CHARMING: Harmonizing synonymous codon usage to replicate a desired codon usage pattern
There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half‐life...
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| Published in | Protein science Vol. 31; no. 1; pp. 221 - 231 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken, USA
John Wiley & Sons, Inc
01.01.2022
Wiley Subscription Services, Inc |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0961-8368 1469-896X 1469-896X |
| DOI | 10.1002/pro.4223 |
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| Abstract | There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half‐life, translation (protein synthesis) and the probability of a protein folding correctly to its active, functional structure. In particular, recent discoveries have highlighted the important role that sub‐optimal codons can play in modifying co‐translational protein folding. These results have drawn increased attention to the patterns of synonymous codon usage within coding sequences, particularly in light of the discovery that these patterns can be conserved across evolution for homologous proteins. Because synonymous codon usage differs between organisms, for heterologous gene expression it can be desirable to make synonymous codon substitutions to match the codon usage pattern from the original organism in the heterologous expression host. Here we present CHARMING (for Codon HARMonizING), a robust and versatile algorithm to design mRNA sequences for heterologous gene expression and other related codon harmonization tasks. CHARMING can be run as a downloadable Python script or via a web portal at http://www.codons.org. |
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| AbstractList | There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half‐life, translation (protein synthesis) and the probability of a protein folding correctly to its active, functional structure. In particular, recent discoveries have highlighted the important role that sub‐optimal codons can play in modifying co‐translational protein folding. These results have drawn increased attention to the patterns of synonymous codon usage within coding sequences, particularly in light of the discovery that these patterns can be conserved across evolution for homologous proteins. Because synonymous codon usage differs between organisms, for heterologous gene expression it can be desirable to make synonymous codon substitutions to match the codon usage pattern from the original organism in the heterologous expression host. Here we present CHARMING (for Codon HARMonizING), a robust and versatile algorithm to design mRNA sequences for heterologous gene expression and other related codon harmonization tasks. CHARMING can be run as a downloadable Python script or via a web portal at http://www.codons.org. There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half-life, translation (protein synthesis) and the probability of a protein folding correctly to its active, functional structure. In particular, recent discoveries have highlighted the important role that sub-optimal codons can play in modifying co-translational protein folding. These results have drawn increased attention to the patterns of synonymous codon usage within coding sequences, particularly in light of the discovery that these patterns can be conserved across evolution for homologous proteins. Because synonymous codon usage differs between organisms, for heterologous gene expression it can be desirable to make synonymous codon substitutions to match the codon usage pattern from the original organism in the heterologous expression host. Here we present CHARMING (for Codon HARMonizING), a robust and versatile algorithm to design mRNA sequences for heterologous gene expression and other related codon harmonization tasks. CHARMING can be run as a downloadable Python script or via a web portal at http://www.codons.org.There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half-life, translation (protein synthesis) and the probability of a protein folding correctly to its active, functional structure. In particular, recent discoveries have highlighted the important role that sub-optimal codons can play in modifying co-translational protein folding. These results have drawn increased attention to the patterns of synonymous codon usage within coding sequences, particularly in light of the discovery that these patterns can be conserved across evolution for homologous proteins. Because synonymous codon usage differs between organisms, for heterologous gene expression it can be desirable to make synonymous codon substitutions to match the codon usage pattern from the original organism in the heterologous expression host. Here we present CHARMING (for Codon HARMonizING), a robust and versatile algorithm to design mRNA sequences for heterologous gene expression and other related codon harmonization tasks. CHARMING can be run as a downloadable Python script or via a web