Mechanism of action of a novel recombinant peptide, MP1102, against Clostridium perfringens type C

文献类型: 外文期刊

第一作者: Zong, Lifen

作者: Zong, Lifen;Teng, Da;Wang, Xiumin;Mao, Ruoyu;Yang, Na;Hao, Ya;Wang, Jianhua;Zong, Lifen;Teng, Da;Wang, Xiumin;Mao, Ruoyu;Yang, Na;Hao, Ya;Wang, Jianhua

作者机构:

关键词: Antimicrobial peptides;MP1102;Clostridium perfringens;Antimicrobial characterization;Membrane damage;Intracellular interference

期刊名称:APPLIED MICROBIOLOGY AND BIOTECHNOLOGY ( 影响因子:4.813; 五年影响因子:4.697 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: This work is the first to report the antibacterial characteristics and antibacterial mechanisms of MP1102, which is a variant of NZ2114, against pathogenic Clostridium perfringens. MP1102 exhibited strong antimicrobial activity against C. perfringens strains CVCC 61, CVCC 1163, and CVCC 2032 at a low minimal inhibitory concentration (MIC) of 0.91 mu M. MP1102 showed anti-C. perfringens activity over a wide pH range of 2.0 and 10.0, high thermal stability from 20 to 80 A degrees C, and remarkable resistance to pepsin. The fractional inhibitory concentration index (FICI) indicated an additive or synergic effect between MP1102 and bacitracin zinc, nisin, vancomycin, virginiamycin, aureomycin, and ampicillin against C. perfringens (FICI = 0.3125-1.0). To further elucidate the antibacterial mechanism of MP1102, its effect on the C. perfringens CVCC 61 cell membrane and intracellular DNA was studied. Flow cytometry and scanning electron microscopy (SEM) indicated that MP1102 treatment resulted in the release of cellular contents by damaging the membrane. A DNA gel retardation and circular dichroism analysis demonstrated that MP1102 interacted with DNA and intercalated into the DNA base pairs. A cell cycle assay demonstrated that MP1102 affected cellular functions, such as DNA synthesis. These results suggested that MP1102 exhibited potential as a new antimicrobial agent against C. perfringens infections.

分类号: Q939.9`Q81

  • 相关文献

[1]In vitro and in vivo characterization of a new recombinant antimicrobial peptide, MP1102, against methicillin-resistant Staphylococcus aureus. Zhang, Yong,Teng, Da,Wang, Xiumin,Mao, Ruoyu,Cao, Xintao,Hu, Xiaoyuan,Zong, Lifen,Wang, Jianhua,Zhang, Yong,Teng, Da,Wang, Xiumin,Mao, Ruoyu,Cao, Xintao,Hu, Xiaoyuan,Zong, Lifen,Wang, Jianhua.

[2]Effective Antimicrobial Activity of Plectasin-Derived Antimicrobial Peptides against Staphylococcus aureus Infection in Mammary Glands. Li, Lianbin,Gao, Yuqi,Zhao, Xin,Wang, Liangliang,Wang, Jianhua,Zhao, Xin. 2017

[3]Expression and characterization of recombinant gallinacin-9 and gallinacin-8 in Escherichia coli. Ma, De-ying,Shan, An-shan,Liu, Sheng-wang,Han, Zong-xi,Li, Yi-jin.

[4]A dual mechanism involved in membrane and nucleic acid disruption of AvBD103b, a new avian defensin from the king penguin, against Salmonella enteritidis CVCC3377. Teng, Da,Wang, Xiumin,Xi, Di,Mao, Ruoyu,Zhang, Yong,Guan, Qingfeng,Zhang, Jun,Wang, Jianhua,Teng, Da,Wang, Xiumin,Xi, Di,Mao, Ruoyu,Zhang, Yong,Guan, Qingfeng,Zhang, Jun,Wang, Jianhua.

[5]Optimization of expression conditions for a novel NZ2114-derived antimicrobial peptide-MP1102 under the control of the GAP promoter in Pichia pastoris X-33. Mao, Ruoyu,Teng, Da,Wang, Xiumin,Zhang, Yong,Jiao, Jian,Cao, Xintao,Wang, Jianhua,Mao, Ruoyu,Teng, Da,Wang, Xiumin,Zhang, Yong,Jiao, Jian,Cao, Xintao,Wang, Jianhua. 2015

[6]Molecullar Typing, Prevalence of netB and Antimicrobial Susceptibility among Clinical Isolates of Clostridium perfringens from Chickens in Southern China. Wu, Caiyan,Liao, Shenquan,Qi, Nanshan,Peng, Xinyu,Lv, Minna,Sun, Mingfei. 2012

[7]Clostridium infection (Jisizheng) in yaks in Qinghai, China. Qiu, CQ,Yang, XL.

