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Items: 1 to 20 of 297

1.

Novel catalytic mechanism of glycoside hydrolysis based on the structure of an NAD+/Mn2+ -dependent phospho-alpha-glucosidase from Bacillus subtilis.

Rajan SS, Yang X, Collart F, Yip VL, Withers SG, Varrot A, Thompson J, Davies GJ, Anderson WF.

Structure. 2004 Sep;12(9):1619-29.

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Crystal structure of Thermotoga maritima alpha-glucosidase AglA defines a new clan of NAD+-dependent glycosidases.

Lodge JA, Maier T, Liebl W, Hoffmann V, Sträter N.

J Biol Chem. 2003 May 23;278(21):19151-8. Epub 2003 Feb 14.

4.

Mechanism of GlvA from Bacillus subtilis: a detailed kinetic analysis of a 6-phospho-alpha-glucosidase from glycoside hydrolase family 4.

Yip VL, Thompson J, Withers SG.

Biochemistry. 2007 Aug 28;46(34):9840-52. Epub 2007 Aug 4.

PMID:
17676871
5.

Genes malh and pagl of Clostridium acetobutylicum ATCC 824 encode NAD+- and Mn2+-dependent phospho-alpha-glucosidase(s).

Thompson J, Hess S, Pikis A.

J Biol Chem. 2004 Jan 9;279(2):1553-61. Epub 2003 Oct 21.

6.

NAD+ and metal-ion dependent hydrolysis by family 4 glycosidases: structural insight into specificity for phospho-beta-D-glucosides.

Varrot A, Yip VL, Li Y, Rajan SS, Yang X, Anderson WF, Thompson J, Withers SG, Davies GJ.

J Mol Biol. 2005 Feb 18;346(2):423-35. Epub 2005 Jan 7.

PMID:
15670594
7.

Crystallization and preliminary X-ray analysis of the 6-phospho-alpha-glucosidase from Bacillus subtilis.

Varrot A, Yamamoto H, Sekiguchi J, Thompson J, Davies GJ.

Acta Crystallogr D Biol Crystallogr. 1999 Jun;55(Pt 6):1212-4.

PMID:
10329789
8.

Thermotoga maritima AglA, an extremely thermostable NAD+-, Mn2+-, and thiol-dependent alpha-glucosidase.

Raasch C, Streit W, Schanzer J, Bibel M, Gosslar U, Liebl W.

Extremophiles. 2000 Aug;4(4):189-200.

PMID:
10972187
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10.

The "open" and "closed" structures of the type-C inorganic pyrophosphatases from Bacillus subtilis and Streptococcus gordonii.

Ahn S, Milner AJ, Fütterer K, Konopka M, Ilias M, Young TW, White SA.

J Mol Biol. 2001 Nov 2;313(4):797-811.

PMID:
11697905
11.

Molecular determinants of substrate recognition in thermostable alpha-glucosidases belonging to glycoside hydrolase family 13.

Tsujimoto Y, Tanaka H, Takemura R, Yokogawa T, Shimonaka A, Matsui H, Kashiwabara S, Watanabe K, Suzuki Y.

J Biochem. 2007 Jul;142(1):87-93. Epub 2007 May 24. Erratum in: J Biochem. 2007 Nov;142(5):663.

PMID:
17525102
13.

Crystal structure of a NAD-dependent D-glycerate dehydrogenase at 2.4 A resolution.

Goldberg JD, Yoshida T, Brick P.

J Mol Biol. 1994 Mar 4;236(4):1123-40.

PMID:
8120891
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15.

Crystal structure and thermostability of a putative α-glucosidase from Thermotoga neapolitana.

Yun BY, Jun SY, Kim NA, Yoon BY, Piao S, Park SH, Jeong SH, Lee H, Ha NC.

Biochem Biophys Res Commun. 2011 Dec 9;416(1-2):92-8. doi: 10.1016/j.bbrc.2011.11.002. Epub 2011 Nov 10.

PMID:
22093829
16.

Crystal structure of glycoside hydrolase family 78 alpha-L-Rhamnosidase from Bacillus sp. GL1.

Cui Z, Maruyama Y, Mikami B, Hashimoto W, Murata K.

J Mol Biol. 2007 Nov 23;374(2):384-98. Epub 2007 Sep 8.

PMID:
17936784
17.

Structure of the manganese-bound manganese transport regulator of Bacillus subtilis.

Glasfeld A, Guedon E, Helmann JD, Brennan RG.

Nat Struct Biol. 2003 Aug;10(8):652-7.

PMID:
12847518
18.

Crystal structure of the quorum-sensing protein LuxS reveals a catalytic metal site.

Hilgers MT, Ludwig ML.

Proc Natl Acad Sci U S A. 2001 Sep 25;98(20):11169-74. Epub 2001 Sep 11.

19.

The crystal structure of Bacillus subtilis lipase: a minimal alpha/beta hydrolase fold enzyme.

van Pouderoyen G, Eggert T, Jaeger KE, Dijkstra BW.

J Mol Biol. 2001 May 25;309(1):215-26.

PMID:
11491291
20.

A catalytic mechanism revealed by the crystal structures of the imidazolonepropionase from Bacillus subtilis.

Yu Y, Liang YH, Brostromer E, Quan JM, Panjikar S, Dong YH, Su XD.

J Biol Chem. 2006 Dec 1;281(48):36929-36. Epub 2006 Sep 21.

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