as a template MAT8491_11d5
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 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_ac38
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 topoisomerase 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 polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_a030
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 topoisomerase 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 DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_9075
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_2866
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix 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 creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_984a
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 topoisomerase 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 produces the majority of DNA polymer during DNA replications MAT8491_4b69
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 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 MAT8491_f5ed
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 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 MAT8491_cb7b
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 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 DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_7464
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 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_03df
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_6467
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 polymerase Ⅲ this enzyme produces the majority of DNA polymer during DNA replications DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_d6a8
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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA topoisomerase 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_47a5
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 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 DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_3cc3
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 produces the majority of DNA polymer during DNA replications 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_dfec
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 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 topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_d4db
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 single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_86f5
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 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 MAT8491_23fd
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 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 MAT8491_4879
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 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 ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_96dd
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 topoisomerase 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 Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_5d4b
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 synthesizes DNA on both the leading strand and the lagging strand 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 MAT8491_53f3
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 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 builds RNA primers using the parental DNA strand as a template MAT8491_24fb
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 separates the two strands of the DNA double helix DNA topoisomerase 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 MAT8491_f89c
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 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 DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_14b9
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 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_0eb4
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_3065
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 topoisomerase 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 MAT8491_1c77
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 topoisomerase 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 unwinds the parental DNA double helix MAT8491_f8a9
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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 MAT8491_f480
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 Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_d224
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 produces the majority of DNA polymer during DNA replications DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_ddea
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 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 DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_c79a
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix 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 helicase this enzyme separates the two strands of the DNA double helix MAT8491_50c5
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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 MAT8491_3b05
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 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 DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_8c0d
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 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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_5d89
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 topoisomerase 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_3669
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 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 topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_dea5
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 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 MAT8491_26ac
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 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 topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_5702
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 replaces the RNA primers with DNA in the Okazaki fragments 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 MAT8491_ec95
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 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 helicase this enzyme unwinds the parental DNA double helix MAT8491_866c
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 helicase this enzyme separates the two strands of the DNA double helix single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_b7fb
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 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 topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_57f5
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 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 DNA ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_2361
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 topoisomerase 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 MAT8491_8664
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 seals the gaps between the Okazaki fragments to create one continuous DNA strand DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_fa7c
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 Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_7385
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 separates the two strands of the DNA double helix 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_62ab
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 Ⅰ this enzyme replaces the RNA primers with DNA in the Okazaki fragments single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_2286
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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 MAT8491_ac68
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 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 synthesizing the entire leading strand MAT8491_4a07
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_799d
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 topoisomerase 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 polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand MAT8491_08d5
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 the synthesis of most of the bacterial chromosome DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_8fdf
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 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 ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_d1d7
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 topoisomerase 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 DNA polymerase Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_9fd7
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 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 seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_e404
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 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 MAT8491_4232
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 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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_adca
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 Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA 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_3ce3
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 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_e3b2
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 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 unwinds the parental DNA double helix MAT8491_859c
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 topoisomerase 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 DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand MAT8491_b6ca
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 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_ad32
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 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 DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_3f32
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 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 DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_df3e
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_119f
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_c2d3
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 Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_e905
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 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 is responsible for synthesizing the entire leading strand MAT8491_c6dd
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 topoisomerase 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 seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_ae69
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 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 separates the two strands of the DNA double helix MAT8491_4adb
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 produces the majority of DNA polymer during DNA replications DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_a274
