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Discovery, characterization, and optimization of an unnatural base pair for expansion of the genetic alphabet.


ABSTRACT: DNA is inherently limited by its four natural nucleotides. Efforts to expand the genetic alphabet, by addition of an unnatural base pair, promise to expand the biotechnological applications available for DNA as well as to be an essential first step toward expansion of the genetic code. We have conducted two independent screens of hydrophobic unnatural nucleotides to identify novel candidate base pairs that are well recognized by a natural DNA polymerase. From a pool of 3600 candidate base pairs, both screens identified the same base pair, dSICS:dMMO2, which we report here. Using a series of related analogues, we performed a detailed structure-activity relationship analysis, which allowed us to identify the essential functional groups on each nucleobase. From the results of these studies, we designed an optimized base pair, d5SICS:dMMO2, which is efficiently and selectively synthesized by Kf within the context of natural DNA.

SUBMITTER: Leconte AM 

PROVIDER: S-EPMC2892755 | biostudies-literature | 2008 Feb

REPOSITORIES: biostudies-literature

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Discovery, characterization, and optimization of an unnatural base pair for expansion of the genetic alphabet.

Leconte Aaron M AM   Hwang Gil Tae GT   Matsuda Shigeo S   Capek Petr P   Hari Yoshiyuki Y   Romesberg Floyd E FE  

Journal of the American Chemical Society 20080125 7


DNA is inherently limited by its four natural nucleotides. Efforts to expand the genetic alphabet, by addition of an unnatural base pair, promise to expand the biotechnological applications available for DNA as well as to be an essential first step toward expansion of the genetic code. We have conducted two independent screens of hydrophobic unnatural nucleotides to identify novel candidate base pairs that are well recognized by a natural DNA polymerase. From a pool of 3600 candidate base pairs,  ...[more]

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