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Items: 1 to 20 of 92

1.

The critical role of N- and C-terminal contact in protein stability and folding of a family 10 xylanase under extreme conditions.

Bhardwaj A, Leelavathi S, Mazumdar-Leighton S, Ghosh A, Ramakumar S, Reddy VS.

PLoS One. 2010 Jun 28;5(6):e11347. doi: 10.1371/journal.pone.0011347.

2.

The critical role of partially exposed N-terminal valine residue in stabilizing GH10 xylanase from Bacillus sp.NG-27 under poly-extreme conditions.

Bhardwaj A, Leelavathi S, Mazumdar-Leighton S, Ghosh A, Ramakumar S, Reddy VS.

PLoS One. 2008 Aug 26;3(8):e3063. doi: 10.1371/journal.pone.0003063. Erratum in: PLoS ONE.2009;4(2). doi: 10.1371/annotation/aefbf6a4-298d-4173-907f-9c9a996249b2.. Bharadwaj, Amit [corrected to Bhardwaj, Amit].

3.

Specific characterization of substrate and inhibitor binding sites of a glycosyl hydrolase family 11 xylanase from Aspergillus niger.

Tahir TA, Berrin JG, Flatman R, Roussel A, Roepstorff P, Williamson G, Juge N.

J Biol Chem. 2002 Nov 15;277(46):44035-43. Epub 2002 Aug 30.

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Characterization of active-site aromatic residues in xylanase A from Streptomyces lividans.

Roberge M, Shareck F, Morosoli R, Kluepfel D, Dupont C.

Protein Eng. 1999 Mar;12(3):251-7.

6.

Structural insights into N-terminal to C-terminal interactions and implications for thermostability of a (β/α)8-triosephosphate isomerase barrel enzyme.

Mahanta P, Bhardwaj A, Kumar K, Reddy VS, Ramakumar S.

FEBS J. 2015 Sep;282(18):3543-55. doi: 10.1111/febs.13355. Epub 2015 Jul 15.

PMID:
26102498
7.

The role of tryptophan residues in substrate binding to catalytic domains A and B of xylanase C from Fibrobacter succinogenes S85.

McAllister KA, Marrone L, Clarke AJ.

Biochim Biophys Acta. 2000 Jul 14;1480(1-2):342-52.

PMID:
11004572
8.

Effect of the extra n-terminal methionine residue on the stability and folding of recombinant alpha-lactalbumin expressed in Escherichia coli.

Chaudhuri TK, Horii K, Yoda T, Arai M, Nagata S, Terada TP, Uchiyama H, Ikura T, Tsumoto K, Kataoka H, Matsushima M, Kuwajima K, Kumagai I.

J Mol Biol. 1999 Jan 22;285(3):1179-94. Erratum in: J Mol Biol. 2004 Feb;336(3):825.

PMID:
9887272
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11.

An additional aromatic interaction improves the thermostability and thermophilicity of a mesophilic family 11 xylanase: structural basis and molecular study.

Georis J, de Lemos Esteves F, Lamotte-Brasseur J, Bougnet V, Devreese B, Giannotta F, Granier B, Frère JM.

Protein Sci. 2000 Mar;9(3):466-75.

12.

Elucidation of information encoded in tryptophan 140 of staphylococcal nuclease.

Hirano S, Kamikubo H, Yamazaki Y, Kataoka M.

Proteins. 2005 Feb 1;58(2):271-7.

PMID:
15573380
14.

Structure-function relationship of the xylanase from alkaliphilic Bacillus sp. strain 41M-1.

Nakamura S, Nakai R, Namba K, Kubo T, Wakabayashi K, Aono R, Horikoshi K.

Nucleic Acids Symp Ser. 1995;(34):99-100.

PMID:
8841571
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16.

Analysis of the effect of potato carboxypeptidase inhibitor pro-sequence on the folding of the mature protein.

Bronsoms S, Villanueva J, Canals F, Querol E, Aviles FX.

Eur J Biochem. 2003 Sep;270(17):3641-50.

17.

Protein interactions leading to conformational changes monitored by limited proteolysis: apo form and fragments of horse cytochrome c.

Spolaore B, Bermejo R, Zambonin M, Fontana A.

Biochemistry. 2001 Aug 14;40(32):9460-8.

PMID:
11583145
18.

Probing the lipid-free structure and stability of apolipoprotein A-I by mutation.

Gorshkova IN, Liadaki K, Gursky O, Atkinson D, Zannis VI.

Biochemistry. 2000 Dec 26;39(51):15910-9.

PMID:
11123918
20.

Occurrence of C-terminal residue exclusion in peptide fragmentation by ESI and MALDI tandem mass spectrometry.

Dupré M, Cantel S, Martinez J, Enjalbal C.

J Am Soc Mass Spectrom. 2012 Feb;23(2):330-46. doi: 10.1007/s13361-011-0254-1. Epub 2011 Nov 18.

PMID:
22095165
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