Shan Wang , Mingming Liu , Dan Wang , Shanshan Li , Wei Yan
{"title":"质粒pND6-1增强了萘降解恶臭假单胞菌ND6中共驻质粒pND6-2的稳定性和共轭转移","authors":"Shan Wang , Mingming Liu , Dan Wang , Shanshan Li , Wei Yan","doi":"10.1016/j.ejbt.2022.08.002","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>Bacterial cells often harbor multiple plasmids, but the interaction between these plasmids is poorly understood. <em>Pseudomonas putida</em> ND6, one of the typical naphthalene-degrading bacteria, contains two annotated plasmids, pND6-1 and pND6-2. The conjugative plasmid pND6-2 can be used as a helper to mobilize the naphthalene-degrading plasmid pND6-1. The role of pND6-1 in functions other than naphthalene degradation has never been explored. Therefore, it is of great significance to study the possible effect of pND6-1 on the transfer rate or maintenance of pND6-2.</p></div><div><h3>Results</h3><p>To investigate the interaction between pND6-1 and pND6-2, we successfully cured plasmid pND6-1 using the incompatibility method, generated the pND6-1-null strain ND6dp1, and first classified it into the IncP-7 group by curing experimental evidence. Subsequently, the pND6-1-cured mutant showed an insignificant increase in cell growth compared with the wild ND6, indicating that a lower cost was imposed on the host by pND6-1. The influences of pND6-1 on the stability and conjugation of plasmid pND6-2 were subsequently explored. The results showed that the presence of pND6-1 enhanced the stability of pND6-2 in natural host ND6 and heterologous host <em>P. putida</em> KT2440. In addition, the presence of pND6-1 in wild-type hosts promoted intra-specific and inter-specific conjugative transfer efficiency of pND6-2 by 3.9–6.3-fold with <em>P. putida</em>, <em>P. resinovans,</em> and <em>P. fluorescens</em> as the recipients, respectively.</p></div><div><h3>Conclusions</h3><p>Collectively, these results suggest that the plasmid pND6-1 improves the pND6-2 plasmid's stability and transfer rate in the ND6 strain with the selected recipient strains.</p><p><strong>How to cite:</strong> Wang S, Liu M, Wang D, et al. Plasmid pND6-1 enhances the stability and conjugative transfer of co-resident companion plasmid pND6-2 in the naphthalene-degradative <em>Pseudomonas putida</em> strain ND6. Electron J Biotechnol 2022;59. https://doi.org/10.1016/j.ejbt.2022.08.002.</p></div>","PeriodicalId":11529,"journal":{"name":"Electronic Journal of Biotechnology","volume":"59 ","pages":"Pages 74-82"},"PeriodicalIF":2.3000,"publicationDate":"2022-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0717345822000318/pdfft?md5=8969336558eb5397fa5000bf12a1e737&pid=1-s2.0-S0717345822000318-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Plasmid pND6-1 enhances the stability and conjugative transfer of co-resident companion plasmid pND6-2 in the naphthalene-degradative Pseudomonas putida strain ND6\",\"authors\":\"Shan Wang , Mingming Liu , Dan Wang , Shanshan Li , Wei Yan\",\"doi\":\"10.1016/j.ejbt.2022.08.002\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Bacterial cells often harbor multiple plasmids, but the interaction between these plasmids is poorly understood. <em>Pseudomonas putida</em> ND6, one of the typical naphthalene-degrading bacteria, contains two annotated plasmids, pND6-1 and pND6-2. The conjugative plasmid pND6-2 can be used as a helper to mobilize the naphthalene-degrading plasmid pND6-1. The role of pND6-1 in functions other than naphthalene degradation has never been explored. Therefore, it is of great significance to study the possible effect of pND6-1 on the transfer rate or maintenance of pND6-2.</p></div><div><h3>Results</h3><p>To investigate the interaction between pND6-1 and pND6-2, we successfully cured plasmid pND6-1 using the incompatibility method, generated the pND6-1-null strain ND6dp1, and first classified it into the IncP-7 group by curing experimental evidence. Subsequently, the pND6-1-cured mutant showed an insignificant increase in cell growth compared with the wild ND6, indicating that a lower cost was imposed on the host by pND6-1. The influences of pND6-1 on the stability and conjugation of plasmid pND6-2 were subsequently explored. The results showed that the presence of pND6-1 enhanced the stability of pND6-2 in natural host ND6 and heterologous host <em>P. putida</em> KT2440. In addition, the presence of pND6-1 in wild-type hosts promoted intra-specific and inter-specific conjugative transfer efficiency of pND6-2 by 3.9–6.3-fold with <em>P. putida</em>, <em>P. resinovans,</em> and <em>P. fluorescens</em> as the recipients, respectively.