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1BOI

N-TERMINALLY TRUNCATED RHODANESE

Summary for 1BOI
Entry DOI10.2210/pdb1boi/pdb
DescriptorRHODANESE (2 entities in total)
Functional Keywordstransferase, rhodanese, sulfurtransferase
Biological sourceBos taurus (cattle)
Cellular locationMitochondrion matrix: P00586
Total number of polymer chains1
Total formula weight33240.67
Authors
Gliubich, F.,Berni, R.,Cianci, M.,Trevino, R.J.,Horowitz, P.M.,Zanotti, G. (deposition date: 1998-08-04, release date: 1999-04-27, Last modification date: 2024-11-13)
Primary citationTrevino, R.J.,Gliubich, F.,Berni, R.,Cianci, M.,Chirgwin, J.M.,Zanotti, G.,Horowitz, P.M.
NH2-terminal sequence truncation decreases the stability of bovine rhodanese, minimally perturbs its crystal structure, and enhances interaction with GroEL under native conditions.
J.Biol.Chem., 274:13938-13947, 1999
Cited by
PubMed Abstract: The NH2-terminal sequence of rhodanese influences many of its properties, ranging from mitochondrial import to folding. Rhodanese truncated by >9 residues is degraded in Escherichia coli. Mutant enzymes with lesser truncations are recoverable and active, but they show altered active site reactivities (Trevino, R. J., Tsalkova, T., Dramer, G., Hardesty, B., Chirgwin, J. M., and Horowitz, P. M. (1998) J. Biol. Chem. 273, 27841-27847), suggesting that the NH2-terminal sequence stabilizes the overall structure. We tested aspects of the conformations of these shortened species. Intrinsic and probe fluorescence showed that truncation decreased stability and increased hydrophobic exposure, while near UV CD suggested altered tertiary structure. Under native conditions, truncated rhodanese bound to GroEL and was released and reactivated by adding ATP and GroES, suggesting equilibrium between native and non-native conformers. Furthermore, GroEL assisted folding of denatured mutants to the same extent as wild type, although at a reduced rate. X-ray crystallography showed that Delta1-7 crystallized isomorphously with wild type in polyethyleneglycol, and the structure was highly conserved. Thus, the missing NH2-terminal residues that contribute to global stability of the native structure in solution do not significantly alter contacts at the atomic level of the crystallized protein. The two-domain structure of rhodanese was not significantly altered by drastically different crystallization conditions or crystal packing suggesting rigidity of the native rhodanese domains and the stabilization of the interdomain interactions by the crystal environment. The results support a model in which loss of interactions near the rhodanese NH2 terminus does not distort the folded native structure but does facilitate the transition in solution to a molten globule state, which among other things, can interact with molecular chaperones.
PubMed: 10318804
DOI: 10.1074/jbc.274.20.13938
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.2 Å)
Structure validation

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数据于2024-11-13公开中

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