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Items: 1 to 20 of 102

1.

Crystal structures of the cellulase Cel48F in complex with inhibitors and substrates give insights into its processive action.

Parsiegla G, Reverbel-Leroy C, Tardif C, Belaich JP, Driguez H, Haser R.

Biochemistry. 2000 Sep 19;39(37):11238-46.

PMID:
10985769
2.
3.

Product binding varies dramatically between processive and nonprocessive cellulase enzymes.

Bu L, Nimlos MR, Shirts MR, Ståhlberg J, Himmel ME, Crowley MF, Beckham GT.

J Biol Chem. 2012 Jul 13;287(29):24807-13. doi: 10.1074/jbc.M112.365510. Epub 2012 May 30.

4.

The crystal structure of the processive endocellulase CelF of Clostridium cellulolyticum in complex with a thiooligosaccharide inhibitor at 2.0 A resolution.

Parsiegla G, Juy M, Reverbel-Leroy C, Tardif C, Belaïch JP, Driguez H, Haser R.

EMBO J. 1998 Oct 1;17(19):5551-62.

5.

Recognition of cello-oligosaccharides by a family 17 carbohydrate-binding module: an X-ray crystallographic, thermodynamic and mutagenic study.

Notenboom V, Boraston AB, Chiu P, Freelove AC, Kilburn DG, Rose DR.

J Mol Biol. 2001 Dec 7;314(4):797-806.

PMID:
11733998
6.

Molecular dynamics simulation of the processive endocellulase Cel48F from Clostridium cellulolyticum: a novel "water-control mechanism" in enzymatic hydrolysis of cellulose.

Zhang H, Zhang JL, Sun L, Niu XD, Wang S, Shan YM.

J Mol Recognit. 2014 Jul;27(7):438-47. doi: 10.1002/jmr.2364.

PMID:
24895276
7.

Diverse substrate recognition mechanism revealed by Thermotoga maritima Cel5A structures in complex with cellotetraose, cellobiose and mannotriose.

Wu TH, Huang CH, Ko TP, Lai HL, Ma Y, Chen CC, Cheng YS, Liu JR, Guo RT.

Biochim Biophys Acta. 2011 Dec;1814(12):1832-40. doi: 10.1016/j.bbapap.2011.07.020. Epub 2011 Aug 4.

PMID:
21839861
8.

Crystal structures of Melanocarpus albomyces cellobiohydrolase Cel7B in complex with cello-oligomers show high flexibility in the substrate binding.

Parkkinen T, Koivula A, Vehmaanperä J, Rouvinen J.

Protein Sci. 2008 Aug;17(8):1383-94. doi: 10.1110/ps.034488.108. Epub 2008 May 21.

9.
10.

Molecular determinants of ligand specificity in family 11 carbohydrate binding modules: an NMR, X-ray crystallography and computational chemistry approach.

Viegas A, Brás NF, Cerqueira NM, Fernandes PA, Prates JA, Fontes CM, Bruix M, Romão MJ, Carvalho AL, Ramos MJ, Macedo AL, Cabrita EJ.

FEBS J. 2008 May;275(10):2524-35. doi: 10.1111/j.1742-4658.2008.06401.x. Epub 2008 Apr 15.

11.
12.

Processive Degradation of Crystalline Cellulose by a Multimodular Endoglucanase via a Wirewalking Mode.

Zhang KD, Li W, Wang YF, Zheng YL, Tan FC, Ma XQ, Yao LS, Bayer EA, Wang LS, Li FL.

Biomacromolecules. 2018 May 14;19(5):1686-1696. doi: 10.1021/acs.biomac.8b00340. Epub 2018 Apr 11.

PMID:
29617128
13.
14.
15.

Binding site dynamics and aromatic-carbohydrate interactions in processive and non-processive family 7 glycoside hydrolases.

Taylor CB, Payne CM, Himmel ME, Crowley MF, McCabe C, Beckham GT.

J Phys Chem B. 2013 May 2;117(17):4924-33. doi: 10.1021/jp401410h. Epub 2013 Apr 10.

PMID:
23534900
16.

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.

17.

Crystal structure of Thermobifida fusca endoglucanase Cel6A in complex with substrate and inhibitor: the role of tyrosine Y73 in substrate ring distortion.

Larsson AM, Bergfors T, Dultz E, Irwin DC, Roos A, Driguez H, Wilson DB, Jones TA.

Biochemistry. 2005 Oct 4;44(39):12915-22.

PMID:
16185060
19.

Structural basis for the exocellulase activity of the cellobiohydrolase CbhA from Clostridium thermocellum.

Schubot FD, Kataeva IA, Chang J, Shah AK, Ljungdahl LG, Rose JP, Wang BC.

Biochemistry. 2004 Feb 10;43(5):1163-70.

PMID:
14756552
20.

Structural and molecular basis of cellulase Cel48F by computational modeling: Insight into catalytic and product release mechanism.

Qian M, Guan S, Shan Y, Zhang H, Wang S.

J Struct Biol. 2016 Jun;194(3):347-56. doi: 10.1016/j.jsb.2016.03.012. Epub 2016 Mar 15.

PMID:
26993462

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