The regulatory network controlling natural competence for DNA uptake in Vibrio cholerae

Antonova, Elena S.

02 April 2013

The bacterial pathogen Vibrio cholerae is responsible for ongoing cholera outbreaks in Haiti and elsewhere. Association of V. cholerae with the human host is responsible for fatal disease, but the bacteria also reside as natural inhabitants of aquatic environments, commonly attaching as biofilms to chitinous surfaces of copepods and crabs. Prior studies in V. cholerae demonstrated that competence for genetic transformation, a mechanism of horizontal gene transfer (HGT), requires the TfoX regulator protein that is triggered by chitin, and the HapR transcription factor that is made in response to quorum sensing (QS) signals produced by V. cholerae and Vibrios. To define regulatory components connecting extracellular signals to natural competence, I first demonstrated that QS molecules produced by Vibrios within multi-species chitinous biofilms are required for DNA uptake by V. cholerae, confirming the critical role of QS signals in HGT. Second, I identified by transposon-mutagenesis a new positive regulator of competence, CytR (cytidine repressor), only studied prior in E. coli as a regulator of nucleoside scavenging. Specific mutations in V. cholerae CytR impaired expression of competence genes and halted DNA uptake; and the addition of exogenous cytidine had similar affects as predicted in E. coli. V. cholerae and other competent Vibrios encode TfoX, HapR, and CytR, although none of these regulators directly controls genes coding for the DNA uptake apparatus. Thus, these results have uncovered a regulatory network, likely used by many Vibrios, that contains additional factors linking several extracellular chemical molecules (cytidine, chitin, and QS signals) to DNA uptake. My study has begun to define a molecular mechanism by which both environment and genetics contribute to genome evolution for this important marine pathogen.

Natural competence

HGT

Chitin

Signaling molecules

Vibrio cholerae

Quorum sensing

Cholera

Genetic transformation

Bacterial transformation

Vývoj rychlé metody cílené mutageneze bakterie Streptococcus zooepidemicus / Development of a fast method for site-directed mutagenesis in Streptococcus zooepidemicus

Černý, Zbyněk

January 2016

This diploma thesis is focused on development of a fast method for site-directed gene mutagenesis in Streptococcus zooepidemicus based on the mechanism of natural competence. Several genes were selected based on experimental data which highly probably influence hyaluronic acid synthesis. The deletion of the selected genes from genomic DNA was performed as proof of concept, and the resulting recombinant strains were characterized regarding changes of hyaluronic acid precursor concentrations (glucuronic acid and N-acetylglucosamin) in time of cultivation and the end production of hyaluronic acid.

Komparative Genomanalyse zur Stammoptimierung produktionsnaher Bacillus-Stämme / Comparative genome analysis of production-related Bacillus strains

Wollherr, Antje

26 October 2010

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Komparative Genomik

Bacillus licheniformis

Genomanalyse

Proteasenproduktion

Optimalgenom

natürliche Kompetenz

Kompetenzsystem

Bakterien

DNA-Aufnahme

Pan Genom

Core Genom

Ortholo

comparative genomics

Bacillus licheniformis

genomic analysis

protease production

optimal genome

natural competence

bacteria

dna uptake

pan genome

core genome

orthologous gene

42.30

54.99

WD 500: Bioinformatik {Biologie}

WF 61