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Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis
BACKGROUND: Besides Escherichia coli, Bacillus subtilis is an important bacterial species for the production of recombinant proteins. Recombinant genes are inserted into shuttle expression vectors which replicate in both E. coli and in B. subtilis. The ligation products are first transformed into E....
Autores principales: | , , , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
BioMed Central
2017
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5526301/ https://www.ncbi.nlm.nih.gov/pubmed/28743271 http://dx.doi.org/10.1186/s12934-017-0747-0 |
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author | Tran, Dinh Thi Minh Phan, Trang Thi Phuong Huynh, Thanh Kieu Dang, Ngan Thi Kim Huynh, Phuong Thi Kim Nguyen, Tri Minh Truong, Tuom Thi Tinh Tran, Thuoc Linh Schumann, Wolfgang Nguyen, Hoang Duc |
author_facet | Tran, Dinh Thi Minh Phan, Trang Thi Phuong Huynh, Thanh Kieu Dang, Ngan Thi Kim Huynh, Phuong Thi Kim Nguyen, Tri Minh Truong, Tuom Thi Tinh Tran, Thuoc Linh Schumann, Wolfgang Nguyen, Hoang Duc |
author_sort | Tran, Dinh Thi Minh |
collection | PubMed |
description | BACKGROUND: Besides Escherichia coli, Bacillus subtilis is an important bacterial species for the production of recombinant proteins. Recombinant genes are inserted into shuttle expression vectors which replicate in both E. coli and in B. subtilis. The ligation products are first transformed into E. coli cells, analyzed for correct insertions, and the correct recombinant plasmids are then transformed into B. subtilis. A major problem using E. coli cells can be the strong basal level of expression of the recombinant protein which may interfere with the stability of the cells. To minimize this problem, we developed strong expression vectors being repressed in E. coli and inducer-free in B. subtilis. RESULTS: In general, induction of IPTG-inducible expression vectors is determined by the regulatory lacI gene encoding the LacI repressor in combination with the lacO operator on the promoter. To investigate the inducer-free properties of the vectors, we constructed inducer-free expression plasmids by removing the lacI gene and characterized their properties. First, we examined the ability to repress a reporter gene in E. coli, which is a prominent property facilitating the construction of the expression vectors carrying a target gene. The β-galactosidase (bgaB gene) basal levels expressed from Pgrac01-bgaB could be repressed at least twice in the E. coli cloning strain. Second, the inducer-free production of BgaB from four different plasmids with the Pgrac01 promoter in B. subtilis was investigated. As expected, BgaB expression levels of inducer-free constructs are at least 37 times higher than that of the inducible constructs in the absence of IPTG, and comparable to those in the presence of the inducer. Third, using efficient IPTG-inducible expression vectors containing the strong promoter Pgrac100, we could convert them into inducer-free expression plasmids. The BgaB production levels from the inducer-free plasmid in the absence of the inducer were at least 4.5 times higher than that of the inducible vector using the same promoter. Finally, we used gfp as a reporter gene in combination with the two promoters Pgrac01 and Pgrac100 to test the new vector types. The GFP expression levels could be repressed at least 1.5 times for the Pgrac01-gfp+ inducer-free construct in E. coli. The inducer-free constructs Pgrac01-gfp+ and Pgrac100-gfp+ allowed GFP expression at high levels from 23 × 10(4) to 32 × 10(4) RFU units and 9–13% of total intracellular proteins. We could reconfirm the two major advantages of the new inducer-free expression plasmids: (1) Strong repression of the target gene expression in the E. coli cloning strain, and (2) production of the target protein at high levels in B. subtilis in the absence of the inducer. CONCLUSIONS: We propose a general strategy to generate inducer-free expression vector by using IPTG-inducible vectors, and more specifically we developed inducer-free expression plasmids using IPTG-inducible promoters in the absence of the LacI repressor. These plasmids could be an excellent choice for high-level production of recombinant proteins in B. subtilis without the addition of inducer and at the same time maintaining a low basal level of the recombinant proteins in E. coli. The repression of the recombinant gene expression would facilitate cloning of genes that potentially inhibit the growth of E. coli cloning strains. The inducer-free expression plasmids will be extended versions of the current available IPTG-inducible expression vectors for B. subtilis, in which all these vectors use the same cognate promoters. These inducer-free and previously developed IPTG-inducible expression plasmids will be a useful cassette to study gene expression at a small scale up to a larger scale up for the production of recombinant proteins. |
format | Online Article Text |
id | pubmed-5526301 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2017 |
publisher | BioMed Central |
record_format | MEDLINE/PubMed |
