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Literature DB >> 7764093

Conversion to mucoidy in Pseudomonas aeruginosa.

V Deretic¹, D W Martin, M J Schurr, M H Mudd, N S Hibler, R Curcic, J C Boucher.

Abstract

Chronic respiratory complications in cystic fibrosis, compounded by recurring infections with mucoid Pseudomonas aeruginosa and the associated inflammation, are the primary cause of high mortality in this inheritable disease. Since the conversion of P. aeruginosa into the exopolysaccharide alginate overproducing strains plays a critical role in the establishment of chronic infection, studies are directed towards understanding the processes underlying this phenomenon. The genes (algU, mucA, and mucB) and genetic alterations responsible for conversion to mucoidy have been recently characterized. The mutations leading to the emergence of mucoid strains are superimposed on a regulatory system with elements that resemble those controlling other aspects of bacterial developmental physiology.

Entities: Chemical Disease Species

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Year: 1993 PMID： 7764093 DOI： 10.1038/nbt1093-1133

Source DB: PubMed Journal: Biotechnology (N Y) ISSN： 0733-222X

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Cited

16 in total

1. Comparative physiological study of the wild type and the small colony variant of Pseudomonas aeruginosa 20265 under controlled growth conditions.

Authors: W Sabra; A M Haddad; A-P Zeng
Journal: World J Microbiol Biotechnol Date: 2013-10-16 Impact factor: 3.312

Review 2. Pseudomonas biofilm matrix composition and niche biology.

Authors: Ethan E Mann; Daniel J Wozniak
Journal: FEMS Microbiol Rev Date: 2012-01-23 Impact factor: 16.408

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Authors: S Moreno; R Nájera; J Guzmán; G Soberón-Chávez; G Espín
Journal: J Bacteriol Date: 1998-05 Impact factor: 3.490

4. Altered Stool Microbiota of Infants with Cystic Fibrosis Shows a Reduction in Genera Associated with Immune Programming from Birth.

Authors: Katherine M Antosca; Diana A Chernikova; Courtney E Price; Kathryn L Ruoff; Kewei Li; Margaret F Guill; Natalie R Sontag; Hilary G Morrison; Shuyu Hao; Mitchell L Drumm; Todd A MacKenzie; Dana B Dorman; Lynn M Feenan; Molly A Williams; John Dessaint; Irene H Yuan; Brian J Aldrich; Lisa A Moulton; Lily Ting; Ana Martinez-Del Campo; Edward J Stewart; Margaret R Karagas; George A O'Toole; Juliette C Madan
Journal: J Bacteriol Date: 2019-07-24 Impact factor: 3.490

5. The global regulators GacA and sigma(S) form part of a cascade that controls alginate production in Azotobacter vinelandii.

Authors: M Castañeda; J Sánchez; S Moreno; C Núñez; G Espín
Journal: J Bacteriol Date: 2001-12 Impact factor: 3.490

6. Cif is negatively regulated by the TetR family repressor CifR.

Authors: Daniel P MacEachran; Bruce A Stanton; George A O'Toole
Journal: Infect Immun Date: 2008-05-05 Impact factor: 3.441

7. Gene cluster controlling conversion to alginate-overproducing phenotype in Pseudomonas aeruginosa: functional analysis in a heterologous host and role in the instability of mucoidy.

Authors: M J Schurr; D W Martin; M H Mudd; V Deretic
Journal: J Bacteriol Date: 1994-06 Impact factor: 3.490

Review 8. Microbial pathogenesis in cystic fibrosis: mucoid Pseudomonas aeruginosa and Burkholderia cepacia.

Authors: J R Govan; V Deretic
Journal: Microbiol Rev Date: 1996-09

9. Transcriptional analysis of the Pseudomonas aeruginosa genes algR, algB, and algD reveals a hierarchy of alginate gene expression which is modulated by algT.

Authors: D J Wozniak; D E Ohman
Journal: J Bacteriol Date: 1994-10 Impact factor: 3.490

10. Energy metabolism and alginate biosynthesis in Pseudomonas aeruginosa: role of the tricarboxylic acid cycle.

Authors: D Schlictman; A Kavanaugh-Black; S Shankar; A M Chakrabarty
Journal: J Bacteriol Date: 1994-10 Impact factor: 3.490