Virus attenuation by genome-scale changes in codon pair bias

J. Robert Coleman; Dimitris Papamichail; Steven Skiena; Bruce Futcher; Eckard Wimmer; Steffen Mueller

doi:10.1126/science.1155761

Virus attenuation by genome-scale changes in codon pair bias

J. Robert Coleman
, Dimitris Papamichail
, Steven Skiena
, Bruce Futcher
, Eckard Wimmer
, Steffen Mueller

Stony Brook University
University of Miami

Research output: Contribution to journal › Article › peer-review

592 Scopus citations

Abstract

As a result of the redundancy of the genetic code, adjacent pairs of amino acids can be encoded by as many as 36 different pairs of synonymous codons. A species-specific "codon pair bias" provides that some synonymous codon pairs are used more or less frequently than statistically predicted. We synthesized de novo large DNA molecules using hundreds of over- or underrepresented synonymous codon pairs to encode the poliovirus capsid protein. Underrepresented codon pairs caused decreased rates of protein translation, and polioviruses containing such amino acid-independent changes were attenuated in mice. Polioviruses thus customized were used to immunize mice and provided protective immunity after challenge. This "death by a thousand cuts" strategy could be generally applicable to attenuating many kinds of viruses.

Original language	English
Pages (from-to)	1784-1787
Number of pages	4
Journal	Science
Volume	320
Issue number	5884
DOIs	https://doi.org/10.1126/science.1155761
State	Published - Jun 27 2008

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AU - Skiena, Steven

AU - Futcher, Bruce

AU - Wimmer, Eckard

AU - Mueller, Steffen

PY - 2008/6/27

Y1 - 2008/6/27

N2 - As a result of the redundancy of the genetic code, adjacent pairs of amino acids can be encoded by as many as 36 different pairs of synonymous codons. A species-specific "codon pair bias" provides that some synonymous codon pairs are used more or less frequently than statistically predicted. We synthesized de novo large DNA molecules using hundreds of over- or underrepresented synonymous codon pairs to encode the poliovirus capsid protein. Underrepresented codon pairs caused decreased rates of protein translation, and polioviruses containing such amino acid-independent changes were attenuated in mice. Polioviruses thus customized were used to immunize mice and provided protective immunity after challenge. This "death by a thousand cuts" strategy could be generally applicable to attenuating many kinds of viruses.

AB - As a result of the redundancy of the genetic code, adjacent pairs of amino acids can be encoded by as many as 36 different pairs of synonymous codons. A species-specific "codon pair bias" provides that some synonymous codon pairs are used more or less frequently than statistically predicted. We synthesized de novo large DNA molecules using hundreds of over- or underrepresented synonymous codon pairs to encode the poliovirus capsid protein. Underrepresented codon pairs caused decreased rates of protein translation, and polioviruses containing such amino acid-independent changes were attenuated in mice. Polioviruses thus customized were used to immunize mice and provided protective immunity after challenge. This "death by a thousand cuts" strategy could be generally applicable to attenuating many kinds of viruses.

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VL - 320

SP - 1784

EP - 1787

JO - Science

JF - Science

IS - 5884

ER -

Virus attenuation by genome-scale changes in codon pair bias

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