</p></div><div><h3>Conclusions</h3><p>Collectively, these results suggest that the plasmid pND6-1 improves the pND6-2 plasmid's stability and transfer rate in the ND6 strain with the selected recipient strains.</p><p><strong>How to cite:</strong> Wang S, Liu M, Wang D, et al. Plasmid pND6-1 enhances the stability and conjugative transfer of co-resident companion plasmid pND6-2 in the naphthalene-degradative <em>Pseudomonas putida</em> strain ND6. 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Plasmid pND6-1 enhances the stability and conjugative transfer of co-resident companion plasmid pND6-2 in the naphthalene-degradative Pseudomonas putida strain ND6
Background
Bacterial cells often harbor multiple plasmids, but the interaction between these plasmids is poorly understood. Pseudomonas putida ND6, one of the typical naphthalene-degrading bacteria, contains two annotated plasmids, pND6-1 and pND6-2. The conjugative plasmid pND6-2 can be used as a helper to mobilize the naphthalene-degrading plasmid pND6-1. The role of pND6-1 in functions other than naphthalene degradation has never been explored. Therefore, it is of great significance to study the possible effect of pND6-1 on the transfer rate or maintenance of pND6-2.
Results
To investigate the interaction between pND6-1 and pND6-2, we successfully cured plasmid pND6-1 using the incompatibility method, generated the pND6-1-null strain ND6dp1, and first classified it into the IncP-7 group by curing experimental evidence. Subsequently, the pND6-1-cured mutant showed an insignificant increase in cell growth compared with the wild ND6, indicating that a lower cost was imposed on the host by pND6-1. The influences of pND6-1 on the stability and conjugation of plasmid pND6-2 were subsequently explored. The results showed that the presence of pND6-1 enhanced the stability of pND6-2 in natural host ND6 and heterologous host P. putida KT2440. In addition, the presence of pND6-1 in wild-type hosts promoted intra-specific and inter-specific conjugative transfer efficiency of pND6-2 by 3.9–6.3-fold with P. putida, P. resinovans, and P. fluorescens as the recipients, respectively.
Conclusions
Collectively, these results suggest that the plasmid pND6-1 improves the pND6-2 plasmid's stability and transfer rate in the ND6 strain with the selected recipient strains.
How to cite: Wang S, Liu M, Wang D, et al. Plasmid pND6-1 enhances the stability and conjugative transfer of co-resident companion plasmid pND6-2 in the naphthalene-degradative Pseudomonas putida strain ND6. Electron J Biotechnol 2022;59. https://doi.org/10.1016/j.ejbt.2022.08.002.
期刊介绍:
Electronic Journal of Biotechnology is an international scientific electronic journal, which publishes papers from all areas related to Biotechnology. It covers from molecular biology and the chemistry of biological processes to aquatic and earth environmental aspects, computational applications, policy and ethical issues directly related to Biotechnology.
The journal provides an effective way to publish research and review articles and short communications, video material, animation sequences and 3D are also accepted to support and enhance articles. The articles will be examined by a scientific committee and anonymous evaluators and published every two months in HTML and PDF formats (January 15th , March 15th, May 15th, July 15th, September 15th, November 15th).
The following areas are covered in the Journal:
• Animal Biotechnology
• Biofilms
• Bioinformatics
• Biomedicine
• Biopolicies of International Cooperation
• Biosafety
• Biotechnology Industry
• Biotechnology of Human Disorders
• Chemical Engineering
• Environmental Biotechnology
• Food Biotechnology
• Marine Biotechnology
• Microbial Biotechnology
• Molecular Biology and Genetics
•Nanobiotechnology
• Omics
• Plant Biotechnology
• Process Biotechnology
• Process Chemistry and Technology
• Tissue Engineering
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