Synthetic Genetic Polymers Capable of Heredity and Evolution

Vitor B. Pinheiro; Alexander I. Taylor; Christopher Cozens; Mikhail Abramov; Marleen Renders; Su Zhang; John C. Chaput; Jesper Wengel; Sew‐Yeu Peak‐Chew; Stephen H. McLaughlin; Piet Herdewijn; Philipp Holliger

doi:10.1126/science.1217622

Synthetic Genetic Polymers Capable of Heredity and Evolution

Vitor B. Pinheiro(MRC Laboratory of Molecular Biology), Alexander I. Taylor(MRC Laboratory of Molecular Biology), Christopher Cozens(MRC Laboratory of Molecular Biology), Mikhail Abramov(Rega Institute for Medical Research), Marleen Renders(Rega Institute for Medical Research), Su Zhang(Arizona State University), John C. Chaput(Arizona State University), Jesper Wengel(University of Southern Denmark), Sew‐Yeu Peak‐Chew(MRC Laboratory of Molecular Biology), Stephen H. McLaughlin(MRC Laboratory of Molecular Biology), Piet Herdewijn(Rega Institute for Medical Research), Philipp Holliger(MRC Laboratory of Molecular Biology)

Science

April 19, 2012

10.1126/science.1217622

Cited by 710Open Access

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Abstract

Genetic information storage and processing rely on just two polymers, DNA and RNA, yet whether their role reflects evolutionary history or fundamental functional constraints is currently unknown. With the use of polymerase evolution and design, we show that genetic information can be stored in and recovered from six alternative genetic polymers based on simple nucleic acid architectures not found in nature [xeno-nucleic acids (XNAs)]. We also select XNA aptamers, which bind their targets with high affinity and specificity, demonstrating that beyond heredity, specific XNAs have the capacity for Darwinian evolution and folding into defined structures. Thus, heredity and evolution, two hallmarks of life, are not limited to DNA and RNA but are likely to be emergent properties of polymers capable of information storage.

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