spelling | pubmed-55263012017-08-02 Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis Tran, Dinh Thi Minh Phan, Trang Thi Phuong Huynh, Thanh Kieu Dang, Ngan Thi Kim Huynh, Phuong Thi Kim Nguyen, Tri Minh Truong, Tuom Thi Tinh Tran, Thuoc Linh Schumann, Wolfgang Nguyen, Hoang Duc Microb Cell Fact Research BACKGROUND: Besides Escherichia coli, Bacillus subtilis is an important bacterial species for the production of recombinant proteins. Recombinant genes are inserted into shuttle expression vectors which replicate in both E. coli and in B. subtilis. The ligation products are first transformed into E. coli cells, analyzed for correct insertions, and the correct recombinant plasmids are then transformed into B. subtilis. A major problem using E. coli cells can be the strong basal level of expression of the recombinant protein which may interfere with the stability of the cells. To minimize this problem, we developed strong expression vectors being repressed in E. coli and inducer-free in B. subtilis. RESULTS: In general, induction of IPTG-inducible expression vectors is determined by the regulatory lacI gene encoding the LacI repressor in combination with the lacO operator on the promoter. To investigate the inducer-free properties of the vectors, we constructed inducer-free expression plasmids by removing the lacI gene and characterized their properties. First, we examined the ability to repress a reporter gene in E. coli, which is a prominent property facilitating the construction of the expression vectors carrying a target gene. The β-galactosidase (bgaB gene) basal levels expressed from Pgrac01-bgaB could be repressed at least twice in the E. coli cloning strain. Second, the inducer-free production of BgaB from four different plasmids with the Pgrac01 promoter in B. subtilis was investigated. As expected, BgaB expression levels of inducer-free constructs are at least 37 times higher than that of the inducible constructs in the absence of IPTG, and comparable to those in the presence of the inducer. Third, using efficient IPTG-inducible expression vectors containing the strong promoter Pgrac100, we could convert them into inducer-free expression plasmids. The BgaB production levels from the inducer-free plasmid in the absence of the inducer were at least 4.5 times higher than that of the inducible vector using the same promoter. Finally, we used gfp as a reporter gene in combination with the two promoters Pgrac01 and Pgrac100 to test the new vector types. The GFP expression levels could be repressed at least 1.5 times for the Pgrac01-gfp+ inducer-free construct in E. coli. The inducer-free constructs Pgrac01-gfp+ and Pgrac100-gfp+ allowed GFP expression at high levels from 23 × 10(4) to 32 × 10(4) RFU units and 9–13% of total intracellular proteins. We could reconfirm the two major advantages of the new inducer-free expression plasmids: (1) Strong repression of the target gene expression in the E. coli cloning strain, and (2) production of the target protein at high levels in B. subtilis in the absence of the inducer. CONCLUSIONS: We propose a general strategy to generate inducer-free expression vector by using IPTG-inducible vectors, and more specifically we developed inducer-free expression plasmids using IPTG-inducible promoters in the absence of the LacI repressor. These plasmids could be an excellent choice for high-level production of recombinant proteins in B. subtilis without the addition of inducer and at the same time maintaining a low basal level of the recombinant proteins in E. coli. The repression of the recombinant gene expression would facilitate cloning of genes that potentially inhibit the growth of E. coli cloning strains. The inducer-free expression plasmids will be extended versions of the current available IPTG-inducible expression vectors for B. subtilis, in which all these vectors use the same cognate promoters. These inducer-free and previously developed IPTG-inducible expression plasmids will be a useful cassette to study gene expression at a small scale up to a larger scale up for the production of recombinant proteins. BioMed Central 2017-07-25 /pmc/articles/PMC5526301/ /pubmed/28743271 http://dx.doi.org/10.1186/s12934-017-0747-0 Text en © The Author(s) 2017 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. |
spellingShingle | Research Tran, Dinh Thi Minh Phan, Trang Thi Phuong Huynh, Thanh Kieu Dang, Ngan Thi Kim Huynh, Phuong Thi Kim Nguyen, Tri Minh Truong, Tuom Thi Tinh Tran, Thuoc Linh Schumann, Wolfgang Nguyen, Hoang Duc Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title | Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title_full | Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title_fullStr | Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title_full_unstemmed | Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title_short | Development of inducer-free expression plasmids based on IPTG-inducible promoters for Bacillus subtilis |
title_sort | development of inducer-free expression plasmids based on iptg-inducible promoters for bacillus subtilis |
topic | Research |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5526301/ https://www.ncbi.nlm.nih.gov/pubmed/28743271 http://dx.doi.org/10.1186/s12934-017-0747-0 |
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