H-1-NMR STUDIES ON THE STRUCTURE OF A NEW THIONIN FROM BARLEY ENDOSPERM

A new thionin from barley, omega-hordothionin, has been shown to exist in aqueous solution as a mixture of two different isoforms in a 3:2 ratio, as revealed by a complete analysis of its two-dimensional H-1-nmr spectra. The conformational heterogeneity arises from cis-trans isomerism about the Phe 12-Pro 13 peptide bond where the major form corresponds to the cis conformation. The complete assignment of chemical shifts and nuclear Overhauser effects (NOEs) of the two isoforms allows a detailed comparative analysis of their conformational properties, even though a complete calculation of their solution structures is not possible because of a somewhat limited number of NOE constraints. Structures for the two isomers could be modeled, however, on the basis of the high structural homology between omega-hordothionin and related gamma-thionins, and under the conditions of satisfying all observed experimental data. The two isoforms adopt practically identical global folds and the structural changes imposed by cis-trans isomerization are confined to the region proximal to Pro 13. The cis-trans isomerism occurs in a conserved loop connecting the first beta-strand of the triple-stranded antiparallel p-sheet and the oc-helix. A comparative analysis of the sequences of this loop in the different thionins suggests that the cis-trans equilibrium about the X-Pro peptide bond depends on the size of the side chain of X (X = Gly in gamma-thionins and Phe in omega-thionin). The structural homology of this new thionin with gamma-thionins as well as with some scorpion toxins and insect defensins suggests that these proteins may share a common mode of functional activity. (C) 1995 John Wiley & Sons, Inc.