2015
DOI: 10.1002/prot.24811
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Solution structure and properties of AlgH fromPseudomonas aeruginosa

Abstract: In Pseudomonas aeruginosa, the algH gene regulates the cellular concentrations of a number of enzymes and the production of several virulence factors, and is suggested to serve a global regulatory function. The precise mechanism by which the algH gene product, the AlgH protein, functions is unknown. The same is true for AlgH family members from other bacteria. In order to lay the groundwork for understanding the physical underpinnings of AlgH function, we examined the structure and physical properties of AlgH … Show more

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Cited by 6 publications
(4 citation statements)
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References 94 publications
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“…The functional importance of CooA regulation of algH is unclear. AlgH is a regulatory protein with an α/β structure of unknown function ( 34 ) and algH is not found in the genomic vicinity of CowN in many diazotrophs. CowN expression is also dependent on the central nitrogenase regulator NifA, which binds to a TGT-(N) 10 -ACA UAS ( 35 ) 59 bp upstream of CowN.…”
Section: Resultsmentioning
confidence: 99%
“…The functional importance of CooA regulation of algH is unclear. AlgH is a regulatory protein with an α/β structure of unknown function ( 34 ) and algH is not found in the genomic vicinity of CowN in many diazotrophs. CowN expression is also dependent on the central nitrogenase regulator NifA, which binds to a TGT-(N) 10 -ACA UAS ( 35 ) 59 bp upstream of CowN.…”
Section: Resultsmentioning
confidence: 99%
“…A mutant in the algH gene, which encodes a hypothetical protein that has been crystallized and predicted to be a potential redox sensor, was HOCl sensitive ( Fig. 4A ) ( 41 ). algH is part of a 4-gene operon that includes gshB , which encodes a glutathione synthetase; a gshB mutant was tested, and it displayed HOCl sensitivity ( Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Catabolite repression by the Crc protein appears required for protection against HOCl, possibly indicating that optimal regulation of metabolic flexibility aids defense against HOCl. In step 2, the transcriptional regulator RclR, the H 2 O 2 sensor OxyR ( 42 ), and the hypothetical protein AlgH ( 41 ) all have putative redox-sensing capabilities and were identified as playing a role in protection against HOCl. In step 3, macromolecular repair mechanisms are implicated in the response to HOCl and HOSCN.…”
Section: Discussionmentioning
confidence: 99%
“…A mutant in the algH gene, which encodes a hypothetical protein that has been crystallised and predicted to be a potential redox-sensor, was HOClsensitive ( Fig. 4A) (44). The algH gene is on a 4gene operon that includes gshB, which encodes a glutathione synthetase; a gshB mutant was tested and displayed HOCl-sensitivity ( Fig.…”
Section: Regulators With Putative Roles In the Oxidative Stress Respomentioning
confidence: 99%