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Rhodococcus rhodochrous ATCC12674 Becomes Alkane-Tolerant upon GroEL2 Overexpression and Survives in the n-Octane Phase in Two Phase Culture

机译：杜鹃红球菌ATCC12674在GroEL2过表达后成为耐烷烃的并在两相培养的正辛烷中存活

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摘要

We recently reported that the overexpression of GroEL2 played an important role in increasing the alkane tolerance of Rhodococcus erythropolis PR4. In the present study, we examined the effects of the introduction of groEL2 on the alkane tolerance of other Rhodococcus strains. The introduction of groEL2 into Rhodococcus strains led to increased alkane tolerance. The translocation of R. rhodochrous ATCC12674 cells to and survival in the n-octane (C8) phase in two phase culture were significantly enhanced by the introduction of groEL2 derived from strain PR4, suggesting that engineering cells to overexpress GroEL2 represents an effective strategy for enhancing organic solvent tolerance in Rhodococcus.

机译：我们最近报道，GroEL2的过表达在增加红球红球菌PR4的烷烃耐受性中起重要作用。在本研究中，我们检查了groEL2导入对其他红球菌菌株耐烷烃性的影响。 groEL2引入红球菌菌株导致烷烃耐受性增加。通过引入菌株PR4产生的groEL2，可显着增强杜鹃红球菌ATCC12674细胞向两相培养中的正辛烷（C8）的易位和存活，这表明过表达GroEL2的工程细胞代表了一种有效的增强细胞生长的策略。红球菌的有机溶剂耐受性。

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期刊名称 Microbes and Environments
作者
Hayato Takihara; Chiaki Matsuura; Jun Ogihara; Noriyuki Iwabuchi; Michio Sunairi;
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作者单位

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年(卷),期 2014(29),4
年度 2014
页码 431–433
总页数 3
原文格式 PDF
正文语种
中图分类应用微生物学;微生物学;
关键词
GroEL2 organic solvent tolerance Rhodococcus alkane cell translocation cell surface property;

机译：GroEL2;有机溶剂耐受性;红球菌;烷烃;细胞移位;细胞表面性质;

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1. Rhodococcus rhodochrous ATCC12674 Becomes Alkane-Tolerant upon GroEL2 Overexpression and Survives in the n-Octane Phase in Two Phase Culture [J] . Takihara Hayato, Matsuura Chiaki, Ogihara Jun, Microbes and Environments . 2014,第4期

机译：杜鹃红球菌ATCC12674在GroEL2过表达后成为耐烷烃的，并在两相培养中的正辛烷中存活
2. Rhodococcus rhodochrous ATCC12674 Becomes Alkane-Tolerant upon GroEL2 Overexpression and Survives in the n -Octane Phase in Two Phase Culture [J] . Hayato Takihara, Chiaki Matsuura, Jun Ogihara, Microbes and Environments . 2014,第4期

机译：杜鹃红球菌ATCC12674在GroEL2过表达后成为耐烷烃的，并在两相培养中的正辛烷中存活
3. Enhanced Translocation and Growth of Rhodococcus erythropolis PR4 in the Alkane Phase of Aqueous-Alkane Two Phase Cultures Were Mediated by GroEL2 Overexpression [J] . Takihara Hayato, Ogihara Jun, Yoshida Takao, Microbes and Environments . 2014,第4期

机译：GroEL2过表达介导水-烷烃两相培养物烷烃相中红球菌PR4的增强转运和生长
4. The effects of branched-tail structure of surfactant on the phase behaviour of alkylglucoside/water/n-octane ternary system [C] . Irwana Nainggolan, Shahidan Radiman, Ahmad Sazali Hamzah, International Conference on Advanced Material Engineering and Technology . 2015

机译：表面活性剂分枝尾结构对烷基葡萄糖/水/正辛烷三元体系相行为的影响
5. Enhancement of the microbial biotransformation of (-)-trans-carveol to (R)-(-)-carvone by Rhodococcus erythropolis DCL14 in various two phase partitioning bioreactor configurations. [D] . Morrish, Jenna Lee Ellen. 2008

机译：在不同的两相分配生物反应器构型中，红球红球菌DCL14增强了（-）-反式香芹酮向（R）-（-）-香芹酮的微生物生物转化。
6. Enhanced Translocation and Growth of Rhodococcus erythropolis PR4 in the Alkane Phase of Aqueous-Alkane Two Phase Cultures Were Mediated by GroEL2 Overexpression [O] . Hayato Takihara, Jun Ogihara, Takao Yoshida, 2014

机译：GroEL2过表达介导水-烷烃两相培养物烷烃相中红球菌PR4的增强转运和生长
7. Enhanced translocation and growth of Rhodococcus erythropolis PR4 in the alkane phase of aqueous-alkane two phase cultures were mediated by GroEL2 overexpression [O] . 瀧原, 速仁, Jun, Ogihara, 吉田, 尊雄, 2014

机译：GroEL2的过表达介导了水红烷烃两相培养物烷烃相中红球红球菌PR4的增强转运和生长

Rhodococcus rhodochrous ATCC12674 Becomes Alkane-Tolerant upon GroEL2 Overexpression and Survives in the n-Octane Phase in Two Phase Culture

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