An in Vitro Selection System for TNA | Zendy

Justin K. Ichida | Zendy; Keyong Zou | Zendy; Allen Horhota | Zendy; Biao Yu | Zendy; Larry W. McLaughlin | Zendy; Jack W. Szostak | Zendy

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An in Vitro Selection System for TNA

Author(s) -

Justin K. Ichida,

Keyong Zou,

Allen Horhota,

Biao Yu,

Larry W. McLaughlin,

Jack W. Szostak

Publication year - 2005

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/ja045364w

Subject(s) - chemistry , nucleic acid , polymerase , dna , in vitro , dna polymerase , computational biology , base pair , biochemistry , microbiology and biotechnology , combinatorial chemistry , biology

(3'-2')-alpha-l-Threose nucleic acid (TNA) is an unnatural polymer that possesses the rare ability to base-pair with RNA, DNA, and itself. This feature, coupled with its chemical simplicity, makes TNA of interest as a possible progenitor of RNA during the early history of life. To evaluate the functional potential of TNA, we have developed a system for the in vitro selection of TNA. We identified the Therminator DNA polymerase as a remarkably efficient DNA-dependent TNA polymerase capable of polymerizing more than 50 tNTPs. We have also developed a method of covalently linking a DNA template to the TNA strand that it encodes, thus obviating the need for a TNA-dependent DNA polymerase during cycles of selection.

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