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Items: 1 to 20 of 127

1.
2.

Regulation of a viral proteinase by a peptide and DNA in one-dimensional space: III. atomic resolution structure of the nascent form of the adenovirus proteinase.

Baniecki ML, McGrath WJ, Mangel WF.

J Biol Chem. 2013 Jan 18;288(3):2081-91. doi: 10.1074/jbc.M112.407429. Epub 2012 Oct 7.

3.

Roles of two conserved cysteine residues in the activation of human adenovirus proteinase.

McGrath WJ, Baniecki ML, Peters E, Green DT, Mangel WF.

Biochemistry. 2001 Dec 4;40(48):14468-74.

PMID:
11724559
4.

Interaction of the human adenovirus proteinase with its 11-amino acid cofactor pVIc.

Baniecki ML, McGrath WJ, McWhirter SM, Li C, Toledo DL, Pellicena P, Barnard DL, Thorn KS, Mangel WF.

Biochemistry. 2001 Oct 16;40(41):12349-56. Erratum in: Biochemistry 2002 Jan 8;41(1):430.

5.

Human adenovirus proteinase: DNA binding and stimulation of proteinase activity by DNA.

McGrath WJ, Baniecki ML, Li C, McWhirter SM, Brown MT, Toledo DL, Mangel WF.

Biochemistry. 2001 Nov 6;40(44):13237-45.

PMID:
11683632
6.

Crystal structure of the human adenovirus proteinase with its 11 amino acid cofactor.

Ding J, McGrath WJ, Sweet RM, Mangel WF.

EMBO J. 1996 Apr 15;15(8):1778-83.

7.
8.

First generation inhibitors of the adenovirus proteinase.

McGrath WJ, Graziano V, Zabrocka K, Mangel WF.

FEBS Lett. 2013 Aug 2;587(15):2332-9. doi: 10.1016/j.febslet.2013.05.033. Epub 2013 May 24.

9.

Specific interactions of the adenovirus proteinase with the viral DNA, an 11-amino-acid viral peptide, and the cellular protein actin.

Mangel WF, Baniecki ML, McGrath WJ.

Cell Mol Life Sci. 2003 Nov;60(11):2347-55. Review.

PMID:
14625681
10.
11.

DNA binding provides a molecular strap activating the adenovirus proteinase.

Gupta S, Mangel WF, McGrath WJ, Perek JL, Lee DW, Takamoto K, Chance MR.

Mol Cell Proteomics. 2004 Oct;3(10):950-9. Epub 2004 Jun 24.

12.
13.

Interaction of the adenovirus proteinase with protein cofactors with high negative charge densities.

Bajpayee NS, McGrath WJ, Mangel WF.

Biochemistry. 2005 Jun 21;44(24):8721-9.

PMID:
15952779
14.

Insights into cleavage specificity from the crystal structure of foot-and-mouth disease virus 3C protease complexed with a peptide substrate.

Zunszain PA, Knox SR, Sweeney TR, Yang J, Roqué-Rosell N, Belsham GJ, Leatherbarrow RJ, Curry S.

J Mol Biol. 2010 Jan 15;395(2):375-89. doi: 10.1016/j.jmb.2009.10.048. Epub 2009 Oct 31.

PMID:
19883658
15.

The three-dimensional structure of Escherichia coli porphobilinogen deaminase at 1.76-A resolution.

Louie GV, Brownlie PD, Lambert R, Cooper JB, Blundell TL, Wood SP, Malashkevich VN, Hädener A, Warren MJ, Shoolingin-Jordan PM.

Proteins. 1996 May;25(1):48-78.

PMID:
8727319
16.

The refined crystal structure of the 3C gene product from hepatitis A virus: specific proteinase activity and RNA recognition.

Bergmann EM, Mosimann SC, Chernaia MM, Malcolm BA, James MN.

J Virol. 1997 Mar;71(3):2436-48.

17.

Regulation of a viral proteinase by a peptide and DNA in one-dimensional space: II. adenovirus proteinase is activated in an unusual one-dimensional biochemical reaction.

Graziano V, Luo G, Blainey PC, Pérez-Berná AJ, McGrath WJ, Flint SJ, San Martín C, Xie XS, Mangel WF.

J Biol Chem. 2013 Jan 18;288(3):2068-80. doi: 10.1074/jbc.M112.407312. Epub 2012 Oct 7.

18.

Refined X-ray crystallographic structure of the poliovirus 3C gene product.

Mosimann SC, Cherney MM, Sia S, Plotch S, James MN.

J Mol Biol. 1997 Nov 14;273(5):1032-47.

PMID:
9367789
19.
20.

Regulation of a viral proteinase by a peptide and DNA in one-dimensional space: IV. viral proteinase slides along DNA to locate and process its substrates.

Blainey PC, Graziano V, Pérez-Berná AJ, McGrath WJ, Flint SJ, San Martín C, Xie XS, Mangel WF.

J Biol Chem. 2013 Jan 18;288(3):2092-102. doi: 10.1074/jbc.M112.407460. Epub 2012 Oct 7.

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