PMID: 19137719Jan 14, 2009Paper

Salicylate degradation by Pseudomonas putida strains not involving the "classical" nah2 operon

Mikrobiologiia
O I SazonovaA M Boronin

Abstract

Genetic systems for salicylate catabolism were analyzed in 12 strains of Pseudomonas putida, isolated from polluted soil samples collected in the Murmansk and Tula oblasts. All of the studied P. putida strains utilize salicylate in the ortho-pathway of catechol cleavage without employing the enzymes of the "classical" nah2 operon. The data demonstrates that salicylate degradation in the studied strains is performed with the involvement of the salicylate hydroxylase gene analogous to the nahU gene of strain P. putida ND6. New variants of salicylate hydroxylase genes nahG1 and nahU were found.

References

Oct 1, 1977·Analytical Biochemistry·V F Kalb, R W Bernlohr
Sep 1, 1988·Biological Chemistry Hoppe-Seyler·U Müller, F Lingens
Sep 23, 1974·Biochemical and Biophysical Research Communications·K M Shamsuzzaman, E A Barnsley
May 1, 1964·The Biochemical Journal·J I Davies, W C Evans
May 6, 2003·Bioscience, Biotechnology, and Biochemistry·Hiroshi Habe, Toshio Omori
Jan 28, 2005·Journal of Medical Microbiology·R AlonsoE Bouza
Feb 14, 2006·Plasmid·Tatyana Yu IzmalkovaAlexander M Boronin
Jul 1, 1992·Plant Physiology·I Raskin

❮ Previous
Next ❯

Citations

Mar 21, 2013·Current Microbiology·Cory D Penn, Steven L Daniel
Feb 9, 2010·Journal of Bacteriology·Craig DanielsJuan Luis Ramos
May 6, 2015·Mikrobiologiia·I A KoshelevaA M Boronin

❮ Previous
Next ❯

Related Concepts

Related Feeds

Bioremediation (ASM)

Bioremediation is the treatment and removal of harmful pollutants or contaminants through the use of microorganisms. Discover the latest research here.