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Items: 1 to 20 of 128

1.

Structural characterization of a unique marine animal family 7 cellobiohydrolase suggests a mechanism of cellulase salt tolerance.

Kern M, McGeehan JE, Streeter SD, Martin RN, Besser K, Elias L, Eborall W, Malyon GP, Payne CM, Himmel ME, Schnorr K, Beckham GT, Cragg SM, Bruce NC, McQueen-Mason SJ.

Proc Natl Acad Sci U S A. 2013 Jun 18;110(25):10189-94. doi: 10.1073/pnas.1301502110. Epub 2013 Jun 3.

2.

Sequencing, biochemical characterization, crystal structure and molecular dynamics of cellobiohydrolase Cel7A from Geotrichum candidum 3C.

Borisova AS, Eneyskaya EV, Bobrov KS, Jana S, Logachev A, Polev DE, Lapidus AL, Ibatullin FM, Saleem U, Sandgren M, Payne CM, Kulminskaya AA, Ståhlberg J.

FEBS J. 2015 Dec;282(23):4515-37. doi: 10.1111/febs.13509. Epub 2015 Oct 8.

3.

Expression, crystal structure and cellulase activity of the thermostable cellobiohydrolase Cel7A from the fungus Humicola grisea var. thermoidea.

Momeni MH, Goedegebuur F, Hansson H, Karkehabadi S, Askarieh G, Mitchinson C, Larenas EA, Ståhlberg J, Sandgren M.

Acta Crystallogr D Biol Crystallogr. 2014 Sep;70(Pt 9):2356-66. doi: 10.1107/S1399004714013844. Epub 2014 Aug 29.

4.

Structural, biochemical, and computational characterization of the glycoside hydrolase family 7 cellobiohydrolase of the tree-killing fungus Heterobasidion irregulare.

Momeni MH, Payne CM, Hansson H, Mikkelsen NE, Svedberg J, Engström Å, Sandgren M, Beckham GT, Ståhlberg J.

J Biol Chem. 2013 Feb 22;288(8):5861-72. doi: 10.1074/jbc.M112.440891. Epub 2013 Jan 9.

5.

Loop motions important to product expulsion in the Thermobifida fusca glycoside hydrolase family 6 cellobiohydrolase from structural and computational studies.

Wu M, Bu L, Vuong TV, Wilson DB, Crowley MF, Sandgren M, Ståhlberg J, Beckham GT, Hansson H.

J Biol Chem. 2013 Nov 15;288(46):33107-17. doi: 10.1074/jbc.M113.502765. Epub 2013 Sep 30.

6.

The three-dimensional structure of the cellobiohydrolase Cel7A from Aspergillus fumigatus at 1.5 Å resolution.

Moroz OV, Maranta M, Shaghasi T, Harris PV, Wilson KS, Davies GJ.

Acta Crystallogr F Struct Biol Commun. 2015 Jan 1;71(Pt 1):114-20. doi: 10.1107/S2053230X14027307. Epub 2015 Jan 1.

7.

Structural insights into the inhibition of cellobiohydrolase Cel7A by xylo-oligosaccharides.

Momeni MH, Ubhayasekera W, Sandgren M, Ståhlberg J, Hansson H.

FEBS J. 2015 Jun;282(11):2167-77. doi: 10.1111/febs.13265. Epub 2015 Apr 8.

8.

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
9.

Heterogeneous Expression and Functional Characterization of Cellulose-Degrading Enzymes from Aspergillus niger for Enzymatic Hydrolysis of Alkali Pretreated Bamboo Biomass.

Ali N, Ting Z, Li H, Xue Y, Gan L, Liu J, Long M.

Mol Biotechnol. 2015 Sep;57(9):859-67. doi: 10.1007/s12033-015-9878-x.

PMID:
26202492
10.

N-Linked glycans are an important component of the processive machinery of cellobiohydrolases.

Gusakov AV, Dotsenko AS, Rozhkova AM, Sinitsyn AP.

Biochimie. 2017 Jan;132:102-108. doi: 10.1016/j.biochi.2016.11.004. Epub 2016 Nov 14.

PMID:
27856189
11.

SCHEMA recombination of a fungal cellulase uncovers a single mutation that contributes markedly to stability.

