首页> PloS one> Optimization of cell culture and cell disruption processes to enhance the production of thermophilic cellulase FnCel5A in E.coli using response surface methodology.

Optimization of cell culture and cell disruption processes to enhance the production of thermophilic cellulase FnCel5A in E.coli using response surface methodology.

导出 OA

翻译打印收藏纠错

第一作者： Shah Faisal,Mohammad

第一单位： State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai, China.

作者： Shah Faisal,Mohammad ^[1] ; Yan,Feng ^[1] ; Guangyu,Yang ^[1]

作者单位： State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai, China. ^[1]

医学主题词细菌蛋白质类(Bacterial Proteins);细菌学技术(Bacteriological Techniques);纤维素酶(Cellulase);酶测定(Enzyme Assays);大肠杆菌(Escherichia coli);氢离子浓度(Hydrogen-Ion Concentration);重组蛋白质类(Recombinant Proteins);结果可重复性(Reproducibility of Results);温度(Temperature);时间因素(Time Factors)

DOI 10.1371/journal.pone.0210595

PMID 30653549

发布时间 2020-03-09

翻译满意度评价：

准确一般字义偏差语意偏离译文作用小提交

浏览4

PloS one

2019年14卷1期

e0210595页

相似文献

中文期刊
外文期刊
学位论文
会议论文

浏览4

点击下载本期目录封面

PloS one

2019年14卷1期

e0210595页

检索历史清除

Optimization of cell culture and cell disruption processes to enhance the production of thermophilic cellulase FnCel5A in E.coli using response surface methodology.

PloS one

相似文献

同项目论文

PloS one

相关期刊

参考文献：
指定格式：	NoteExpress EndNote RefWorks NoteFirst

检索历史 清除

Optimization of cell culture and cell disruption processes to enhance the production of thermophilic cellulase FnCel5A in E.coli using response surface methodology.

PloS one

相似文献

同项目论文

PloS one

相关期刊

检索历史清除