Long-Term Stable and Tightly Controlled Expression of Recombinant Proteins in Antibiotics-Free Conditions

Plasmid-based gene expression is a fundamental tool in the field of biotechnology. However, overexpression of genes of interest with multi-copy plasmids often causes detrimental effects on host cells. To overcome this problem, chromosomal integration of target genes has been used for decades; howeve...

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Veröffentlicht in:	PloS one 2016-12, Vol.11 (12), p.e0166890-e0166890
Hauptverfasser:	Yeom, Soo-Jin, Lee, Dae-Hee, Kim, Yu Jung, Lee, Jeongmin, Kwon, Kil Koang, Han, Gui Hwan, Kim, Haseong, Kim, Hak-Sung, Lee, Seung-Goo
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Sprache:	eng
Schlagworte:	Analysis Anti-Bacterial Agents Antibiotics Bioengineering Biology and Life Sciences Biotechnology Carotenoids Carotenoids - biosynthesis Chromosomes Chromosomes, Bacterial - chemistry Chromosomes, Bacterial - metabolism Cloning Cloning vectors Cloning, Molecular - methods Deoxyribonucleic acid DNA E coli Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism F Factor - chemistry F Factor - metabolism Gene clusters Gene expression Genes Genes, Reporter Genomes Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Industrial production Medicine and Health Sciences Multigene Family Plasmids Protein biosynthesis Protein synthesis Proteins Recombinant proteins Recombinant Proteins - biosynthesis Recombinant Proteins - genetics Research and Analysis Methods Science Synthetic biology
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description	Plasmid-based gene expression is a fundamental tool in the field of biotechnology. However, overexpression of genes of interest with multi-copy plasmids often causes detrimental effects on host cells. To overcome this problem, chromosomal integration of target genes has been used for decades; however, insufficient protein expression occurred with this method. In this study, we developed a novel cloning and expression system named the chromosomal vector (ChroV) system, that has features of stable and high expression of target genes on the F' plasmid in the Escherichia coli JM109(DE3) strain. We used an RMT cluster (KCTC 11994BP) containing a silent cat gene from a previous study to clone a gene into the F' plasmid. The ChroV system was applied to clone two model targets, GFPuv and carotenoids gene clusters (4 kb), and successfully used to prove the inducible tightly regulated protein expression in the F' plasmid. In addition, we verified that the expression of heterologous genes in ChroV system maintained stably in the absence of antibiotics for 1 week, indicating ChroV system is applicable to antibiotics-free production of valuable proteins. This protocol can be widely applied to recombinant protein expression for antibiotics-free, stable, and genome-based expression, providing a new platform for recombinant protein synthesis in E. coli. Overall, our approach can be widely used for the economical and industrial production of proteins in E. coli.
doi_str_mv	10.1371/journal.pone.0166890
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However, overexpression of genes of interest with multi-copy plasmids often causes detrimental effects on host cells. To overcome this problem, chromosomal integration of target genes has been used for decades; however, insufficient protein expression occurred with this method. In this study, we developed a novel cloning and expression system named the chromosomal vector (ChroV) system, that has features of stable and high expression of target genes on the F' plasmid in the Escherichia coli JM109(DE3) strain. We used an RMT cluster (KCTC 11994BP) containing a silent cat gene from a previous study to clone a gene into the F' plasmid. The ChroV system was applied to clone two model targets, GFPuv and carotenoids gene clusters (4 kb), and successfully used to prove the inducible tightly regulated protein expression in the F' plasmid. In addition, we verified that the expression of heterologous genes in ChroV system maintained stably in the absence of antibiotics for 1 week, indicating ChroV system is applicable to antibiotics-free production of valuable proteins. This protocol can be widely applied to recombinant protein expression for antibiotics-free, stable, and genome-based expression, providing a new platform for recombinant protein synthesis in E. coli. 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subjects	Analysis Anti-Bacterial Agents Antibiotics Bioengineering Biology and Life Sciences Biotechnology Carotenoids Carotenoids - biosynthesis Chromosomes Chromosomes, Bacterial - chemistry Chromosomes, Bacterial - metabolism Cloning Cloning vectors Cloning, Molecular - methods Deoxyribonucleic acid DNA E coli Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism F Factor - chemistry F Factor - metabolism Gene clusters Gene expression Genes Genes, Reporter Genomes Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Industrial production Medicine and Health Sciences Multigene Family Plasmids Protein biosynthesis Protein synthesis Proteins Recombinant proteins Recombinant Proteins - biosynthesis Recombinant Proteins - genetics Research and Analysis Methods Science Synthetic biology
title	Long-Term Stable and Tightly Controlled Expression of Recombinant Proteins in Antibiotics-Free Conditions
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