Heinzelman P, Snow CD, Smith MA, Yu X, Kannan A, Boulware K, Villalobos A, Govindarajan S, Minshull J, Arnold FH.

J Biol Chem. 2009 Sep 25;284(39):26229-33. doi: 10.1074/jbc.C109.034058. Epub 2009 Jul 22.

12.

Molecular insight into lignocellulose digestion by a marine isopod in the absence of gut microbes.

King AJ, Cragg SM, Li Y, Dymond J, Guille MJ, Bowles DJ, Bruce NC, Graham IA, McQueen-Mason SJ.

Proc Natl Acad Sci U S A. 2010 Mar 23;107(12):5345-50. doi: 10.1073/pnas.0914228107. Epub 2010 Mar 8.

13.

Anomeric Selectivity and Product Profile of a Processive Cellulase.

Kari J, Kont R, Borch K, Buskov S, Olsen JP, Cruyz-Bagger N, Väljamäe P, Westh P.

Biochemistry. 2017 Jan 10;56(1):167-178. doi: 10.1021/acs.biochem.6b00636. Epub 2016 Dec 27.

PMID:
28026938
14.

The structure of a bacterial cellobiohydrolase: the catalytic core of the Thermobifida fusca family GH6 cellobiohydrolase Cel6B.

Sandgren M, Wu M, Karkehabadi S, Mitchinson C, Kelemen BR, Larenas EA, Ståhlberg J, Hansson H.

J Mol Biol. 2013 Feb 8;425(3):622-35. doi: 10.1016/j.jmb.2012.11.039. Epub 2012 Dec 5.

PMID:
23220193
15.

Automated docking to explore subsite binding by glycoside hydrolase family 6 cellobiohydrolases and endoglucanases.

Mertz B, Hill AD, Mulakala C, Reilly PJ.

Biopolymers. 2007 Nov;87(4):249-60.

PMID:
17724729
16.

The noncellulosomal family 48 cellobiohydrolase from Clostridium phytofermentans ISDg: heterologous expression, characterization, and processivity.

Zhang XZ, Zhang Z, Zhu Z, Sathitsuksanoh N, Yang Y, Zhang YH.

Appl Microbiol Biotechnol. 2010 Mar;86(2):525-33. doi: 10.1007/s00253-009-2231-1. Epub 2009 Oct 15.

PMID:
19830421
17.

Biochemical characterization and crystal structures of a fungal family 3 β-glucosidase, Cel3A from Hypocrea jecorina.

Karkehabadi S, Helmich KE, Kaper T, Hansson H, Mikkelsen NE, Gudmundsson M, Piens K, Fujdala M, Banerjee G, Scott-Craig JS, Walton JD, Phillips GN Jr, Sandgren M.

J Biol Chem. 2014 Nov 7;289(45):31624-37. doi: 10.1074/jbc.M114.587766. Epub 2014 Aug 27.

18.

Accumulation of recombinant cellobiohydrolase and endoglucanase in the leaves of mature transgenic sugar cane.

Harrison MD, Geijskes J, Coleman HD, Shand K, Kinkema M, Palupe A, Hassall R, Sainz M, Lloyd R, Miles S, Dale JL.

Plant Biotechnol J. 2011 Oct;9(8):884-96. doi: 10.1111/j.1467-7652.2011.00597.x. Epub 2011 Feb 28.

19.

Three-dimensional structure of a thermostable native cellobiohydrolase, CBH IB, and molecular characterization of the cel7 gene from the filamentous fungus, Talaromyces emersonii.

Grassick A, Murray PG, Thompson R, Collins CM, Byrnes L, Birrane G, Higgins TM, Tuohy MG.

Eur J Biochem. 2004 Nov;271(22):4495-506.

20.

Biochemical and Structural Characterizations of Two Dictyostelium Cellobiohydrolases from the Amoebozoa Kingdom Reveal a High Level of Conservation between Distant Phylogenetic Trees of Life.

Hobdey SE, Knott BC, Haddad Momeni M, Taylor LE 2nd, Borisova AS, Podkaminer KK, VanderWall TA, Himmel ME, Decker SR, Beckham GT, Ståhlberg J.

Appl Environ Microbiol. 2016 May 16;82(11):3395-409. doi: 10.1128/AEM.00163-16. Print 2016 Jun 1.

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