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Items: 1 to 20 of 153

1.

Three amino acid changes contribute markedly to the thermostability of β-glucosidase BglC from Thermobifida fusca.

Pei XQ, Yi ZL, Tang CG, Wu ZL.

Bioresour Technol. 2011 Feb;102(3):3337-42. doi: 10.1016/j.biortech.2010.11.025. Epub 2010 Nov 12.

PMID:
21129951
2.

Beta-D-glucosidase reaction kinetics from isothermal titration microcalorimetry.

Jeoh T, Baker JO, Ali MK, Himmel ME, Adney WS.

Anal Biochem. 2005 Dec 15;347(2):244-53. Epub 2005 Oct 13.

PMID:
16269126
3.
4.

Enhancement of the activity and alkaline pH stability of Thermobifida fusca xylanase A by directed evolution.

Wang Q, Xia T.

Biotechnol Lett. 2008 May;30(5):937-44. doi: 10.1007/s10529-007-9508-1. Epub 2008 Feb 22.

PMID:
18292971
5.

Fast identification of thermostable beta-glucosidase mutants on cellobiose by a novel combinatorial selection/screening approach.

Liu W, Hong J, Bevan DR, Zhang YH.

Biotechnol Bioeng. 2009 Aug 15;103(6):1087-94. doi: 10.1002/bit.22340.

PMID:
19388085
6.

Mechanism of the family 1 beta-glucosidase from Streptomyces sp: catalytic residues and kinetic studies.

Vallmitjana M, Ferrer-Navarro M, Planell R, Abel M, Ausín C, Querol E, Planas A, Pérez-Pons JA.

Biochemistry. 2001 May 22;40(20):5975-82.

PMID:
11352732
7.

Improving low-temperature catalysis in the hyperthermostable Pyrococcus furiosus beta-glucosidase CelB by directed evolution.

Lebbink JH, Kaper T, Bron P, van der Oost J, de Vos WM.

Biochemistry. 2000 Apr 4;39(13):3656-65.

PMID:
10736164
8.

Mutations in the substrate entrance region of β-glucosidase from Trichoderma reesei improve enzyme activity and thermostability.

Lee HL, Chang CK, Jeng WY, Wang AH, Liang PH.

Protein Eng Des Sel. 2012 Nov;25(11):733-40. doi: 10.1093/protein/gzs073. Epub 2012 Oct 16.

9.

Directed evolution of a thermophilic beta-glucosidase for cellulosic bioethanol production.

Hardiman E, Gibbs M, Reeves R, Bergquist P.

Appl Biochem Biotechnol. 2010 May;161(1-8):301-12. doi: 10.1007/s12010-009-8794-6. Epub 2009 Oct 16.

PMID:
19834652
10.

Design of mutants for enhanced thermostability of β-glycosidase BglY from Thermus thermophilus.

Yi ZL, Zhang SB, Pei XQ, Wu ZL.

Bioresour Technol. 2013 Feb;129:629-33. doi: 10.1016/j.biortech.2012.12.098. Epub 2012 Dec 20.

PMID:
23317553
11.

The 184th residue of β-glucosidase Bgl1B plays an important role in glucose tolerance.

Liu J, Zhang X, Fang Z, Fang W, Peng H, Xiao Y.

J Biosci Bioeng. 2011 Nov;112(5):447-50. doi: 10.1016/j.jbiosc.2011.07.017. Epub 2011 Aug 19.

PMID:
21856223
12.
13.
14.

Expression of thermostable bacterial beta-glucosidase (BglB) in transgenic tobacco plants.

Jung S, Kim S, Bae H, Lim HS, Bae HJ.

Bioresour Technol. 2010 Sep;101(18):7155-61. doi: 10.1016/j.biortech.2010.03.140. Epub 2010 Apr 27.

PMID:
20427180
15.

Site-directed mutation of noncatalytic residues of Thermobifida fusca exocellulase Cel6B.

Zhang S, Irwin DC, Wilson DB.

Eur J Biochem. 2000 Jun;267(11):3101-15.

16.
17.

Purification and biochemical properties of a glucose-stimulated beta-D-glucosidase produced by Humicola grisea var. thermoidea grown on sugarcane bagasse.

Nascimento CV, Souza FH, Masui DC, Leone FA, Peralta RM, Jorge JA, Furriel RP.

J Microbiol. 2010 Feb;48(1):53-62. doi: 10.1007/s12275-009-0159-x. Epub 2010 Mar 11.

PMID:
20221730
18.

Amino acid substitutions enhancing thermostability of Bacillus polymyxa beta-glucosidase A.

Lopez-Camacho C, Salgado J, Lequerica JL, Madarro A, Ballestar E, Franco L, Polaina J.

Biochem J. 1996 Mar 15;314 ( Pt 3):833-8.

19.

DNA family shuffling of hyperthermostable beta-glycosidases.

Kaper T, Brouns SJ, Geerling AC, De Vos WM, Van der Oost J.

Biochem J. 2002 Dec 1;368(Pt 2):461-70.

20.

Structural and functional analyses of beta-glucosidase 3B from Thermotoga neapolitana: a thermostable three-domain representative of glycoside hydrolase 3.

Pozzo T, Pasten JL, Karlsson EN, Logan DT.

J Mol Biol. 2010 Apr 2;397(3):724-39. doi: 10.1016/j.jmb.2010.01.072. Epub 2010 Feb 6.

PMID:
20138890
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