Biotechnology Bulletin ›› 2020, Vol. 36 ›› Issue (10): 150-155.doi: 10.13560/j.cnki.biotech.bull.1985.2020-0003
Previous Articles Next Articles
NIE Zhi-hua1,2(), ZHU Lei-lei2()
Received:
2020-01-02
Online:
2020-10-26
Published:
2020-11-02
Contact:
ZHU Lei-lei
E-mail:niezhh@tib.cas.cn;zhu_ll@tib.cas.cn
NIE Zhi-hua, ZHU Lei-lei. Effects of Biotin on L-Glutamate Efflux Mediated by MscCG in Fermentation Process[J]. Biotechnology Bulletin, 2020, 36(10): 150-155.
仪器名称 | 生产厂家 |
---|---|
SBA-40D生物传感分析仪 | 山东省科学院生物研究所 |
Biolector 微型生物反应器 | 德国M2P Labs |
全自动高压灭菌锅 | 山东博科科学仪器有限公司 |
恒温培养摇床 | 上海知楚仪器有限公司 |
培养箱 | 上海和呈仪器制造有限公司 |
紫外超净工作台 | 苏州安泰空气技术有限公司 |
紫外分光光度计 | 上海奥析科学仪器有限公司 |
电子天平 | 上海精密仪器仪表有限公司 |
精密pH 计 | 上海般特仪器有限公司 |
电转仪 | Eppendorf 公司 |
恒温自动水浴锅 | 江苏金怡仪器科技有限公司 |
仪器名称 | 生产厂家 |
---|---|
SBA-40D生物传感分析仪 | 山东省科学院生物研究所 |
Biolector 微型生物反应器 | 德国M2P Labs |
全自动高压灭菌锅 | 山东博科科学仪器有限公司 |
恒温培养摇床 | 上海知楚仪器有限公司 |
培养箱 | 上海和呈仪器制造有限公司 |
紫外超净工作台 | 苏州安泰空气技术有限公司 |
紫外分光光度计 | 上海奥析科学仪器有限公司 |
电子天平 | 上海精密仪器仪表有限公司 |
精密pH 计 | 上海般特仪器有限公司 |
电转仪 | Eppendorf 公司 |
恒温自动水浴锅 | 江苏金怡仪器科技有限公司 |
[1] |
Brosnan JT, Brosnan ME. Glutamate:a truly functional amino acid[J]. Amino Acids, 2013,45:413-418.
URL pmid: 22526238 |
[2] |
Jinap S, Hajeb P, Glutamate. Its applications in food and contribution to health[J]. Appetite, 2010,55(1):1-10.
URL pmid: 20470841 |
[3] |
Becker J, Wittmann C. Systems and synthetic metabolic engineering for amino acid production—the heartbeat of industrial strain development[J]. Curr Opin Biotechnol, 2012,23:718-726.
URL pmid: 22244788 |
[4] | Wen J, Xiao Y, Liu T, et al. Rich biotin content inlignocellulose biomass plays the key role in determining cellulosic glutamic acid accumulation by Corynebacterium glutamicum[J]. Biotechnology for Biofuels, 2018,11(1):132-143. |
[5] | Shiio I, Otsuka SI, Katsuya N. Effect of biotin on the bacterial formation of glutamic acid. II. Metabolism of glucose[J]. Journal of Biochemistry, 1962,52(1):108-116. |
[6] | Eggelling L, Krumbach K, Sahm H. L-glutamate efflux with Corynebacterium glutamicum:why is penicillin treatment or Tween addition doing the same[J]. Journal of Molecular Microbiology & Biotechnology, 2001,3(1):67-68. |
[7] | Clement Y, Laneelle G. Glutamate excretion mechanism in Corynebacterium glutamicum triggering by biotin starvation or by surfactant addition[J]. Journal of General Microbiology, 1986,132(4):925-929. |
[8] | Eggeling L. Exporters for production of amino acids and other small molecules[J]. Advances in Biochemical Engineering-Biotechnology, 2017,159:199-225. |
[9] | Marin K, Kramer R. Amino acid transport systems in biotechnolo-gically relevant bacteria[C]// Wendisch VF, Amino acid biosyn-confproc-pathways, regulation and metabolic engineering[C]. Berlin:Springer, 2005: 289-325. |
[10] |
Park JH, Lee SY. Towards systems metabolic engineering of microorganisms for amino acid production[J]. Current Opinion in Biotechnology, 2008,19:454-460.
