4.8 Article

DNA Polymerase Variants with High Processivity and Accuracy for Encoding and Decoding Locked Nucleic Acid Sequences

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JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 142, 期 51, 页码 21530-21537

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AMER CHEMICAL SOC
DOI: 10.1021/jacs.0c10902

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  1. AMED [JP18ak0101102]
  2. JSPS KAKENHI [JP19K15702]
  3. Nihon University

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Xenobiotic nucleic acids (XNAs) are chemically modified nucleic acid analogues with potential applications in nucleic acid-based therapeutics including nucleic acid aptamers, ribozymes, small interfering RNAs, and antisense oligonucleotides. We have developed a promising XNA for therapeutic uses, 2',4'-bridged nucleic acid (2',4'-BNA), also known as locked nucleic acid (LNA). Unlike the rational design of small interfering and antisense oligonucleotides, the development of LNA aptamers and catalysts requires genetically engineered polymerases that enable the synthesis of LNA from DNA and the converse reverse transcription. However, no LNA decoders or encoders with sufficient performance have been developed. In this study, we developed variants of KOD DNA polymerase, a family B DNA polymerase derived from Thermococcus kodakarensis KOD1, which are effective LNA decoders and encoders, via structural analyses. KOD DGLNK (KOD: N210D/Y409G/A485L/D614N/E664K) enabled LNA synthesis from DNA (DNA -> LNA), and KOD DLK (KOD: N210D/A485L/E664K) enabled LNA reverse transcription to DNA (LNA -> DNA). Both variants exhibited greatly improved efficiency and accuracy. Notably, we synthesized LNAs longer than one kilobase using KOD DGLNK. We also showed that these variants can accept 2'-O-methyl (2'-OMe), a common modification for therapeutic uses. Here, we also show that LNA and 2'-OMe mix aptamer can be practically obtained via SELEX. The variants can be used as powerful tools for creating XNA aptamers and catalysts to completely eliminate the natural species, DNA and RNA.

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