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Items: 1 to 20 of 85

1.

Engineering cellular robustness of microbes by introducing the GroESL chaperonins from extremophilic bacteria.

Luan G, Dong H, Zhang T, Lin Z, Zhang Y, Li Y, Cai Z.

J Biotechnol. 2014 May 20;178:38-40. doi: 10.1016/j.jbiotec.2014.03.010. Epub 2014 Mar 15.

PMID:
24637367
2.

Improving cellular robustness and butanol titers of Clostridium acetobutylicum ATCC824 by introducing heat shock proteins from an extremophilic bacterium.

Liao Z, Zhang Y, Luo S, Suo Y, Zhang S, Wang J.

J Biotechnol. 2017 Jun 20;252:1-10. doi: 10.1016/j.jbiotec.2017.04.031. Epub 2017 Apr 25.

PMID:
28450259
4.

Over-expression of stress protein-encoding genes helps Clostridium acetobutylicum to rapidly adapt to butanol stress.

Mann MS, Dragovic Z, Schirrmacher G, L├╝tke-Eversloh T.

Biotechnol Lett. 2012 Sep;34(9):1643-9. doi: 10.1007/s10529-012-0951-2. Epub 2012 May 22.

PMID:
22618238
5.

Effects of GroESL coexpression on the folding of nicotinoprotein formaldehyde dismutase from Pseudomonas putida F61.

Yanase H, Moriya K, Mukai N, Kawata Y, Okamoto K, Kato N.

Biosci Biotechnol Biochem. 2002 Jan;66(1):85-91.

6.

Genetic improvement of n-butanol tolerance in Escherichia coli by heterologous overexpression of groESL operon from Clostridium acetobutylicum.

Abdelaal AS, Ageez AM, Abd El-Hadi AE, Abdallah NA.

3 Biotech. 2015 Aug;5(4):401-410. doi: 10.1007/s13205-014-0235-8. Epub 2014 Jul 17.

7.

Cloning, sequencing, and functional expression in Escherichia coli of chaperonin (groESL) genes from Vibrio cholerae.

Mizunoe Y, Wai SN, Umene K, Kokubo T, Kawabata S, Yoshida S.

Microbiol Immunol. 1999;43(6):513-20.

8.
9.

Engineering the robustness of Clostridium acetobutylicum by introducing glutathione biosynthetic capability.

Zhu L, Dong H, Zhang Y, Li Y.

Metab Eng. 2011 Jul;13(4):426-34. doi: 10.1016/j.ymben.2011.01.009. Epub 2011 Feb 4.

PMID:
21296183
10.
11.

GroESL overexpression imparts Escherichia coli tolerance to i-, n-, and 2-butanol, 1,2,4-butanetriol and ethanol with complex and unpredictable patterns.

Zingaro KA, Terry Papoutsakis E.

Metab Eng. 2013 Jan;15:196-205. doi: 10.1016/j.ymben.2012.07.009. Epub 2012 Aug 7.

PMID:
22898718
12.
13.

Improved stress tolerance of GroESL-overproducing Lactococcus lactis and probiotic Lactobacillus paracasei NFBC 338.

Desmond C, Fitzgerald GF, Stanton C, Ross RP.

Appl Environ Microbiol. 2004 Oct;70(10):5929-36.

14.

Transcriptional analysis of the groESL operon from Porphyromonas gingivalis.

Hotokezaka H, Ohara N, Hayashida H, Matsumoto S, Matsuo T, Naito M, Kobayashi K, Yamada T.

Oral Microbiol Immunol. 1997 Aug;12(4):236-9.

PMID:
9467393
15.

Engineering alternative butanol production platforms in heterologous bacteria.

Nielsen DR, Leonard E, Yoon SH, Tseng HC, Yuan C, Prather KL.

Metab Eng. 2009 Jul-Sep;11(4-5):262-73. doi: 10.1016/j.ymben.2009.05.003. Epub 2009 May 21.

PMID:
19464384
16.

HrcA is a negative regulator of the dnaK and groESL operons of Streptococcus pyogenes.

Woodbury R, Haldenwang WG.

Biochem Biophys Res Commun. 2003 Mar 21;302(4):722-7.

PMID:
12646229
17.

Toward a semisynthetic stress response system to engineer microbial solvent tolerance.

Zingaro KA, Papoutsakis ET.

MBio. 2012 Oct 2;3(5). pii: e00308-12. doi: 10.1128/mBio.00308-12. Print 2012.

18.

[Cloning, expression and purification of the chaperonin GroESL in Escherichia coli].

Zhou Y, Yin C, Zhang Q, Song D, Chen Y.

Wei Sheng Wu Xue Bao. 1997 Oct;37(5):344-8. Chinese.

PMID:
11189358
19.

Enhancement of butanol tolerance and butanol yield in Clostridium acetobutylicum mutant NT642 obtained by nitrogen ion beam implantation.

Liu XB, Gu QY, Yu XB, Luo W.

J Microbiol. 2012 Dec;50(6):1024-8. doi: 10.1007/s12275-012-2289-9. Epub 2012 Dec 30. Erratum in: J Microbiol. 2013 Feb;51(1):145.

PMID:
23274990
20.

Regulatory mechanisms related to biofuel tolerance in producing microbes.

Fu Y, Chen L, Zhang W.

J Appl Microbiol. 2016 Aug;121(2):320-32. doi: 10.1111/jam.13162. Epub 2016 Jun 28. Review.

PMID:
27123568

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