Secretory expression of a heterologous protein, Aiio-AIO6BS, in Bacillus subtilis via a non-classical secretion pathway

文献类型: 外文期刊

第一作者: Pan, Xingliang

作者: Pan, Xingliang;Yang, Yalin;Liu, Xuewei;Li, Dong;Li, Juan;Guo, Xiaoze;Zhou, Zhigang

作者机构:

关键词: AIO6BS;Secretion;Non-classical export pathway;Bacillus subtilis;Cell lysis

期刊名称:BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS ( 影响因子:3.575; 五年影响因子:3.381 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The quenching enzyme AIO6 (AiiO-AIO6) has been reported as a feed additive preparation for application in aquaculture and biological control of pathogenic Aeromonas hydrophila. We developed an economical strategy to express AIO6BS (AiiO-AIO6BS, codon optimized AIO6 in Bacillus subtilis) in Bacillus subtilis for facilitating its widespread application. Promoter p43 without the signal peptide was used for secretory expression of AIO6BS in B. subtilis. Western blotting analysis demonstrated that AIO6BS was successfully expressed and secreted into the cell culture. Expression analysis of AIO6BS in the single or double mutant of the lytC and lytD genes for cell autolysis in B. subtilis 1A751 and cell autolysis-resistant engineered strain LM2531 derived from the wild type 168 indicated that the release of the heterologous protein AIO6BS was not simply mediated by cell lysis. Expression level of AIO6BS did not change in the mutants of B. subtilis that harbored mutations in the secA, tatAC, or ecsA genes compared with that in the parent wild type strain. These results suggested the AIO6BS protein was likely secreted via a non-classical secretion pathway. The expression analysis of the various N- or C-terminal truncated gene products indicated that AIO6BS probably acts as an export signal to direct its self-secretion across the cell membrane. (C) 2016 Elsevier Inc. All rights reserved.

分类号: Q5

  • 相关文献

[1]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.

[2]Codon optimization of Bacillus licheniformis beta-1,3-1,4-glucanase gene and its expression in Pichia pastoris. Teng, Da,Fan, Ying,Yang, Ya-lin,Tian, Zi-gang,Luo, Jin,Wang, Jian-hua.

[3]Optimized gene synthesis, expression and purification of active salivary plasminogen activator alpha 2 (DSPAot2) of Desmodus rotundus in Pichia pastoris. Wei, Zhaorong,Li, Gangqiang,Liu, Dehu,Wang, Yueju,Li, Xiaokun,Liu, Dehu.

[4]DotU expression is highly induced during in vivo infection and responsible for virulence and Hcp1 secretion in avian pathogenic Escherichia coli. Wang, Shaohui,Meng, Qingmei,Han, Xiangan,Han, Yue,Zhao, Yichao,Yang, Denghui,Ding, Chan,Yu, Shengqing,Dai, Jianjun,Meng, Qingmei. 2014

[5]Auto-induction-based Rapid Evaluation of Extracellular Enzyme Expression from Lac Operator-involved Recombinant Escherichia coli. Chen, Wen-Bo,Nie, Yao,Mu, Xiao-Qing,Yan, Wei,Xu, Yan,Chen, Wen-Bo,Nie, Yao,Mu, Xiao-Qing,Yan, Wei,Xu, Yan,Chen, Wen-Bo,Xu, Yan,Xiao, Rong.

[6]Growth promoting effect of a transgenic Bacillus mucilaginosus on tobacco planting. Li, Xin,Wu, Zhiqiang,Li, Weidong,Yan, Ruixiang,Li, Li,Li, Jun,Li, Yihang,Li, Minggang.

[7]In vivo analysis of fibroin heavy chain signal peptide of silkworm Bombyx mori using recombinant baculovirus as vector. Wang, SP,Guo, TQ,Guo, XY,Huang, JT,Lu, CD.

[8]Is secretoneurin a new hormone?. Trudeau, Vance L.,Zhao, E.,Martyniuk, Christopher J.,Martyniuk, Christopher J.,Hu, Hongxia,Volkoff, Helene,Volkoff, Helene,Decatur, Wayne A.,Basak, Ajoy.

[9]Changes of Hypothalamic GnRH-I, POMC and NPY mRNA Expression and Serum IGF-I and Leptin Concentrations during Maturation of Shaoxing Ducks (Anas platyrhynchos). Ni, Y.,Chen, J.,Zhao, R.,Lu, L..

