Block and Boost DNA Transfer: Opposite Roles of OmpA in Natural and Artificial Transformation of Escherichia coli
文献类型: 外文期刊
第一作者: Sun, Dongchang
作者: Sun, Dongchang;Wang, Bing;Zhu, Lihong;Chen, Mengyao;Zhan, Linlin;Sun, Dongchang;Wang, Bing;Zhu, Lihong;Chen, Mengyao;Zhan, Linlin
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.24; 五年影响因子:3.788 )
ISSN: 1932-6203
年卷期: 2013 年 8 卷 3 期
页码:
收录情况: SCI
摘要: Our previous work established that DNA is naturally transferable on agar plates through a new transformation system which is regulated by the stationary phase master regulator RpoS in Escherichia coli. In this transformation system, neither additional Ca2+ nor heat shock is required. Instead, transformation is stimulated by agar. The membrane protein OmpA, a gated pore permeable to ions and larger solutes, serves as a receptor for DNA transfer during bacteriophage infection and conjugation. However, it remains unknown how DNA transfers across membranes and whether OmpA is involved in transformation of E. coli. Here, we explored potential roles of OmpA in natural and chemical transformation of E. coli. We observed that ompA inactivation significantly improved natural transformation on agar plates, indicating that OmpA blocks DNA transfer. Transformation promotion by ompA inactivation also occurred on soft plates, indicating that OmpA blocks DNA transfer independent of agar. By contrast, compared with the wild-type strain, chemical transformation of the ompA mutant was lower, indicating that OmpA has a role in DNA transfer. Inactivation of ompA also reduced chemical transformation in solution containing less Ca2+ or with a shortened time for heat shock, suggesting that the promotion effect of OmpA on DNA transfer does not solely rely on Ca2+ or heat shock. We conclude that OmpA plays opposite roles in natural and chemical transformation: it blocks DNA uptake on agar plates but promotes DNA transfer in the liquid Ca2+ solution. Considering that no single factor was identified to reverse the function of OmpA, we propose that multiple factors may cooperate in the functional reversal of OmpA during natural and artificial transformation of E. coli. Finally, we observed that ompA transcription was not affected by the expression of RpoS, excluding the possibility that RpoS regulates DNA transfer by suppressing ompA transcription.
分类号:
- 相关文献
作者其他论文 更多>>
-
Chromosome-level genome assembly of the aphid Megoura crassicauda
作者:Huang, Tianyu;Wang, Bing;Wang, Guirong;Huang, Tianyu;Cheng, Xu;Wang, Guirong
关键词:
-
Impact of Lactiplantibacillus plantarum on the fermentation quality, nutritional enhancement, and microbial dynamics of whole plant soybean silage
作者:Meng, He;Xu, Yuwen;Wang, Lin;Wang, Bing;Wu, Huimin;Hou, Donghui;Wang, Sui;Tong, Xiaohong;Jiang, Yan;Wang, Shaodong;Meng, He;Tong, Xiaohong;Jiang, Yan;Wang, Shaodong;Xu, Yuwen;Wang, Jianping;Wang, Sui;Jiang, Yan
关键词:soybean; silage; Lactiplantibacillus plantarum; bacterial community; metabolites
-
The Hoverfly Attracting Property of a Methyl Salicylate-Containing (E)-β-Farnesene Analog (3e) and Potential Mechanism by Mediating the EcorOBP15 and EcorOR3
作者:Liu, Yan;Zhang, Yimeng;Chen, Chen;Pan, Shixiang;Lu, Xingxing;Shi, Zhuo;Yang, Zhaokai;Yang, Xinling;Sun, Ruihong;Zhang, Ganyu;Wang, Bing;Huang, Yiwen;Qin, Yaoguo;Huang, Yiwen;Qin, Yaoguo;Li, Xuesheng
关键词:behavioral regulator; hoverfly attraction; field trial; attraction mechanism; odorant-bindingprotein; odorant receptor
-
The Role of (E)-β-Farnesene in Tritrophic Interactions : Biosynthesis, Chemoreception, and Evolution
作者:Wang, Bing;Wang, Guirong;Jacquin-Joly, Emmanuelle;Wang, Guirong
关键词:(E)-beta-farnesene; alarm pheromone; herbivore-induced plant volatiles; odorant receptors; 3D structure-based odor screening; convergent; evolution
-
Nitrogen and phosphorus enrichment differentially affect grassland ecosystem functioning via multitrophic pathways
作者:Yu, Jie;Yu, Jie;Wu, Liji;Wu, Ying;Chen, Dima;Yu, Jie;Wu, Liji;Wu, Ying;Chen, Dima;Wang, Bing;Chen, Huasong;Bai, Yongfei;Bai, Yongfei
关键词:composition-function relationship; diversity-function relationship; ecosystem function and services; functional guilds; multitrophic interactions; multitrophic levels; nutrient enrichments
-
Hot breath, quick exit: aphids flee mammalian heat via TRPA1
作者:Wang, Bing;Yang, Lulu;Wei, Jinjin;Huang, Tianyu;Wang, Guirong;Zhang, Bo;Wang, Guirong;Bohbot, Jonathan
关键词:
Acyrthosiphon pisum ; pre-encounter escape behavior; transient receptor potential A1; thermosensitive neuron; thermal sense; heat avoidance -
Precise Identification and Analysis of Maize Germplasm Resistance to Ear Rot Caused by Six Fusarium Species
作者:Li, Shuai;Zhu, Lihong;Li, Yongxiang;Guo, Yaxuan;Zhang, Yuhang;Huang, Chaosong;Wu, Wenqi;Sun, Suli;Cheng, Zixiang;Duan, Canxing
关键词:maize germplasm;
Fusarium species; ear rot; resistance; precise identification
