Alginate overproduction and biofilm formation by psychrotolerant Pseudomonas mandelii depends on temperature in Antarctic marine sediments
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Keywords

alginate operon
alginate synthesis
alginate-producing organisms
applications
biotechnological resources
brown algae
environmental bacteria
exopolysaccharide matrix
gels
linear polysaccharides
survival strategies

How to Cite

1.
Vasquez-Ponce F, Higuera-Llantén S, Pavlov MS, Ramírez-Orellana R, Marshall SH, Olivares-Pacheco J. Alginate overproduction and biofilm formation by psychrotolerant Pseudomonas mandelii depends on temperature in Antarctic marine sediments. Electron. J. Biotechnol. [Internet]. 2017 Sep. 6 [cited 2024 Nov. 13];28(1). Available from: https://www.ejbiotechnology.info/index.php/ejbiotechnology/article/view/2017.05.001

Abstract

Background: In recent years, Antarctica has become a key source of biotechnological resources. Native microorganisms have developed a wide range of survival strategies to adapt to the harsh Antarctic environment, including the formation of biofilms. Alginate is the principal component of the exopolysaccharide matrix in biofilms produced by Pseudomonas bacteria, and this component is highly demanded for the production of a wide variety of commercial products. There is a constant search for efficient alginate-producing organisms.

Results: In this study, a novel strain of Pseudomonas mandelii isolated from Antarctica was characterized and found to overproduce alginate compared with others good alginate producers like Pseudomonas aeruginosa or Pseudomonas fluorescens. Alginate production and expression levels of the alginate operon were highest at 4ºC. It is probable that this alginate overproducing phenotype was the result of downregulated MucA, an anti-sigma factor of AlgU.

Conclusion: Since biofilm formation is an efficient bacterial strategy to overcome stressful conditions, alginate overproduction might represent the best solution for the successful adaptation of P. mandelii to the extreme temperatures of the Antarctic. Through additional research, it is possible that this novel P. mandelii strain could become an additional source for biotechnological alginate production.

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