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Okazaki fragment
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Protein purification by affinity chromatography relies primarily on the interaction of a fused-tag to the protein of interest. Here, we describe a tag-free affinity method that employs functional selection interactions to a broad range of proteins.
9p
viginny
23-12-2022
12
3
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The chapter describe the contributions of the following people: Griffith; Avery, McCary, and MacLeod; Hershey and Chase; Chargaff; Watson and Crick; Franklin; Meselson and Stahl; describe the structure of DNA; describe the process of DNA replication; include the following terms: antiparallel structure, DNA polymerase, leading strand, lagging strand, Okazaki fragments, DNA ligase, primer, primase, helicase, topoisomerase, single-strand binding proteins.
69p
tradaviahe14
27-01-2021
10
2
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Chapter 16 - The molecular basis of inheritance. The chapter describe the contributions of the following people: Griffith; Avery, McCary, and MacLeod; Hershey and Chase; Chargaff; Watson and Crick; Franklin; Meselson and Stahl; describe the structure of DNA; describe the process of DNA replication; include the following terms: antiparallel structure, DNA polymerase, leading strand, lagging strand, Okazaki fragments, DNA ligase, primer, primase, helicase, topoisomerase, single-strand binding proteins.
56p
tangtuy02
08-03-2016
40
2
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Junction ribonuclease (JRNase) recognizes the transition from RNA to DNA of an RNA–DNA⁄DNA hybrid, such as an Okazaki fragment, and cleaves it, leaving a mono-ribonucleotide at the 5¢ terminus of the RNA– DNA junction. Although this JRNase activity was originally reported in calf RNase H2, some other RNases H have recently been suggested to pos-sess it.
12p
vinaphone15
28-02-2013
23
1
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