Use of essential gene, encoding prophobilinogen deaminase from extreme psychrophilic Colwellia sp. C1, to generate temperature‐sensitive strain of Francisella novicida

Use of essential gene, encoding prophobilinogen deaminase from extreme psychrophilic Colwellia sp. C1, to generate temperature‐sensitive strain of Francisella novicida

Previously, several essential genes from psychrophilic bacteria have been substituted for their homologues in mesophilic bacterial pathogens to make the latter temperature sensitive. It has been noted that an essential ligA gene from an extreme psychrophile, Colwellia sp. C1, yielded a gene product...

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Bibliographic Details
Published in:Letters in applied microbiology Vol. 63; no. 2; pp. 124 - 130
Main Author: Pankowski, J.A.
Format: Journal Article
Language:English
Published: England Oxford University Press 01-08-2016
Subjects:
Alteromonadaceae - enzymology
Alteromonadaceae - genetics
Base Sequence
biosafety
Body Temperature
Cold Temperature
Colwellia
essential gene
Francisella - genetics
Francisella - metabolism
Francisella novicida
Genes, Bacterial
Genes, Essential - genetics
Genome, Bacterial - genetics
Humans
Hydroxymethylbilane Synthase - genetics
Hydroxymethylbilane Synthase - metabolism
Phenotype
psychrophile
Sequence Analysis, DNA
temperature‐sensitive
Colwellia
essential gene
temperature-sensitive
psychrophile
biosafety
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Summary:Previously, several essential genes from psychrophilic bacteria have been substituted for their homologues in mesophilic bacterial pathogens to make the latter temperature sensitive. It has been noted that an essential ligA gene from an extreme psychrophile, Colwellia sp. C1, yielded a gene product that is inactivated at 27°C, the lowest that has been observed for any psychrophilic enzyme, and hypothesized that other essential proteins of that strain would also have low inactivation temperatures. This work describes the partial sequencing of the genome of Colwellia sp. C1 strain and the identification of 24 open reading frames encoding homologues of highly conserved bacterial essential genes. The gene encoding porphobilinogen deaminase (hemC), which is involved in the pathway of haem synthesis, has been tested for its ability to convert Francisella novicida into a temperature‐sensitive strain. The hybrid strain carrying the C1‐derived hemC gene exhibited a temperature‐sensitive phenotype with a restrictive temperature of 36°C. These results support the conclusion that Colwellia sp. C1 is a rich source of heat‐labile enzymes. Significance and Impact of the Study The issue of biosafety is often raised when it comes to work with pathogenic organisms. The main concern is caused by the risk of researchers being exposed to infectious doses of dangerous microbes. This paper analyses essential genes identified in partial genomic sequence of the psychrophilic bacterium Collwelia sp. C1. These sequences can be used as a mean of generating temperature‐sensitive strains of pathogenic bacteria. Such strains are incapable of surviving at the temperature of human body. This means they could be applied as vaccines or for safer work with dangerous organisms. Significance and Impact of the Study: The issue of biosafety is often raised when it comes to work with pathogenic organisms. The main concern is caused by the risk of researchers being exposed to infectious doses of dangerous microbes. This paper analyses essential genes identified in partial genomic sequence of the psychrophilic bacterium Collwelia sp. C1. These sequences can be used as a mean of generating temperature‐sensitive strains of pathogenic bacteria. Such strains are incapable of surviving at the temperature of human body. This means they could be applied as vaccines or for safer work with dangerous organisms.
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ISSN:0266-8254
1472-765X
DOI:10.1111/lam.12598