Literature DB >> 29301074

Genetically Incorporating Two Distinct Post-translational Modifications into One Protein Simultaneously.

Sumana Venkat1, Jourdan Sturges1, Alleigh Stahman1, Caroline Gregory1, Qinglei Gan1, Chenguang Fan1.   

Abstract

Post-translational modifications (PTMs) play important roles in regulating a variety of biological processes. To facilitate PTM studies, the genetic code expansion strategy has been utilized to cotranslationally incorporate individual PTMs such as acetylation and phosphorylation into proteins at specific sites. However, recent studies have demonstrated that PTMs actually work together to regulate protein functions and structures. Thus, simultaneous incorporation of multiple distinct PTMs into one protein is highly desirable. In this study, we utilized the genetic incorporation systems of phosphoserine and acetyllysine to install both phosphorylation and acetylation into target proteins simultaneously in Escherichia coli. And we used this system to study the effect of coexisting acetylation and phosphorylation on malate dehydrogenase, demonstrating a practical application of this system in biochemical studies. Furthermore, we tested the mutual orthogonality of three widely used genetic incorporation systems, indicating the possibility of incorporating three distinct PTMs into one protein simultaneously.

Entities:  

Keywords:  acetylation; genetic code expansion; noncanonical amino acid; phosphorylation; post-translational modification

Mesh:

Substances:

Year:  2018        PMID: 29301074      PMCID: PMC5815919          DOI: 10.1021/acssynbio.7b00408

Source DB:  PubMed          Journal:  ACS Synth Biol        ISSN: 2161-5063            Impact factor:   5.110


  55 in total

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2.  Structure of Escherichia coli malate dehydrogenase at 1.45 A resolution.

Authors:  Jelena Zaitseva; Kathleen M Meneely; Audrey L Lamb
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Authors:  Wei Wan; Jeffery M Tharp; Wenshe R Liu
Journal:  Biochim Biophys Acta       Date:  2014-03-12

5.  Expanding the genetic code of Escherichia coli with phosphoserine.

Authors:  Hee-Sung Park; Michael J Hohn; Takuya Umehara; Li-Tao Guo; Edith M Osborne; Jack Benner; Christopher J Noren; Jesse Rinehart; Dieter Söll
Journal:  Science       Date:  2011-08-26       Impact factor: 47.728

6.  A Facile Protocol to Generate Site-Specifically Acetylated Proteins in Escherichia Coli.

Authors:  Sumana Venkat; Caroline Gregory; Kexin Meng; Qinglei Gan; Chenguang Fan
Journal:  J Vis Exp       Date:  2017-12-09       Impact factor: 1.355

Review 7.  Engineering the Genetic Code in Cells and Animals: Biological Considerations and Impacts.

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8.  Biosynthesis and genetic encoding of phosphothreonine through parallel selection and deep sequencing.

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Journal:  Nat Methods       Date:  2017-05-29       Impact factor: 28.547

9.  Proteome-wide post-translational modification statistics: frequency analysis and curation of the swiss-prot database.

Authors:  George A Khoury; Richard C Baliban; Christodoulos A Floudas
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10.  Nonsense and sense suppression abilities of original and derivative Methanosarcina mazei pyrrolysyl-tRNA synthetase-tRNA(Pyl) pairs in the Escherichia coli BL21(DE3) cell strain.

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Journal:  PLoS One       Date:  2013-03-08       Impact factor: 3.240
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  15 in total

1.  Characterizing Lysine Acetylation of Isocitrate Dehydrogenase in Escherichia coli.

Authors:  Sumana Venkat; Hao Chen; Alleigh Stahman; Denver Hudson; Paige McGuire; Qinglei Gan; Chenguang Fan
Journal:  J Mol Biol       Date:  2018-05-04       Impact factor: 5.469

Review 2.  Reprogramming the genetic code.

Authors:  Daniel de la Torre; Jason W Chin
Journal:  Nat Rev Genet       Date:  2020-12-14       Impact factor: 53.242

3.  Genetic Encoding of Three Distinct Noncanonical Amino Acids Using Reprogrammed Initiator and Nonsense Codons.

Authors:  Jeffery M Tharp; Oscar Vargas-Rodriguez; Alanna Schepartz; Dieter Söll
Journal:  ACS Chem Biol       Date:  2021-03-16       Impact factor: 5.100

4.  Engineering aminoacyl-tRNA synthetases for use in synthetic biology.

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5.  A Highly Versatile Expression System for the Production of Multiply Phosphorylated Proteins.

Authors:  Phillip Zhu; Philip R Gafken; Ryan A Mehl; Richard B Cooley
Journal:  ACS Chem Biol       Date:  2019-06-17       Impact factor: 5.100

6.  A 68-codon genetic code to incorporate four distinct non-canonical amino acids enabled by automated orthogonal mRNA design.

Authors:  Daniel L Dunkelmann; Sebastian B Oehm; Adam T Beattie; Jason W Chin
Journal:  Nat Chem       Date:  2021-08-23       Impact factor: 24.274

7.  In vitro-Constructed Ribosomes Enable Multi-site Incorporation of Noncanonical Amino Acids into Proteins.

Authors:  Yi Liu; Roderick G Davis; Paul M Thomas; Neil L Kelleher; Michael C Jewett
Journal:  Biochemistry       Date:  2021-01-11       Impact factor: 3.162

Review 8.  Introducing noncanonical amino acids for studying and engineering bacterial microcompartments.

Authors:  Hao Chen; Jessica Wilson; Sara Ottinger; Qinglei Gan; Chenguang Fan
Journal:  Curr Opin Microbiol       Date:  2021-04-01       Impact factor: 7.584

9.  Influence of Glucose Availability and CRP Acetylation on the Genome-Wide Transcriptional Response of Escherichia coli: Assessment by an Optimized Factorial Microarray Analysis.

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10.  dbPSP 2.0, an updated database of protein phosphorylation sites in prokaryotes.

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