[8]Blocking the butyrate-formation pathway impairs hydrogen production in Clostridium perfringens. Yu, Ruisong,Wang, Ruofan,Zhou, Zhihua,Bi, Ting,Sun, Weining,Yu, Ruisong. 2013

[9]Identification of tyrosine 71 as a critical residue for the cytotoxic activity of Clostridium perfringens epsilon toxin towards MDCK cells. Jiang, Zhigang,Chang, Jitao,Wang, Fang,Yu, Li. 2015

[10]Isolation of Clostridium perfringens strain W11 and optimization of its biohydrogen production by genetic modification. Wang, Ruofan,Qian, Changli,Wei, Yongjun,Yu, Ruisong,Zhou, Zhihua,Zong, Wenming,Yu, Ruisong.

[11]Influence of pCP1NetB ancillary genes on the virulence of Clostridium perfringens poultry necrotic enteritis strain CP1. Zhou, Hongzhuan,Ma, Rongcai,Zhou, Hongzhuan,Lepp, Dion,Liu, Mei,Yin, Xianhua,Gong, Joshua,Pei, Yanlong,Prescott, John F.. 2017

[12]Necrotic enteritis locus 1 diguanylate cyclase and phosphodiesterase (cyclic-di-GMP) gene mutation attenuates virulence in an avian necrotic enteritis isolate of Clostridium perfringens. Parreira, Valeria R.,Ojha, Shivani,Gohari, Iman Mehdizadeh,Susta, Leonardo,Prescott, John F.,Lepp, Dion,Zhou, Hongzhuan,Gong, Jianhua,Zhou, Hongzhuan. 2017

[13]Detection of Different Genotypes of Clostridium perfringens in Feces of Healthy Dairy Cattle from China using Real-Time Duplex PCR Assay. Qiu, Changqing. 2011

[14]The Agr-Like Quorum Sensing System Is Required for Pathogenesis of Necrotic Enteritis Caused by Clostridium perfringens in Poultry. Yu, Qiang,Nie, Shao-Ping,Xie, Ming-Yong,Yu, Qiang,Lepp, Dion,Wu, Tao,Zhou, Hongzhuan,Yin, Xianhua,Yu, Hai,Gong, Joshua,Gohari, Iman Mehdizadeh,Prescott, John F.,Wu, Tao,Zhou, Hongzhuan.

[15]Molecular identification and recombinant expression of red sea bream (Chrysophrys major) hepcidin gene. Chen, Song-Lin,Sui, Shao-Fei,Xu, Mei-Yu,Liu, Yang,Yang, Rong. 2005

[16]Bacterial expression of a Trichosanthes kirilowii defensin (TDEF1) and its antifungal activity on Fusarium oxysporum. Jian Gui-Liang,Zhang Ying-Tao,Ai Tie-Min.

[17]Design and characterization of novel hybrid peptides from LFB15(W4,10), HP(2-20), and cecropin A based on structure parameters by computer-aided method. Tian, Zi-gang,Dong, Tian-tang,Teng, Da,Yang, Ya-lin,Wang, Jian-hua.

[18]Multimerization and fusion expression of bovine lactoferricin derivative LfcinB15-W4,10 in Escherichia coli. Tian, Zi-gang,Da Teng,Yang, Ya-lin,Luo, Jin,Feng, Xing-jun,Fan, Ying,Zhang, Fan,Wang, Jian-hua.

[19]Fusion expression of bovine lactoferricin in Escherichia coli. Feng, Xing-jun,Wang, Jian-hua,Shan, An-shan,Teng, Da,Yang, Ya-lin,Yao, Yi,Yang, Guan-pin,Shao, Yan-chun,Liu, Shuo,Zhang, Fan.

[20]EST-based in silico identification and in vitro test of antimicrobial peptides in Brassica napus. Ke, Tao,Cao, Huihui,Huang, Junyan,Dong, Caihua,Yu, Jingyin,Mao, Han,Liu, Shengyi,Ke, Tao,Wang, Xi,Niu, Qiuhong,Hui, Fengli,Huang, Junyan,Hu, Fan,Huang, Jin,Dong, Caihua,Ma, Xiangdong,Liu, Shengyi. 2015

作者其他论文 更多>>

微信小程序