Genetic Code Expansion of Vibrio natriegens

Eden Ozer; Lital Alfonta

doi:10.3389/fbioe.2021.594429

Genetic Code Expansion of Vibrio natriegens

Eden Ozer, Lital Alfonta

Department of Life Sciences

Ben-Gurion University of the Negev

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

Abstract

Escherichia coli has been considered as the most used model bacteria in the majority of studies for several decades. However, a new, faster chassis for synthetic biology is emerging in the form of the fast-growing gram-negative bacterium Vibrio natriegens. Different methodologies, well established in E. coli, are currently being adapted for V. natriegens in the hope to enable a much faster platform for general molecular biology studies. Amongst the vast technologies available for E. coli, genetic code expansion, the incorporation of unnatural amino acids into proteins, serves as a robust tool for protein engineering and biorthogonal modifications. Here we designed and adapted the genetic code expansion methodology for V. natriegens and demonstrate an unnatural amino acid incorporation into a protein for the first time in this organism.

Original language	American English
Article number	594429
Journal	Frontiers in Bioengineering and Biotechnology
Volume	9
DOIs	https://doi.org/10.3389/fbioe.2021.594429
State	Published - 26 Feb 2021

Keywords

Vibrio natriegens
genetic code expansion
propargyl-L-lysine
synthetic biology
unnatural amino acids

All Science Journal Classification (ASJC) codes

Biotechnology
Bioengineering
Histology
Biomedical Engineering

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10.3389/fbioe.2021.594429

Cite this

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title = "Genetic Code Expansion of Vibrio natriegens",

abstract = "Escherichia coli has been considered as the most used model bacteria in the majority of studies for several decades. However, a new, faster chassis for synthetic biology is emerging in the form of the fast-growing gram-negative bacterium Vibrio natriegens. Different methodologies, well established in E. coli, are currently being adapted for V. natriegens in the hope to enable a much faster platform for general molecular biology studies. Amongst the vast technologies available for E. coli, genetic code expansion, the incorporation of unnatural amino acids into proteins, serves as a robust tool for protein engineering and biorthogonal modifications. Here we designed and adapted the genetic code expansion methodology for V. natriegens and demonstrate an unnatural amino acid incorporation into a protein for the first time in this organism.",

keywords = "Vibrio natriegens, genetic code expansion, propargyl-L-lysine, synthetic biology, unnatural amino acids",

author = "Eden Ozer and Lital Alfonta",

note = "Funding Information: Ashok Kumar Bhagat and Michael Shaferman are acknowledged for technical assistance. We would like to thank the Ilse Katz Institute for Nanoscale Science and Technology Shared Resource Facility for their technical contribution in peptide mass finger printing (Mark M. Karpasas). Dr. Anna Bakhrat?s contribution to genetic engineering is thankfully acknowledged. We would also like to thank the Kreitmann School for graduate students for a Ph.D. fellowship (EO) and the Ben-Gurion University of the Negev for a continued support of our research (LA). Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Ozer and Alfonta.",

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N1 - Funding Information: Ashok Kumar Bhagat and Michael Shaferman are acknowledged for technical assistance. We would like to thank the Ilse Katz Institute for Nanoscale Science and Technology Shared Resource Facility for their technical contribution in peptide mass finger printing (Mark M. Karpasas). Dr. Anna Bakhrat?s contribution to genetic engineering is thankfully acknowledged. We would also like to thank the Kreitmann School for graduate students for a Ph.D. fellowship (EO) and the Ben-Gurion University of the Negev for a continued support of our research (LA). Publisher Copyright: © Copyright © 2021 Ozer and Alfonta.

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Y1 - 2021/2/26

N2 - Escherichia coli has been considered as the most used model bacteria in the majority of studies for several decades. However, a new, faster chassis for synthetic biology is emerging in the form of the fast-growing gram-negative bacterium Vibrio natriegens. Different methodologies, well established in E. coli, are currently being adapted for V. natriegens in the hope to enable a much faster platform for general molecular biology studies. Amongst the vast technologies available for E. coli, genetic code expansion, the incorporation of unnatural amino acids into proteins, serves as a robust tool for protein engineering and biorthogonal modifications. Here we designed and adapted the genetic code expansion methodology for V. natriegens and demonstrate an unnatural amino acid incorporation into a protein for the first time in this organism.

AB - Escherichia coli has been considered as the most used model bacteria in the majority of studies for several decades. However, a new, faster chassis for synthetic biology is emerging in the form of the fast-growing gram-negative bacterium Vibrio natriegens. Different methodologies, well established in E. coli, are currently being adapted for V. natriegens in the hope to enable a much faster platform for general molecular biology studies. Amongst the vast technologies available for E. coli, genetic code expansion, the incorporation of unnatural amino acids into proteins, serves as a robust tool for protein engineering and biorthogonal modifications. Here we designed and adapted the genetic code expansion methodology for V. natriegens and demonstrate an unnatural amino acid incorporation into a protein for the first time in this organism.

KW - Vibrio natriegens

KW - genetic code expansion

KW - propargyl-L-lysine

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KW - unnatural amino acids

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M1 - 594429

ER -

Genetic Code Expansion of Vibrio natriegens

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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