portal at http://www.codons.org. There is a growing appreciation that synonymous codon usage, although historically regarded as phenotypically silent, can instead alter a wide range of mechanisms related to functional protein production, a term we use here to describe the net effect of transcription (mRNA synthesis), mRNA half‐life, translation (protein synthesis) and the probability of a protein folding correctly to its active, functional structure. In particular, recent discoveries have highlighted the important role that sub‐optimal codons can play in modifying co‐translational protein folding. These results have drawn increased attention to the patterns of synonymous codon usage within coding sequences, particularly in light of the discovery that these patterns can be conserved across evolution for homologous proteins. Because synonymous codon usage differs between organisms, for heterologous gene expression it can be desirable to make synonymous codon substitutions to match the codon usage pattern from the original organism in the heterologous expression host. Here we present CHARMING (for Codon HARMonizING), a robust and versatile algorithm to design mRNA sequences for heterologous gene expression and other related codon harmonization tasks. CHARMING can be run as a downloadable Python script or via a web portal at http://www.codons.org . |
| Author | Li, Jun Clark, Patricia L. Wright, Gabriel Rodriguez, Anabel Milenkovic, Tijana Emrich, Scott J. |
| AuthorAffiliation | 4 Department of Electrical Engineering & Computer Science University of Tennessee Knoxville Tennessee USA 5 Present address: Department of Electrical Engineering and Computer Science Milwaukee School of Engineering Milwaukee WI USA 2 Department of Chemistry & Biochemistry University of Notre Dame Notre Dame Indiana USA 1 Department of Computer Science & Engineering University of Notre Dame Notre Dame Indiana USA 3 Department of Applied and Computational Mathematics & Statistics University of Notre Dame Notre Dame Indiana USA |
| AuthorAffiliation_xml | – name: 4 Department of Electrical Engineering & Computer Science University of Tennessee Knoxville Tennessee USA – name: 1 Department of Computer Science & Engineering University of Notre Dame Notre Dame Indiana USA – name: 2 Department of Chemistry & Biochemistry University of Notre Dame Notre Dame Indiana USA – name: 3 Department of Applied and Computational Mathematics & Statistics University of Notre Dame Notre Dame Indiana USA – name: 5 Present address: Department of Electrical Engineering and Computer Science Milwaukee School of Engineering Milwaukee WI USA |
| Author_xml | – sequence: 1 givenname: Gabriel surname: Wright fullname: Wright, Gabriel organization: University of Notre Dame – sequence: 2 givenname: Anabel surname: Rodriguez fullname: Rodriguez, Anabel organization: University of Notre Dame – sequence: 3 givenname: Jun surname: Li fullname: Li, Jun organization: University of Notre Dame – sequence: 4 givenname: Tijana surname: Milenkovic fullname: Milenkovic, Tijana organization: University of Notre Dame – sequence: 5 givenname: Scott J. surname: Emrich fullname: Emrich, Scott J. email: semrich@utk.edu organization: University of Tennessee – sequence: 6 givenname: Patricia L. orcidid: 0000-0001-5462-8248 surname: Clark fullname: Clark, Patricia L. email: pclark1@nd.edu organization: University of Notre Dame |
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| Cites_doi | 10.1073/pnas.1705772114 10.1016/j.molcel.2016.01.008 10.1038/nsmb.1554 10.1016/B978-0-12-385120-8.00003-6 10.1093/nar/gkm219 10.1371/journal.pone.0232003 10.1093/nar/gki376 10.1073/pnas.1907126117 10.1186/1752-0509-8-33 10.1093/nar/15.3.1281 10.1016/j.jmb.2019.04.021 10.1371/journal.pone.0003412 10.1016/S0014-5793(99)01566-5 10.1038/nature11833 10.1021/ja411302m 10.1073/pnas.1016719108 10.1038/nsmb.2466 10.1371/journal.pone.0184355 10.1093/protein/12.12.1113 10.1371/journal.pcbi.1005531 10.1371/journal.pone.0002189 10.1038/s41594-018-0080-2 10.1093/nar/gkq009 10.1186/s12915-021-00968-8 10.1016/0958-1669(95)80082-4 10.1016/j.jmb.2012.06.010 10.1016/j.pep.2019.03.018 10.1093/nar/28.1.292 10.1002/pro.3336 10.1186/1471-2105-7-285 |
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| Keywords | co-translational protein folding heterologous gene expression translation protein synthesis ribosome aggregation misfolding |
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| SubjectTerms | aggregation Algorithms Codon Usage Codons co‐translational protein folding Folding Gene expression Gene sequencing heterologous gene expression Homology misfolding Programming languages Protein Biosynthesis Protein Folding Protein synthesis Proteins Proteins - genetics Proteins - metabolism ribosome RNA, Messenger - genetics Software Tools for Protein Science Transcription translation |
| Title | CHARMING: Harmonizing synonymous codon usage to replicate a desired codon usage pattern |
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