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Literature DB >> 26773214

Too much of a good thing: regulated depletion of c-di-AMP in the bacterial cytoplasm.

Abstract

Bacteria that synthesize c-di-AMP also encode several mechanisms for controlling c-di-AMP levels within the cytoplasm. One major class of phosphodiesterases comprises GdpP and DhhP homologs, which degrade c-di-AMP into the linear molecule 5'-pApA or AMP by the DHH-DHHA1 domain. The other major class comprises PgpH homologs, which degrade c-di-AMP by the HD domain. Both GdpP and PgpH harbor sensory domains, likely to regulate c-di-AMP hydrolysis activity in response to signal input. As another possible mechanism for controlling cytoplasmic c-di-AMP levels, bacteria also secrete c-di-AMP via multidrug resistance transporters, as demonstrated for Listeria monocytogenes. Mutants that accumulate high c-di-AMP levels, by deletion of phosphodiesterases or multidrug resistance transporters, exhibit aberrant physiology, growth defects, and attenuated virulence in infection.

Entities: CellLine Chemical Disease Species

Mesh：

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Year: 2016 PMID： 26773214 PMCID： PMC4821758 DOI： 10.1016/j.mib.2015.12.007

Source DB: PubMed Journal: Curr Opin Microbiol ISSN： 1369-5274 Impact factor: 7.934

37 in total

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Authors: A L Chang; J R Tuckerman; G Gonzalez; R Mayer; H Weinhouse; G Volman; D Amikam; M Benziman; M A Gilles-Gonzalez
Journal: Biochemistry Date: 2001-03-27 Impact factor: 3.162

2. c-di-AMP secreted by intracellular Listeria monocytogenes activates a host type I interferon response.

Authors: Joshua J Woodward; Anthony T Iavarone; Daniel A Portnoy
Journal: Science Date: 2010-05-27 Impact factor: 47.728

3. A cold-sensitive Listeria monocytogenes mutant has a transposon insertion in a gene encoding a putative membrane protein and shows altered (p)ppGpp levels.

Authors: Siqing Liu; Darrell O Bayles; Tricia M Mason; Brian J Wilkinson
Journal: Appl Environ Microbiol Date: 2006-06 Impact factor: 4.792

4. Analysis of the role of Bacillus subtilis σ(M) in β-lactam resistance reveals an essential role for c-di-AMP in peptidoglycan homeostasis.

Authors: Yun Luo; John D Helmann
Journal: Mol Microbiol Date: 2012-01-04 Impact factor: 3.501

5. Unusual heme-binding PAS domain from YybT family proteins.

Authors: Feng Rao; Qiang Ji; Ishin Soehano; Zhao-Xun Liang
Journal: J Bacteriol Date: 2011-01-21 Impact factor: 3.490

6. The novel Listeria monocytogenes bile sensor BrtA controls expression of the cholic acid efflux pump MdrT.

Authors: Sarah J Quillin; Kierstyn T Schwartz; Jess H Leber
Journal: Mol Microbiol Date: 2011-05-23 Impact factor: 3.501

7. YybT is a signaling protein that contains a cyclic dinucleotide phosphodiesterase domain and a GGDEF domain with ATPase activity.

Authors: Feng Rao; Rui Yin See; Dongwei Zhang; Delon Chengxu Toh; Qiang Ji; Zhao-Xun Liang
Journal: J Biol Chem Date: 2009-11-09 Impact factor: 5.157

8. Heat resistance and salt hypersensitivity in Lactococcus lactis due to spontaneous mutation of llmg_1816 (gdpP) induced by high-temperature growth.

Authors: William M Smith; Thi Huong Pham; Lin Lei; Junchao Dou; Aijaz H Soomro; Scott A Beatson; Gary A Dykes; Mark S Turner
Journal: Appl Environ Microbiol Date: 2012-08-24 Impact factor: 4.792

9. Cyclic di-AMP mediates biofilm formation.

Authors: Xian Peng; Yang Zhang; Guangchun Bai; Xuedong Zhou; Hui Wu
Journal: Mol Microbiol Date: 2015-12-15 Impact factor: 3.501

10. c-di-AMP is a new second messenger in Staphylococcus aureus with a role in controlling cell size and envelope stress.

Authors: Rebecca M Corrigan; James C Abbott; Heike Burhenne; Volkhard Kaever; Angelika Gründling
Journal: PLoS Pathog Date: 2011-09-01 Impact factor: 6.823

41 in total

1. Bacterial Second Messenger Cyclic di-AMP Modulates the Competence State in Streptococcus pneumoniae.

Authors: Tiffany M Zarrella; Jun Yang; Dennis W Metzger; Guangchun Bai
Journal: J Bacteriol Date: 2020-01-29 Impact factor: 3.490

2. The Second Messenger c-di-AMP Regulates Diverse Cellular Pathways Involved in Stress Response, Biofilm Formation, Cell Wall Homeostasis, SpeB Expression, and Virulence in Streptococcus pyogenes.

Authors: Tazin Fahmi; Sabrina Faozia; Gary C Port; Kyu Hong Cho
Journal: Infect Immun Date: 2019-05-21 Impact factor: 3.441

Review 3. A decade of research on the second messenger c-di-AMP.

Authors: Wen Yin; Xia Cai; Hongdan Ma; Li Zhu; Yuling Zhang; Shan-Ho Chou; Michael Y Galperin; Jin He
Journal: FEMS Microbiol Rev Date: 2020-11-24 Impact factor: 16.408

4. Increased Excess Intracellular Cyclic di-AMP Levels Impair Growth and Virulence of Bacillus anthracis.

Authors: Jia Hu; Gaobo Zhang; Leiqin Liang; Chengfeng Lei; Xiulian Sun
Journal: J Bacteriol Date: 2020-04-09 Impact factor: 3.490

Review 5. Making and Breaking of an Essential Poison: the Cyclases and Phosphodiesterases That Produce and Degrade the Essential Second Messenger Cyclic di-AMP in Bacteria.

Authors: Fabian M Commichau; Jana L Heidemann; Ralf Ficner; Jörg Stülke
Journal: J Bacteriol Date: 2018-12-07 Impact factor: 3.490

6. c-di-AMP modulates Listeria monocytogenes central metabolism to regulate growth, antibiotic resistance and osmoregulation.

Authors: Aaron T Whiteley; Nicholas E Garelis; Bret N Peterson; Philip H Choi; Liang Tong; Joshua J Woodward; Daniel A Portnoy
Journal: Mol Microbiol Date: 2017-03-08 Impact factor: 3.501

10. Secretion of c-di-AMP by Listeria monocytogenes Leads to a STING-Dependent Antibacterial Response during Enterocolitis.

Authors: Alexander Louie; Varaang Bhandula; Daniel A Portnoy
Journal: Infect Immun Date: 2020-11-16 Impact factor: 3.441