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Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria

BACKGROUND: In the past ten years there has been a growing interest in engineering Gram-positive bacteria for biotechnological applications, including vaccine delivery and production of recombinant proteins. Usually, bacteria are manipulated using plasmid expression vectors. The major limitation of...

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Autores principales: Provvedi, Roberta, Maggi, Tiziana, Oggioni, Marco R, Manganelli, Riccardo, Pozzi, Gianni
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2005
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC548306/
https://www.ncbi.nlm.nih.gov/pubmed/15651989
http://dx.doi.org/10.1186/1472-6750-5-3
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author Provvedi, Roberta
Maggi, Tiziana
Oggioni, Marco R
Manganelli, Riccardo
Pozzi, Gianni
author_facet Provvedi, Roberta
Maggi, Tiziana
Oggioni, Marco R
Manganelli, Riccardo
Pozzi, Gianni
author_sort Provvedi, Roberta
collection PubMed
description BACKGROUND: In the past ten years there has been a growing interest in engineering Gram-positive bacteria for biotechnological applications, including vaccine delivery and production of recombinant proteins. Usually, bacteria are manipulated using plasmid expression vectors. The major limitation of this approach is due to the fact that recombinant plasmids are often lost from the bacterial culture upon removal of antibiotic selection. We have developed a genetic system based on suicide vectors on conjugative transposons allowing stable integration of recombinant DNA into the chromosome of transformable and non-transformable Gram-positive bacteria. RESULTS: The aim of this work was to select a strong chromosomal promoter from Streptococcus gordonii to improve this genetic system making it suitable for expression of single-copy recombinant genes. To achieve this task, a promoterless gene encoding a chloramphenicol acetyltransferase (cat), was randomly integrated into the S. gordonii chromosome and transformants were selected for chloramphenicol resistance. Three out of eighteen chloramphenicol resistant transformants selected exhibited 100% stability of the phenotype and only one of them, GP215, carried the cat gene integrated as a single copy. A DNA fragment of 600 base pairs exhibiting promoter activity was isolated from GP215 and sequenced. The 5' end of its corresponding mRNA was determined by primer extention analysis and the putative -10 and a -35 regions were identified. To study the possibility of using this promoter (PP) for single copy heterologous gene expression, we created transcriptional fusions of PP with genes encoding surface recombinant proteins in a vector capable of integrating into the conjugative transposon Tn916. Surface recombinant proteins whose expression was controlled by the PP promoter were detected in Tn916-containing strains of S. gordonii and Bacillus subtilis after single copy chromosomal integration of the recombinant insertion vectors into the resident Tn916. The surface recombinant protein synthesized under the control of PP was also detected in Enterococcus faecalis after conjugal transfer of a recombinant Tn916 containing the transcriptional fusion. CONCLUSION: We isolated and characterized a S. gordonii chromosomal promoter. We demonstrated that this promoter can be used to direct expression of heterologous genes in different Gram-positive bacteria, when integrated in a single copy into the chromosome.
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spelling pubmed-5483062005-02-06 Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria Provvedi, Roberta Maggi, Tiziana Oggioni, Marco R Manganelli, Riccardo Pozzi, Gianni BMC Biotechnol Methodology Article BACKGROUND: In the past ten years there has been a growing interest in engineering Gram-positive bacteria for biotechnological applications, including vaccine delivery and production of recombinant proteins. Usually, bacteria are manipulated using plasmid expression vectors. The major limitation of this approach is due to the fact that recombinant plasmids are often lost from the bacterial culture upon removal of antibiotic selection. We have developed a genetic system based on suicide vectors on conjugative transposons allowing stable integration of recombinant DNA into the chromosome of transformable and non-transformable Gram-positive bacteria. RESULTS: The aim of this work was to select a strong chromosomal promoter from Streptococcus gordonii to improve this genetic system making it suitable for expression of single-copy recombinant genes. To achieve this task, a promoterless gene encoding a chloramphenicol acetyltransferase (cat), was randomly integrated into the S. gordonii chromosome and transformants were selected for chloramphenicol resistance. Three out of eighteen chloramphenicol resistant transformants selected exhibited 100% stability of the phenotype and only one of them, GP215, carried the cat gene integrated as a single copy. A DNA fragment of 600 base pairs exhibiting promoter activity was isolated from GP215 and sequenced. The 5' end of its corresponding mRNA was determined by primer extention analysis and the putative -10 and a -35 regions were identified. To study the possibility of using this promoter (PP) for single copy heterologous gene expression, we created transcriptional fusions of PP with genes encoding surface recombinant proteins in a vector capable of integrating into the conjugative transposon Tn916. Surface recombinant proteins whose expression was controlled by the PP promoter were detected in Tn916-containing strains of S. gordonii and Bacillus subtilis after single copy chromosomal integration of the recombinant insertion vectors into the resident Tn916. The surface recombinant protein synthesized under the control of PP was also detected in Enterococcus faecalis after conjugal transfer of a recombinant Tn916 containing the transcriptional fusion. CONCLUSION: We isolated and characterized a S. gordonii chromosomal promoter. We demonstrated that this promoter can be used to direct expression of heterologous genes in different Gram-positive bacteria, when integrated in a single copy into the chromosome. BioMed Central 2005-01-14 /pmc/articles/PMC548306/ /pubmed/15651989 http://dx.doi.org/10.1186/1472-6750-5-3 Text en Copyright © 2005 Provvedi et al; licensee BioMed Central Ltd.
spellingShingle Methodology Article
Provvedi, Roberta
Maggi, Tiziana
Oggioni, Marco R
Manganelli, Riccardo
Pozzi, Gianni
Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title_full Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title_fullStr Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title_full_unstemmed Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title_short Selection and characterization of a promoter for expression of single-copy recombinant genes in Gram-positive bacteria
title_sort selection and characterization of a promoter for expression of single-copy recombinant genes in gram-positive bacteria
topic Methodology Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC548306/
https://www.ncbi.nlm.nih.gov/pubmed/15651989
http://dx.doi.org/10.1186/1472-6750-5-3
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