URL pmid: 18760356 |
[11] |
Nakamura J, Hirano S, Wachi M. Mutations of the Corynebacterium glutamicum NCgl1221 gene, encoding a mechanosensitive channel homolog, induce L-glutamic acid production[J]. Applied and Environmental Microbiology, 2007,73(14):4491-4498.
URL pmid: 17513583 |
[12] | Wang Y, Cao GQ, Xu DY, et al. A Novel Corynebacterium glutamicum l-glutamate exporter[J]. Applied and Environmental Microbiology, 2018,84(6):1-17. |
[13] |
Becker M, Krämer R. MscCG from Corynebacterium glutamicum:functional significance of the C-terminal domain[J]. Eur Biophys J, 2015,44(7):577-588.
URL pmid: 26033538 |
[14] |
Nakayama Y, Komazawa K, Bavi N, et al. Evolutionary specializa-tion of MscCG, an MscS-like mechanosensitive channel, in amino acid transport in Corynebac-terium glutamicum[J]. Sci Rep, 2018,8(1):12893.
URL pmid: 30150671 |
[15] | Bavi N, Cortes DM, Cox CD, et al. The role of MscL amphipathic N terminus indicates a blueprint for bilayer mediated gating of mechanosensitive channels[J]. Nat Commun, 2016,7:11984. |
[16] | Levina N, Totemeyer S, Stokes NR, et al. Protection of Escherichia coli cells against extreme turgor by activation of MscS and MscL mechanosensitive channels:identification of genes required for MscS activity[J]. EMBO Journal, 1999,18(7):1730-1737. |
[17] |
Nakamura J, Hirano S, Ito H, et al. Mutations of the Corynebacterium glutamicum NCgl1221 gene, encoding a mechanosensitive channel homolog, induce l-glutamic acid production[J]. Appl Environ Microbiol, 2007,73(14):4491-4498.
URL pmid: 17513583 |
[18] | Jansen RP, Beuck C, Moch M, et al. A closer look at Aspergillus:online monitoring via scattered light enables reproducible phenotyping[J]. Fungal Biotechnol, 2019,6:11. |
[19] | 林灯. 谈谈谷氨酸发酵中生物素问题[J]. 发酵科技通讯, 2003(1):25-26. |
Lin D. Problems of biotin in glutamate fermentation process[J]. Bulletin of Fermentation Science and Technology, 2003(1):25-26. | |
[20] | 刘树涛, 王文风. 生物素与谷氨酸发酵[J]. 山东食品发酵, 2009(4):11-14. |
Liu ST, Wang WF. Biotin and glutamate fermentation[J]. Bulletin of Fermentation Science and Technology, 2009(4):11-14. | |
[21] | 张克旭, 邱志成, 林瑾琳, 等. 控制生物素亚适量在谷氨酸发酵中的本质作用是什么[J]. 发酵科技通讯, 2009,2:23. |
Zhang KX, Qiu ZC, Lin JL, et al. What is the essential role of controlling the optimum amount of biotin in glutamate fermentation process[J]. Bulletin of Fermentation Science and Technology, 2009,38(2):23. | |
[22] | 张克旭, 邱志成, 林瑾琳, 等. 谷氨酸发酵过程中pH值过高或过低有什么不好[J]. 发酵科技通讯, 2009,38(3):47. |
Zhang KX, Qiu ZC, Lin JL, et al. The effect of high or low pH in glutamate fermentation process[J]. Bulletin of Fermentation Science and Technology, 2009,38(3):47. |
[1] | WU Qiao-yin, SHI You-zhi, LI Lin-lin, PENG Zheng, TAN Zai-yu, LIU Li-ping, ZHANG Juan, PAN Yong. In Situ Screening of Carotenoid Degrading Strains and the Application in Improving Quality and Aroma of Cigar [J]. Biotechnology Bulletin, 2023, 39(9): 192-201. |
[2] | MIAO Yong-mei, MIAO Cui-ping, YU Qing-cai. Properties of Bacillus subtilis Strain BBs-27 Fermentation Broth and the Inhibition of Lipopeptides Against Fusarium culmorum [J]. Biotechnology Bulletin, 2023, 39(9): 255-267. |
