Deterministic Diagnostic Pattern Generation (DDPG) for Compound Defects

The role of chitin and its hydrolysis products generated by Vibrio cholerae chitinases in mechanisms of its adaptation in water environments, metabolism, preservation, acquisition of pathogenic potential, and its epidemiological value are reviewed. Chitin utilization by V. cholerae as a source of energy, carbon, and nitrogen is described. Chitin association promotes biofilm formation on natural chitinous surfaces, increasing V. cholerae resistance to adverse factors in ecological niches: the human body and water environments with its inhabitants. Hydrolytic enzymes regulated by the corresponding genes result in complete chitin biodegradation by a chitinolytic catabolic cascade. Consequences of V. cholerae cell and chitin interaction at different hierarchical levels include metabolic and physiological cell reactions such as chemotaxis, cell division, biofilm formation, induction of genetic competence, and commensalic and symbiotic mutual relations with higher organisms, nutrient cycle, pathogenicity for humans, and water organisms that is an example of successful interrelation of bacteria and substratum in the ecology of the microorganism.

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Molecular-genetic analysis of Vibrio cholerae El Tor strains of epidemic risk isolated in Siberian and Far East regions of Russia

Mironova

Балахонов

Urbanovich

et al. 2012

Mol. Genet. Microbiol. Virol.

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Whole-Genome Sequencing of a Vibrio cholerae El Tor Strain Isolated in the Imported Cholera Focus in Siberia

et al. 2015

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Model of Vibrio cholerae biofilm as a mechanism of its survival in surface water reservoirs

Куликалова

Саппо

Urbanovich

et al. 2014

Contemp. Probl. Ecol.

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L. Ya. Urbanovich

Chitin and products of its hydrolysis in Vibrio cholerae ecology

Molecular-genetic analysis of Vibrio cholerae El Tor strains of epidemic risk isolated in Siberian and Far East regions of Russia

Whole-Genome Sequencing of a Vibrio cholerae El Tor Strain Isolated in the Imported Cholera Focus in Siberia

Model of Vibrio cholerae biofilm as a mechanism of its survival in surface water reservoirs

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