2cti
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DETERMINATION OF THE COMPLETE THREE-DIMENSIONAL STRUCTURE OF THE TRYPSIN INHIBITOR FROM SQUASH SEEDS IN AQUEOUS SOLUTION BY NUCLEAR MAGNETIC RESONANCE AND A COMBINATION OF DISTANCE GEOMETRY AND DYNAMICAL SIMULATED ANNEALING
OverviewOverview
The complete three-dimensional structure of the trypsin inhibitor from, seeds of the squash Cucurbita maxima in aqueous solution was determined on, the basis of 324 interproton distance constraints, 80 non-nuclear, Overhauser effect distances, and 22 hydrogen-bonding constraints, supplemented by 27 phi backbone angle constraints derived from nuclear, magnetic resonance measurements. The nuclear magnetic resonance input data, were converted to the distance constraints in a semiquantitative manner, after a sequence specific assignment of 1H spectra was obtained using, two-dimensional nuclear magnetic resonance techniques. Stereospecific, assignments were obtained for 17 of the 48 prochiral centers of the squash, trypsin inhibitor using the floating chirality assignment introduced at, the dynamical simulated annealing stage of the calculations. A total of 34, structures calculated by a hybrid distance geometry-dynamical simulated, annealing method exhibit well-defined positions for both backbone and, side-chain atoms. The average atomic root-mean-square difference between, the individual structures and the minimized mean structure is 0.35(+/-, 0.08) A for the backbone atoms and 0.89(+/- 0.17) A for all heavy atoms., The precision of the structure determination is discussed and correlated, to the experimental input data.
About this StructureAbout this Structure
2CTI is a Single protein structure of sequence from Cucurbita maxima. Full crystallographic information is available from OCA.
ReferenceReference
Determination of the complete three-dimensional structure of the trypsin inhibitor from squash seeds in aqueous solution by nuclear magnetic resonance and a combination of distance geometry and dynamical simulated annealing., Holak TA, Gondol D, Otlewski J, Wilusz T, J Mol Biol. 1989 Dec 5;210(3):635-48. PMID:2614837
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