[10]Aflatoxin B1 degradation by Bacillus subtilis UTBSP1 isolated from pistachio nuts of Iran. Farzaneh, Mohsen,Sedaghat, Narges,Ahmadzadeh, Masoud,Javan-Nikkhah, Mohammad,Farzaneh, Mohsen,Shi, Zhi-Qi,Farzaneh, Mohsen,Ghassempour, Alireza,Mirabolfathy, Mansoureh. 2012

[11]Synergistic effects of the combined application of Bacillus subtilis H158 and strobilurins for rice sheath blight control. Liu, Lianmeng,Liang, Mengqi,Li, Lu,Sun, Lei,Xu, Yihua,Gao, Jian,Wang, Ling,Hou, Yuxuan,Huang, Shiwen,Liu, Lianmeng,Li, Lu,Sun, Lei,Xu, Yihua,Huang, Shiwen. 2018

[12]Inhibition of the Aspergillus flavus Growth and Aflatoxin B1 Contamination on Pistachio Nut by Fengycin and Surfactin-Producing Bacillus subtilis UTBSP1. Farzaneh, Mohsen,Ghassempour, Alireza,Farzaneh, Mohsen,Shi, Zhi-Qi,Hu, Liang-Bin,Ahmadzadeh, Masoud,Hu, Liang-Bin. 2016

[13]Chemical composition and in vitro antioxidant property of peptides produced from cottonseed meal by solid-state fermentation. Sun, Hong,Yao, Xiaohong,Wang, Xin,Wu, Yifei,Liu, Yong,Tang, Jiangwu,Feng, Jie. 2015

[14]An enhanced vector-free allele exchange (VFAE) mutagenesis protocol for genome editing in a wide range of bacterial species. Gomaa, Ahmed E.,Zhang, Chen,Yang, Zhimin,Shang, Liguo,Jiang, Shijie,Deng, Zhiping,Zhan, Yuhua,Lu, Wei,Lin, Min,Yan, Yongliang. 2017

[15]Bacisubin, an antifungal protein with ribonuclease and hemagglutinating activities from Bacillus subtilis strain B-916. Chen, Zhiyi,Ng, T. B.,Zhang, Jie,Zhou, Mingguo,Song, Fuping,Lu, Fan,Liu, Youzhou. 2007

[16]Formulations of the endophytic bacterium Bacillus subtilis Tu-100 suppress Sclerotinia sclerotiorum on oilseed rape and improve plant vigor in field trials conducted at separate locations. Roberts, Daniel P.,Maul, Jude E.,Emche, Sarah E.,McKenna, Laurie F.,Buyer, Jeffrey S.,Hu, Xiaojia,Liao, Xing,Guo, Xuelan,Liu, Yeying,Liu, Shengyi. 2011

[17]Biological Effect and Inactivation Mechanism of Bacillus subtilis Exposed to Pulsed Magnetic Field: Morphology, Membrane Permeability and Intracellular Contents. Qian, Jingya,Zhou, Cunshan,Ma, Haile,Li, Shujun,Abdualrahman, Mohammed A. Y.,Qian, Jingya,Zhou, Cunshan,Ma, Haile,Qian, Jingya,Li, Shujun,Yagoub, Abu ElGasim A.,Abdualrahman, Mohammed A. Y.. 2016

[18]Improvement of the Nutritional Quality of Cottonseed Meal by Bacillus subtilis and the Addition of Papain. Sun, Hong,Feng, Jie,Tang, Jiang-Wu,Yao, Xiao-Hong,Wu, Yi-Fei,Wang, Xin. 2012

[19]The siderophore-producing bacterium, Bacillus subtilis CAS15, has a biocontrol effect on Fusarium wilt and promotes the growth of pepper. Yu, Xianmei,Ai, Chengxiang,Xin, Li,Zhou, Guangfang. 2011

[20]Purification and characterization of a xylanase from Bacillus subtilis isolated from the degumming line. Guo, Gang,Liu, Zhengchu,Xu, Junfei,Feng, Xiangyuan,Duan, Shengwen,Zheng, Ke,Cheng, Lifeng,Liu, Jianping,Dai, Xiaoyang,Xie, Daping,Peng, Keqing.

作者其他论文 更多>>

微信小程序