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 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 polymerase Ⅲ this enzyme is responsible for synthesizing the entire leading strand MAT8491_6481
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand 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_b398
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 topoisomerase 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 MAT8491_65b8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_8793
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_c716
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 topoisomerase 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 Ⅲ this enzyme produces the majority of DNA polymer during DNA replications MAT8491_f8b3
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 produces the majority of DNA polymer during DNA replications DNA topoisomerase 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 MAT8491_cd43
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 Ⅲ this enzyme is responsible for synthesizing the entire leading strand DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_6324
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_d9ce
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 unwinds the parental DNA double helix 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 MAT8491_a758
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 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 primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis MAT8491_3520
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 separates the two strands of the DNA double helix 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_6b2c
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 topoisomerase 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 MAT8491_9416
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 produces the majority of DNA polymer during DNA replications 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 MAT8491_63cc
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 topoisomerase 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_edc1
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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_0384
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 DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_989d
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 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_4548
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 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 DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_ff94
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 joins Okazaki fragments together to create one continuous DNA strand DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_9a29
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 primase this enzyme creates the RNA primers that serve as a starting point for DNA synthesis DNA topoisomerase 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_681d
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 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 Ⅰ this enzyme removes RNA primers and fills the gaps with DNA between Okazaki fragments MAT8491_f976
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 single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_b48b
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix 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 MAT8491_d5e9
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 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 MAT8491_9816
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 topoisomerase 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated MAT8491_32d1
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix 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_6cff
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 joins Okazaki fragments together to create one continuous DNA strand DNA topoisomerase 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_0789
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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 MAT8491_9d53
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 sliding clamp this enzyme prevents certain enzymes from falling off of the DNA DNA topoisomerase 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 MAT8491_47eb
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 holds the DNA strands apart while they are being replicated DNA ligase this enzyme joins Okazaki fragments together to create one continuous DNA strand DNA topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_1358
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 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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated 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_d8ea
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 produces the majority of DNA polymer during DNA replications 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_8d9c
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 topoisomerase this enzyme releases the supercoiling tension in the DNA double helix DNA helicase this enzyme unwinds the parental DNA double helix primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_ebe9
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 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_ecaf
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 builds RNA primers using the parental DNA strand as a template DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_5a4b
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 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 topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_fe08
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 separates the two strands of the DNA double helix 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_cdab
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 helicase this enzyme unwinds the parental DNA double helix DNA sliding clamp this enzyme prevents certain enzymes from falling off of the DNA MAT8491_37f5
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 synthesizes DNA on both the leading strand and the lagging strand DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_bdb8
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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 MAT8491_2733
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 topoisomerase 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 helicase this enzyme separates the two strands of the DNA double helix MAT8491_1b15
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_2d90
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 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 polymerase Ⅲ this enzyme is responsible for the synthesis of most of the bacterial chromosome MAT8491_1fb2
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 polymerase Ⅲ this enzyme synthesizes DNA on both the leading strand and the lagging strand single-strand binding proteins this protein stabilizes the open conformation of the unwound DNA MAT8491_1f30
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 topoisomerase 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 ligase this enzyme seals the gaps between the Okazaki fragments to create one continuous DNA strand MAT8491_2490
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 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_efe0
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 seals the gaps between the Okazaki fragments to create one continuous DNA strand 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 MAT8491_e544
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 topoisomerase 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_cb12
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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_2946
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 replaces the RNA primers with DNA in the Okazaki fragments 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 MAT8491_5f70
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 DNA sliding clamp this enzyme is a ring that tethers certain enzymes to DNA DNA helicase this enzyme unwinds the parental DNA double helix MAT8491_580d
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 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 DNA helicase this enzyme separates the two strands of the DNA double helix MAT8491_de49
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 produces the majority of DNA polymer during DNA replications DNA polymerase Ⅰ this enzyme removes the RNA primers at the beginning of each Okazaki fragment and replaces them with DNA MAT8491_aa52
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 topoisomerase 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 MAT8491_8de3
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 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 DNA topoisomerase this enzyme releases the supercoiling tension in the DNA double helix MAT8491_39f1
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 single-strand binding proteins this protein holds the DNA strands apart while they are being replicated DNA topoisomerase 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_1ddb
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 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_d3cc
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 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_75b7
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 separates the two strands of the DNA double helix 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 MAT8491_9b38
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 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 primase this enzyme builds RNA primers using the parental DNA strand as a template MAT8491_8c43
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 topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling 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 MAT8491_8e2d
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 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 helicase this enzyme unwinds the parental DNA double helix MAT8491_53ae
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 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 MAT8491_256f
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 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 sliding clamp this enzyme is a ring that tethers certain enzymes to DNA MAT8491_ceee
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 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 topoisomerase this enzyme relieves strain in the parental DNA double helix caused by the supercoiling MAT8491_4ebc
Match each of the following DNA replication enzymes with their corresponding functions.
Note: Each choice will be used exactly once.
DNA topoisomerase 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 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