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      Acetylome analysis of lysine acetylation in the plant pathogenic bacterium Brenneria nigrifluens

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          Abstract

          Protein lysine acetylation, a dynamic and reversible posttranslational modification, plays a crucial role in several cellular processes, including cell cycle regulation, metabolism, enzymatic activities, and protein interactions. Brenneria nigrifluens is a pathogen of walnut trees with shallow bark canker and can cause serious disease in walnut trees. Until now, a little has been known about the roles of lysine acetylation in plant pathogenic bacteria. In the present study, the lysine acetylome of B. nigrifluens was determined by high‐resolution LC‐MS/MS analysis. In total, we identified 1,866 lysine acetylation sites distributed in 737 acetylated proteins. Bioinformatics results indicated that acetylated proteins participate in many different biological functions in B. nigrifluens. Four conserved motifs, namely, LK ac, K ac*F, I*K ac, and L*K ac, were identified in this bacterium. Protein interaction network analysis indicated that all kinds of interactions are modulated by protein lysine acetylation. Overall, 12 acetylated proteins were related to the virulence of B. nigrifluens.

          Abstract

          In the present study, the lysine acetylome of Brenneria nigrifluens was determined by high‐resolution LC‐MS/MS analysis. In total, we identified 1,866 lysine acetylation sites distributed in 737 acetylated proteins. Bioinformatics results indicate that acetylated proteins participate in many different biological functions in B. nigrifluens.

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          Substrate and functional diversity of lysine acetylation revealed by a proteomics survey.

          Sung Chan Kim, Robert Sprung, Yue Chen (2006)
          Acetylation of proteins on lysine residues is a dynamic posttranslational modification that is known to play a key role in regulating transcription and other DNA-dependent nuclear processes. However, the extent of this modification in diverse cellular proteins remains largely unknown, presenting a major bottleneck for lysine-acetylation biology. Here we report the first proteomic survey of this modification, identifying 388 acetylation sites in 195 proteins among proteins derived from HeLa cells and mouse liver mitochondria. In addition to regulators of chromatin-based cellular processes, nonnuclear localized proteins with diverse functions were identified. Most strikingly, acetyllysine was found in more than 20% of mitochondrial proteins, including many longevity regulators and metabolism enzymes. Our study reveals previously unappreciated roles for lysine acetylation in the regulation of diverse cellular pathways outside of the nucleus. The combined data sets offer a rich source for further characterization of the contribution of this modification to cellular physiology and human diseases.
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            Lysine acetylation is a highly abundant and evolutionarily conserved modification in Escherichia coli.

            Junmei Zhang, Yingming Zhao, Heng Zhu (2009)
            Lysine acetylation and its regulatory enzymes are known to have pivotal roles in mammalian cellular physiology. However, the extent and function of this modification in prokaryotic cells remain largely unexplored, thereby presenting a hurdle to further functional study of this modification in prokaryotic systems. Here we report the first global screening of lysine acetylation, identifying 138 modification sites in 91 proteins from Escherichia coli. None of the proteins has been previously associated with this modification. Among the identified proteins are transcriptional regulators, as well as others with diverse functions. Interestingly, more than 70% of the acetylated proteins are metabolic enzymes and translation regulators, suggesting an intimate link of this modification to energy metabolism. The new dataset suggests that lysine acetylation could be abundant in prokaryotic cells. In addition, these results also imply that functions of lysine acetylation beyond regulation of gene expression are evolutionarily conserved from bacteria to mammals. Furthermore, we demonstrate that bacterial lysine acetylation is regulated in response to stress stimuli.
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              Polyketide synthases and nonribosomal peptide synthetases: the emerging view from bacterial genomics.

              Stefano Donadio, Paolo Monciardini, Margherita Sosio (2007)
              A total of 223 complete bacterial genomes are analyzed, with 281 citations, for the presence of genes encoding modular polyketide synthases (PKS) and nonribosomal peptide synthetases (NRPS). We report on the distribution of these systems in different bacterial taxa and, whenever known, the metabolites they synthesize. We also highlight, in the different bacterial lineages, the PKS and NRPS genes and, whenever known, the corresponding products.
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                Author and article information

                Contributors
                Yong Li:
                ORCID: https://orcid.org/0000-0002-4406-1329
                lylx78@hotmail.com
                Journal
                Journal ID (nlm-ta): Microbiologyopen
                Journal ID (iso-abbrev): Microbiologyopen
                Journal ID (doi): 10.1002/(ISSN)2045-8827
                Journal ID (publisher-id): MBO3
                Title: MicrobiologyOpen
                Publisher: John Wiley and Sons Inc. (Hoboken )
                ISSN (Electronic): 2045-8827
                Publication date (Electronic): 02 November 2019
                Publication date Collection: January 2020
                Volume: 9
                Issue: 1 ( doiID: 10.1002/mbo3.v9.1 )
                Electronic Location Identifier: e00952
                Affiliations
                [ 1 ] The Key Laboratory of National Forestry and Grassland Administration on Forest Protection Research Institute of Forest Ecology, Environment and Protection Chinese Academy of Forestry Beijing China
                Author notes
                [*] [* ] Correspondence

                Yong Li, The Key Laboratory of State Forestry Administration on Forest Protection, Research Institute of Forest Ecology Environment and Protection, Chinese Academy of Forestry, Beijing 100091, China.

                Email: lylx78@ 123456hotmail.com

                Author information
                https://orcid.org/0000-0002-4406-1329
                Article
                Publisher ID: MBO3952
                DOI: 10.1002/mbo3.952
                PMC ID: 6957402
                PubMed ID: 31677250
                SO-VID: cdad4dd4-5188-4b81-94a1-f0c8ed103cd8
                Copyright © © 2019 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.
                License:

                This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

                History
                Date received : 02 May 2019
                Date revision received : 20 September 2019
                Date accepted : 24 September 2019
                Page count
                Figures: 5, Tables: 1, Pages: 11, Words: 6114
                Funding
                Funded by: Chinese Central Government for Basic Scientific Research Operations in Commonweal Research Institutes
                Award ID: CAFRIFEEP201502
                Categories
                Subject: Original Article
                Subject: Original Articles
                Custom metadata
                source-schema-version-number 2.0
                cover-date January 2020
                details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:5.7.4 mode:remove_FC converted:13.01.2020

                ScienceOpen disciplines: Microbiology & Virology
                Keywords: brenneria nigrifluens,interaction network,lysine acetylome,plant pathogen,virulence
                Data availability:
                ScienceOpen disciplines: Microbiology & Virology
                Keywords: brenneria nigrifluens, interaction network, lysine acetylome, plant pathogen, virulence

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