[3] | XUE Ning, WANG Jin, LI Shi-xin, LIU Ye, CHENG Hai-jiao, ZHANG Yue, MAO Yu-feng, WANG Meng. Construction of L-phenylalanine High-producing Corynebacterium glutamicum Engineered Strains via Multi-gene Simultaneous Regulation Combined with High-throughput Screening [J]. Biotechnology Bulletin, 2023, 39(9): 268-280. |
[4] | XU Fa-di, XU Kang, SUN Dong-ming, LI Meng-lei, ZHAO Jian-zhi, BAO Xiao-ming. Research Progress in Second-generation Fuel Ethanol Technology Based on Poplar(Populus sp.) [J]. Biotechnology Bulletin, 2023, 39(9): 27-39. |
[5] | LIU Jia-hui, LIU Ye, HUA Er-bing, WANG Meng. PAM Extension of Cytosine Base Editing Tool in Corynebacterium glutamicum [J]. Biotechnology Bulletin, 2023, 39(9): 49-57. |
[6] | ZHANG Yue-yi, LAN She-yi, PEI Hai-run, FENG Di. Process Optimization of Multi-strain Fermented Oat Bran and Hair Efficacy Evaluation [J]. Biotechnology Bulletin, 2023, 39(9): 58-70. |
[7] | CHENG Ya-nan, ZHANG Wen-cong, ZHOU Yuan, SUN Xue, LI Yu, LI Qing-gang. Synthetic Pathway Construction of Producing 2'-fucosyllactose by Lactococcus lactis and Optimization of Fermentation Medium [J]. Biotechnology Bulletin, 2023, 39(9): 84-96. |
[8] | ZHAO Si-jia, WANG Xiao-lu, SUN Ji-lu, TIAN Jian, ZHANG Jie. Modification of Pichia pastoris for Erythritol Production by Metabolic Engineering [J]. Biotechnology Bulletin, 2023, 39(8): 137-147. |
[9] | LI Xin-yue, ZHOU Ming-hai, FAN Ya-chao, LIAO Sha, ZHANG Feng-li, LIU Chen-guang, SUN Yue, ZHANG Lin, ZHAO Xin-qing. Research Progress in the Improvement of Microbial Strain Tolerance and Efficiency of Biological Manufacturing Based on Transporter Engineering [J]. Biotechnology Bulletin, 2023, 39(11): 123-136. |
[10] | CHE Yong-mei, LIU Guang-chao, GUO Yan-ping, YE Qing, ZHAO Fang-gui, LIU Xin. Preparation of Compound Halotolerant Bioinoculant and Study on Its Growth-promoting Effect [J]. Biotechnology Bulletin, 2023, 39(11): 217-225. |
[11] | SUN Yan-qiu, XIE Cai-yun, TANG Yue-qin. Construction and Mechanism Analysis of High-temperature Resistant Saccharomyces cerevisiae [J]. Biotechnology Bulletin, 2023, 39(11): 226-237. |
[12] | REN Hai-wei, SUN Yi-fan, REN Yu-wei, GUO Xiao-peng, PAN Li-chao, ZHANG Bing-yun, LI Jin-ping. Research Progress of Silage Additives Based on Bibliometrics [J]. Biotechnology Bulletin, 2022, 38(8): 261-274. |
[13] | WANG Xin-guang, TIAN Lei, WANG En-ze, ZHONG Cheng, TIAN Chun-jie. Construction of Microbial Consortium for Efficient Degradation of Corn Straw and Evaluation of Its Degradation Effect [J]. Biotechnology Bulletin, 2022, 38(4): 217-229. |
[14] | LI Zhi-hao, ZHANG Ge, MO Zhi-jie, DENG Shuai-jun, LI Jia-yi, ZHANG Hai-bo, LIU Xiao-hui, LIU Hao-bao. Effects of a Xylanase-producing Bacillus cereus on the Composition and Fermented Products of Cigar Leaves [J]. Biotechnology Bulletin, 2022, 38(2): 105-112. |
[15] | JIANG Huan, MA Jiang-shan, ZENG Bai-quan, ZHANG Liang-bo, LI Pei-wang. Research Progress in 1, 3-Propanediol Production by Fermenting Crude Glycerol [J]. Biotechnology Bulletin, 2022, 38(10): 45-53. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||