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Items: 1 to 20 of 87

1.

Rubredoxin refolding on nanostructured hydrophobic surfaces: evidence for a new type of biomimetic chaperones.

Miriani M, Iametti S, Kurtz DM, Bonomi F.

Proteins. 2014 Nov;82(11):3154-62. doi: 10.1002/prot.24675. Epub 2014 Sep 3.

PMID:
25143010
2.

Iron-nucleated folding of a metalloprotein in high urea: resolution of metal binding and protein folding events.

Morleo A, Bonomi F, Iametti S, Huang VW, Kurtz DM Jr.

Biochemistry. 2010 Aug 10;49(31):6627-34. doi: 10.1021/bi100630t.

3.

"Iron priming" guides folding of denatured aporubredoxins.

Bonomi F, Iametti S, Ferranti P, Kurtz DM Jr, Morleo A, Ragg EM.

J Biol Inorg Chem. 2008 Aug;13(6):981-91. doi: 10.1007/s00775-008-0385-4. Epub 2008 Apr 30.

4.

Thermal stability of the [Fe(SCys)(4)] site in Clostridium pasteurianum rubredoxin: contributions of the local environment and Cys ligand protonation.

Bonomi F, Burden AE, Eidsness MK, Fessas D, Iametti S, Kurtz DM Jr, Mazzini S, Scott RA, Zeng Q.

J Biol Inorg Chem. 2002 Apr;7(4-5):427-36. Epub 2001 Nov 24.

PMID:
11941500
5.

Reversible unfolding-refolding of rubredoxin: a single-molecule force spectroscopy study.

Zheng P, Wang Y, Li H.

Angew Chem Int Ed Engl. 2014 Dec 15;53(51):14060-3. doi: 10.1002/anie.201408105. Epub 2014 Oct 14.

PMID:
25314323
6.

Contribution of the [FeII(SCys)4] site to the thermostability of rubredoxins.

Bonomi F, Eidsness MK, Iametti S, Kurtz DM Jr, Mazzini S, Morleo A.

J Biol Inorg Chem. 2004 Apr;9(3):297-306. Epub 2004 Feb 10.

PMID:
14770302
7.

Thermal stability of Clostridium pasteurianum rubredoxin: deconvoluting the contributions of the metal site and the protein.

Bonomi F, Fessas D, Iametti S, Kurtz DM Jr, Mazzini S.

Protein Sci. 2000 Dec;9(12):2413-26.

8.
9.

Hyperthermophile protein behavior: partially-structured conformations of Pyrococcus furiosus rubredoxin monomers generated through forced cold-denaturation and refolding.

Chandrayan SK, Prakash S, Ahmed S, Guptasarma P.

PLoS One. 2014 Mar 6;9(3):e80014. doi: 10.1371/journal.pone.0080014. eCollection 2014.

10.

De novo design of a redox-active minimal rubredoxin mimic.

Nanda V, Rosenblatt MM, Osyczka A, Kono H, Getahun Z, Dutton PL, Saven JG, Degrado WF.

J Am Chem Soc. 2005 Apr 27;127(16):5804-5.

PMID:
15839675
11.

Assembly of a [2Fe-2S]2+ cluster in a molecular variant of Clostridium pasteurianum rubredoxin.

Meyer J, Gagnon J, Gaillard J, Lutz M, Achim C, Münck E, Pétillot Y, Colangelo CM, Scott RA.

Biochemistry. 1997 Oct 28;36(43):13374-80.

PMID:
9341230
12.

Crystal structure of rubredoxin from Desulfovibrio gigas to ultra-high 0.68 A resolution.

Chen CJ, Lin YH, Huang YC, Liu MY.

Biochem Biophys Res Commun. 2006 Oct 13;349(1):79-90. Epub 2006 Aug 11.

PMID:
16930541
13.

Combined spectroscopic and calorimetric characterisation of rubredoxin reversible thermal transition.

Henriques BJ, Saraiva LM, Gomes CM.

J Biol Inorg Chem. 2006 Jan;11(1):73-81. Epub 2005 Dec 6.

PMID:
16331403
14.

Single molecule force spectroscopy reveals that iron is released from the active site of rubredoxin by a stochastic mechanism.

Zheng P, Takayama SJ, Mauk AG, Li H.

J Am Chem Soc. 2013 May 29;135(21):7992-8000. doi: 10.1021/ja402150q. Epub 2013 May 14.

PMID:
23627554
15.

The de novo design of a rubredoxin-like Fe site.

Farinas E, Regan L.

Protein Sci. 1998 Sep;7(9):1939-46.

17.
18.

Unfolding mechanism of rubredoxin from Pyrococcus furiosus.

Cavagnero S, Zhou ZH, Adams MW, Chan SI.

Biochemistry. 1998 Mar 10;37(10):3377-85.

PMID:
9521658
19.

The folding of an enzyme. VI. The folding pathway of barnase: comparison with theoretical models.

Serrano L, Matouschek A, Fersht AR.

J Mol Biol. 1992 Apr 5;224(3):847-59.

PMID:
1569561
20.

Rubredoxin-related maturation factor guarantees metal cofactor integrity during aerobic biosynthesis of membrane-bound [NiFe] hydrogenase.

Fritsch J, Siebert E, Priebe J, Zebger I, Lendzian F, Teutloff C, Friedrich B, Lenz O.

J Biol Chem. 2014 Mar 14;289(11):7982-93. doi: 10.1074/jbc.M113.544668. Epub 2014 Jan 21.

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