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Items: 1 to 20 of 235

1.

Modeling and structural analysis of PA clan serine proteases.

Laskar A, Rodger EJ, Chatterjee A, Mandal C.

BMC Res Notes. 2012 May 24;5:256. doi: 10.1186/1756-0500-5-256.

2.

Three-Dimensional Molecular Modeling of a Diverse Range of SC Clan Serine Proteases.

Laskar A, Chatterjee A, Chatterjee S, Rodger EJ.

Mol Biol Int. 2012;2012:580965. doi: 10.1155/2012/580965. Epub 2012 Nov 19.

3.

Modeling and structural analysis of evolutionarily diverse S8 family serine proteases.

Laskar A, Rodger EJ, Chatterjee A, Mandal C.

Bioinformation. 2011;7(5):239-45. Epub 2011 Oct 31.

4.

Structural and biochemical analysis of human pathogenic astrovirus serine protease at 2.0 A resolution.

Speroni S, Rohayem J, Nenci S, Bonivento D, Robel I, Barthel J, Luzhkov VB, Coutard B, Canard B, Mattevi A.

J Mol Biol. 2009 Apr 17;387(5):1137-52. doi: 10.1016/j.jmb.2009.02.044. Epub 2009 Feb 26.

PMID:
19249313
5.

A structural model for the prostate disease marker, human prostate-specific antigen.

Villoutreix BO, Getzoff ED, Griffin JH.

Protein Sci. 1994 Nov;3(11):2033-44.

6.

The active site of a lon protease from Methanococcus jannaschii distinctly differs from the canonical catalytic Dyad of Lon proteases.

Im YJ, Na Y, Kang GB, Rho SH, Kim MK, Lee JH, Chung CH, Eom SH.

J Biol Chem. 2004 Dec 17;279(51):53451-7. Epub 2004 Sep 28.

7.

Identification and analysis of a new family of bacterial serine proteinases.

Pandit SB, Srinivasan N.

In Silico Biol. 2004;4(4):563-72.

PMID:
15752073
8.

Crystal structure of a feruloyl esterase belonging to the tannase family: a disulfide bond near a catalytic triad.

Suzuki K, Hori A, Kawamoto K, Thangudu RR, Ishida T, Igarashi K, Samejima M, Yamada C, Arakawa T, Wakagi T, Koseki T, Fushinobu S.

Proteins. 2014 Oct;82(10):2857-67. doi: 10.1002/prot.24649. Epub 2014 Aug 11.

PMID:
25066066
9.

The family of Deg/HtrA proteases in plants.

Schuhmann H, Huesgen PF, Adamska I.

BMC Plant Biol. 2012 Apr 20;12:52. doi: 10.1186/1471-2229-12-52.

10.
11.

Lys, pro and trp are critical core amino acid residues recognized by FUM20, a monoclonal antibody against serine protease pan-fungal allergens.

Lee LH, Tam MF, Chou H, Tai HY, Shen HD.

Int Arch Allergy Immunol. 2007;143(3):194-200. Epub 2007 Feb 6.

PMID:
17284929
12.

Unexpected crucial role of residue 225 in serine proteases.

Guinto ER, Caccia S, Rose T, F├╝tterer K, Waksman G, Di Cera E.

Proc Natl Acad Sci U S A. 1999 Mar 2;96(5):1852-7.

14.

Structural features of a snake venom thrombin-like enzyme: thrombin and trypsin on a single catalytic platform?

Castro HC, Silva DM, Craik C, Zingali RB.

Biochim Biophys Acta. 2001 Jun 11;1547(2):183-95.

PMID:
11410274
16.

Bioinformatics of granzymes: sequence comparison and structural studies on granzyme family by homology modeling.

Sattar R, Ali SA, Abbasi A.

Biochem Biophys Res Commun. 2003 Sep 5;308(4):726-35.

PMID:
12927779
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20.

Conformational flexibility in the catalytic triad revealed by the high-resolution crystal structure of Streptomyces erythraeus trypsin in an unliganded state.

Blankenship E, Vukoti K, Miyagi M, Lodowski DT.

Acta Crystallogr D Biol Crystallogr. 2014 Mar;70(Pt 3):833-40. doi: 10.1107/S1399004713033658. Epub 2014 Feb 22.

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