Bacillus subtilis: a universal cell factory for industry, agriculture, biomaterials and medicine
Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has b...
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| Published in | Microbial cell factories Vol. 19; no. 1; pp. 1 - 12 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
BioMed Central
03.09.2020
BioMed Central Ltd BMC |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1475-2859 1475-2859 |
| DOI | 10.1186/s12934-020-01436-8 |
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| Abstract | Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems,
Bacillus subtilis
is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of
B. subtilis
. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of
B. subtilis
and its applications. |
|---|---|
| AbstractList | Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications. Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications. Keywords: Bacillus subtilis, Genetic manipulation, Protein expression, Biochemicals, Enzymes, Antimicrobials, Biofilms Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis . Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications. Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications.Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications. Abstract Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium for studies on physiology and metabolism. Furthermore, due to its highly efficient protein secretion system and adaptable metabolism, it has been widely used as a cell factory for microbial production of chemicals, enzymes, and antimicrobial materials for industry, agriculture, and medicine. In this mini-review, we first summarize the basic genetic manipulation tools and expression systems for this bacterium, including traditional methods and novel engineering systems. Secondly, we briefly introduce its applications in the production of chemicals and enzymes, and summarize its advantages, mainly focusing on some noteworthy products and recent progress in the engineering of B. subtilis. Finally, this review also covers applications such as microbial additives and antimicrobials, as well as biofilm systems and spore formation. We hope to provide an overview for novice researchers in this area, offering them a better understanding of B. subtilis and its applications. |
| ArticleNumber | 173 |
| Audience | Academic |
| Author | Su, Yuan Fang, Huan Zhang, Dawei Liu, Chuan |
| Author_xml | – sequence: 1 givenname: Yuan surname: Su fullname: Su, Yuan organization: College of Biotechnology, Tianjin University of Science and Technology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences – sequence: 2 givenname: Chuan surname: Liu fullname: Liu, Chuan organization: Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences, Key Laboratory of Systems Microbial Biotechnology, Chinese Academy of Sciences – sequence: 3 givenname: Huan surname: Fang fullname: Fang, Huan organization: Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences, Key Laboratory of Systems Microbial Biotechnology, Chinese Academy of Sciences – sequence: 4 givenname: Dawei orcidid: 0000-0001-5555-6151 surname: Zhang fullname: Zhang, Dawei email: zhang_dw@tib.cas.cn organization: Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences, Key Laboratory of Systems Microbial Biotechnology, Chinese Academy of Sciences, University of Chinese Academy of Sciences |
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| Snippet | Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems,
Bacillus subtilis
is the key Gram-positive model bacterium... Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model bacterium... Abstract Due to its clear inherited backgrounds as well as simple and diverse genetic manipulation systems, Bacillus subtilis is the key Gram-positive model... |
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| SubjectTerms | Additives Agricultural industry Agriculture Analysis Antibiotics Antiinfectives and antibacterials Antimicrobial agents Antimicrobials Applied Microbiology Bacillus subtilis Bacteria Binding sites Biochemicals Biofilms Biological products Biomaterials Biomedical materials Biotechnology Carbon Chemistry Chemistry and Materials Science CRISPR Deoxyribonucleic acid DNA Drug resistance Efficiency Enzymes Enzymology Factories Genes Genetic aspects Genetic diversity Genetic Engineering Genetic manipulation Genomes Medicine Metabolism Microbial Genetics and Genomics Microbiology Microorganisms Physiological aspects Plasmids Protein expression Protein turnover Proteins Review |
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| Title | Bacillus subtilis: a universal cell factory for industry, agriculture, biomaterials and medicine |
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