Research advances on plectasin and its derivatives as new potential antimicrobial candidates

文献类型: 外文期刊

第一作者: Li, Zhanzhan

作者: Li, Zhanzhan;Wang, Xiumin;Wang, Xiao;Teng, Da;Mao, Ruoyu;Hao, Ya;Wang, Jianhua;Li, Zhanzhan;Wang, Xiumin;Wang, Xiao;Teng, Da;Mao, Ruoyu;Hao, Ya;Wang, Jianhua

作者机构:

关键词: Plectasin;Derivative;Antimicrobial peptide;Modification;Expression;Mechanism

期刊名称:PROCESS BIOCHEMISTRY ( 影响因子:3.757; 五年影响因子:3.665 )

ISSN: 1359-5113

年卷期: 2017 年 56 卷

页码:

收录情况: SCI

摘要: Plectasin is a cationic antimicrobial peptide (AMP) that is 40 residues long and belongs to the cysteine-stabilized alpha-helix and beta-sheet superfamily. This peptide, which was first isolated from the saprophytic fungus Pseudoplectania nigrella, exhibits strong bactericidal activity toward several gram positive pathogens, including Staphylococcus aureus and Streptococcus pneumoniae. In this review, we discuss the latest advances made to improve plectasin antimicrobial activity and reduce its cytotoxicity, namely a variety of methods for the design and construction of plectasin derivatives, hybrids, and available expression systems. In addition, we focused on the investigations regarding the biological activity, therapeutic properties, and mechanisms of action of this promising antibiotic. (C) 2017 Elsevier Ltd. All rights reserved.

分类号:

  • 相关文献

[1]Expression of antimicrobial peptide LH multimers in Escherichia coli C43(DE3). Tian, Zi-gang,Dong, Tian-tang,Yang, Ya-lin,Teng, Da,Wang, Jian-hua.

[2]Molecular and biochemical characterization of a distinct tyrosinase involved in melanin production from Aeromonas media. Wan, Xia,Chai, Baozhong,Liao, Yi,Ye, Tao,Shen, Ping,Chen, Xiangdong,Wan, Xia,Su, Ying.

[3]Engineered Bacillus thuringiensis GO33A with broad insecticidal activity against lepidopteran and coleopteran pests. Wang, Guangjun,Zhang, Jie,Song, Fuping,Wu, Jun,Feng, Shuliang,Huang, Dafang.

[4]The Application of 2nd Derivative in NIR and MIR Micro-Imaging of Two Plastic Materials. Wang, Dong,Wang, Jihua,Wang, Dong,Ma, Zhihong,Pan, Ligang,Han, Ping,Zhao, Liu,Li, Xiaoting,Wang, Jihua,Wang, Dong. 2011

[5]Multiple copies of the target gene enhances plectasin secretion in Pichia pastoris X-33. Teng, Da,Xi, Di,Zhang, Jun,Wang, Xiumin,Mao, Ruoyu,Zhang, Yong,Wang, Jianhua,Teng, Da,Xi, Di,Zhang, Jun,Wang, Xiumin,Mao, Ruoyu,Zhang, Yong,Wang, Jianhua. 2015

[6]Characterization of recombinant plectasin: Solubility, antimicrobial activity and factors that affect its activity. Yang, Yalin,Teng, Da,Zhang, Jun,Tian, Zigang,Wang, Shaoran,Wang, Jianhua,Yang, Yalin,Teng, Da,Zhang, Jun,Tian, Zigang,Wang, Shaoran,Wang, Jianhua. 2011

[7]Removal of Oil and Cr( VI) from Wastewater Using Modified Pectin Flocculants. Yang, Kun,Li, Yujing,Chen, Yucheng. 2014

[8]Fast and selective recognizes polysaccharide by surface molecularly imprinted film coated onto aldehyde-modified magnetic nanoparticles. Huang, Weiwei,Yang, Xin,Zhao, Song,Zhang, Min,Hu, Xinglong,Wang, Jing,Zhao, Haitian,Huang, Weiwei,Yang, Xin,Zhang, Min,Wang, Jing,Huang, Weiwei.

[9]Modification of deoiled cumin dietary fiber with laccase and cellulase under high hydrostatic pressure. Mu, Taihua.

[10]Non-thermal plasma assisted polymer surface modification and synthesis: A review. Cheng Yanling,Cheng Yanling,Chen, Paul,Deng, Shaobo,Ruan, Roger,Wang Yingkuan. 2014

[11]Continuous hydrolysis of modified wheat gluten in an enzymatic membrane reactor. Cui, Jie,Kong, Xiangzhen,Hua, Yufei,Zhou, Huiming,Liu, Qing. 2011

[12]Preparation and characterization of zein thermo-modified starch films. Gao, Pingping,Wang, Feng,Gu, Fengying,ning, Jiying,Liang, Jun,Li, Ningbo,Ludescher, Richard D.. 2017

[13]Benzylated modification and dyeing of ramie fiber in supercritical carbon dioxide. Liu, Zhao-Tie,Liu, Zhong-Wen,Liu, Zhao-Tie,Sun, Zhifeng,Liu, Zhong-Wen,Lu, Jian,Xiong, Heping.

[14]beta-Glucans: Relationships between Modification, Conformation and Functional Activities. Wang, Qiang,Sheng, Xiaojing,Shi, Aimin,Hu, Hui,Yang, Ying,Liu, Li,Liu, Hongzhi,Fei, Ling.

[15]Transgenic rice expressing a novel phytase-lactoferricin fusion gene to improve phosphorus availability and antibacterial activity. Deng Li-hua,Weng Lu-shui,Deng Xiang-yang,Xiao Guo-ying,Wang Zuo-ping,Fu Xi-qin,Xin Ye-yun. 2017

[16]The in vitro, in vivo antifungal activity and the action mode of Jelleine-I against Candida species. Jia, Fengjing,Wang, Jiayi,Peng, Jinxiu,Zhao, Ping,Wang, Kairong,Yan, Wenjin,Wang, Rui,Kong, Ziqing. 2018

[17]Identification of a cysteine-rich antimicrobial peptide from salivary glands of the tick Rhipicephalus haemaphysaloides. Zhang, Houshuang,Zhang, Wenjie,Wang, Xinzhi,Zhou, Yongzhi,Wang, Na,Zhou, Jinlin. 2011

[18]Design and pharmacodynamics of recombinant NZ2114 histidine mutants with improved activity against methicillin-resistant Staphylococcus aureus. Chen, Huixian,Feng, Xingjun,Chen, Huixian,Mao, Ruoyu,Teng, Da,Wang, Xiumin,Hao, Ya,Wang, Jianhua,Chen, Huixian,Mao, Ruoyu,Teng, Da,Wang, Xiumin,Hao, Ya,Wang, Jianhua. 2017

[19]Purification of antimicrobial peptide from Antarctic Krill (Euphausia superba) and its function mechanism. Zhao Ling,Yin Bangzhong,Liu Qi,Cao Rong. 2013

[20]Functional analysis of a novel cysteine-rich antimicrobial peptide from the salivary glands of the tick Rhipicephalus haemaphysaloides. Zhang, Houshuang,Yang, Siqi,Gong, Haiyan,Cao, Jie,Zhou, Yongzhi,Zhou, Jinlin,Zhou, Jinlin,Yang, Siqi.

作者其他论文 更多>>

微信小程序