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2W9U

Solution structure of jerdostatin mutant R24K from Trimeresurus jerdonii

Summary for 2W9U
Entry DOI10.2210/pdb2w9u/pdb
Related2W9O 2W9V 2W9W
NMR InformationBMRB: 16150
DescriptorSHORT DISINTEGRIN JERDOSTATIN (1 entity in total)
Functional Keywordsvenom, toxin, cell adhesion, blood coagulation
Biological sourceTRIMERESURUS JERDONII (JERDON'S PIT-VIPER)
Total number of polymer chains1
Total formula weight4883.59
Authors
Carbajo, R.J.,Sanz, L.,Mosulen, S.,Calvete, J.J.,Pineda-Lucena, A. (deposition date: 2009-01-29, release date: 2010-03-31, Last modification date: 2024-11-06)
Primary citationCarbajo, R.J.,Sanz, L.,Mosulen, S.,Perez, A.,Marcinkiewicz, C.,Pineda-Lucena, A.,Calvete, J.J.
NMR Structure and Dynamics of Recombinant Wild-Type and Mutated Jerdostatin, a Selective Inhibitor of Integrin Alpha1 Beta1
Proteins, 79:2530-, 2011
Cited by
PubMed Abstract: NMR analysis of four recombinant jerdostatin molecules was assessed to define the structural basis of two naturally occurring gain-of-function events: C-terminal dipeptide processing and mutation of the active residue K21 to arginine. Removal of the highly mobile and a bulky C-terminal dipeptide produced pronounced chemical shift changes in the sequentially unconnected but spatially nearby α(1)β(1) inhibitory loop. Analysis of chemical shift divergence and (15)N backbone relaxation dynamics indicated differences in motions in the picosecond to nanosecond time scale, and the higher T(2) rate of S25, S26, and H27 of rJerK21 point to a slowdown in the microsecond to millisecond motions of these residues when compared with rJerR21. The evidence presented in this article converges on the hypothesis that dynamic differences between the α(1)β(1) recognition loops of rJerR21 and rJerK21 may influence the thermodynamics of their receptor recognition and binding. A decrease in the μs-ms time scale may impair the binding affinity by reducing the rate of possible conformations that the rJerK21 can adopt in this time scale.
PubMed: 21656569
DOI: 10.1002/PROT.23076
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