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Items: 1 to 20 of 84

1.
2.

Deletion of the omega-loop in the active site of staphylococcal nuclease. 1. Effect on catalysis and stability.

Poole LB, Loveys DA, Hale SP, Gerlt JA, Stanczyk SM, Bolton PH.

Biochemistry. 1991 Apr 16;30(15):3621-7.

PMID:
2015219
3.
4.

Expression, secretion, and processing of staphylococcal nuclease by Corynebacterium glutamicum.

Liebl W, Sinskey AJ, Schleifer KH.

J Bacteriol. 1992 Mar;174(6):1854-61.

5.

The effects of amino acid replacements of glycine 20 on conformational stability and catalysis of staphylococcal nuclease.

Feng Y, Huang S, Zhang W, Zeng Z, Zou X, Zhong L, Peng J, Jing G.

Biochimie. 2004 Dec;86(12):893-901.

PMID:
15667939
7.
8.

Phage display of catalytically active staphylococcal nuclease.

Ku J, Schultz PG.

Bioorg Med Chem. 1994 Dec;2(12):1413-5.

PMID:
7788304
9.

The native-like interactions between SNase121 and SNase(111-143) fragments induce the recovery of their native-like structures and the ability to degrade DNA.

Geng Y, Feng Y, Xie T, Shan L, Wang J.

Biochemistry. 2009 Sep 15;48(36):8692-703. doi: 10.1021/bi901099s.

PMID:
19658434
10.

The crystal structure of the antibody N10-staphylococcal nuclease complex at 2.9 A resolution.

Bossart-Whitaker P, Chang CY, Novotny J, Benjamin DC, Sheriff S.

J Mol Biol. 1995 Nov 3;253(4):559-75.

PMID:
7473734
11.
12.

Modeling of the [E43S]SNase-ssDNA-Cd(2+) complex: structural insight into the action of nuclease on ssDNA.

Xie T, Feng Y, Shan L, Wang J.

Arch Biochem Biophys. 2013 Apr 15;532(2):103-13. doi: 10.1016/j.abb.2013.02.003. Epub 2013 Feb 14.

PMID:
23416741
13.

Mechanism of the reaction catalyzed by staphylococcal nuclease: identification of the rate-determining step.

Hale SP, Poole LB, Gerlt JA.

Biochemistry. 1993 Jul 27;32(29):7479-87.

PMID:
8338846
14.

Deletion of the omega-loop in the active site of staphylococcal nuclease. 2. Effects on protein structure and dynamics.

Baldisseri DM, Torchia DA, Poole LB, Gerlt JA.

Biochemistry. 1991 Apr 16;30(15):3628-33.

PMID:
2015220
15.

Effect of prolyl isomerase on the folding reactions of staphylococcal nuclease.

Veeraraghavan S, Nall BT, Fink AL.

Biochemistry. 1997 Dec 9;36(49):15134-9.

PMID:
9398241
16.

Importance of the C-terminal loop L137-S141 for the folding and folding stability of staphylococcal nuclease.

Wang M, Feng Y, Yao H, Wang J.

Biochemistry. 2010 May 25;49(20):4318-26. doi: 10.1021/bi100118k.

PMID:
20415411
17.

Mutations can cause large changes in the conformation of a denatured protein.

Flanagan JM, Kataoka M, Fujisawa T, Engelman DM.

Biochemistry. 1993 Oct 5;32(39):10359-70.

PMID:
8399179
18.

Multiple-turnover cleavage of double-stranded DNA by sandwiched zinc-finger nuclease.

Mineta Y, Okamoto T, Takenaka K, Doi N, Aoyama Y, Sera T.

Nucleic Acids Symp Ser (Oxf). 2009;(53):279-80. doi: 10.1093/nass/nrp140.

19.

Effect of salts on the stability and folding of staphylococcal nuclease.

Nishimura C, Uversky VN, Fink AL.

Biochemistry. 2001 Feb 20;40(7):2113-28.

PMID:
11329280
20.
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