Abstract
The nonapeptide less than Glu-Ala-Lys-Ser-Gln-Gly-Gly-Ser-Asn (formerly called serum thymic factor) is a factor produced by the thymic epithelium, which needs a zinc ion to express its immunoregulatory properties. We report here on 1H and 13C NMR investigation of the conformational properties of the free peptide in aqueous medium and in dimethyl sulfoxide-d6 solution by a combination of homo- and heteronuclear one- and two-dimensional experiments. The various resonances have been assigned in a straightforward manner on the basis of 1H,1H COSY spectroscopy for the recognition of the proton spin systems; two-dimensional NOESY spectra with the correlation peaks across amide bonds and for the amino acid sequence assignment; amide bonds and for the amino acid sequence assignment; 13C,1H COSY experiments using selective polarization transfer from 1H- to 13C-nucleus via the 13C,1H long-range couplings for the attribution of the carboxyl and carbonyl groups; and 13C,1H COSY experiments with selective polarization transfer via the 13C,1H direct couplings for the assignment of all the aliphatic carbons. Other experiments such as pH-dependent chemical shifts, combined use of multiple and selective proton-decoupled 1H and 13C NMR spectra, the temperature and the concentration dependence of the proton shifts of the amide resonances, the solvent dependences of peptide carbonyl carbon resonances, and comparison of the spectra with three different analogues were performed. In aqueous solution, the data are compatible with the assumption of a highly mobile dynamic equilibrium among different conformations, whereas in dimethyl sulfoxide-d6, a more rigid structure is found involving three internal hydrogen bonds. These observations provide an insight into the conformational tendencies of this peptidic hormone in two different media.
Highlights
Ser-Asn(formerly called serum thymic factor)is a factor produced by the thymic epithelium, which needs a zinc ion to expressits immunoregulatory properties
We report hereon ‘H and 13C NMRinvestigation of the conformationapl roperties of thefree peptide in aqueous medium and in dimethylsulfoxide-d6solution by a combination of homo- and heteronuclearone- and two-dimensional experiments
We have attempted to obtain information on the conformational states of the nonapeptidein aqueous medium and indimethyl sulfoxide solution by means of oneand two-dimensional 13C,lHNMR and CD spectroscopy.The spectra of several analogues with Ala4,Alas, and Nva5substitution were recorded for comparison with thymulin
Summary
Jean-Pierre Laussac$§,Manh-Thong Cungll, Maurice PasdeloupS, Raymond Haran$, Michel MarraudY,Pierre Lefrancie1r1, Mireille Dardenne$$, and Jean-FranpoisBach$$. = 3.7 ms; Az = 1.85 ms (correlation established for selective polarization transfer via the 135-Hz average direct coupling); the spectral width was 5000 Hz (17-67 ppm) in Fz and 1600 Hz in F1 (1.2-5.2 ppm); 128experiments with 320 scans and four dummy scans of 2048 points were performed; the acquisition time was 204.8 ms; sine-bell multiplication was performed in both dimensions, and zero filling in experiments were consistent with the assignment indicated in Fig. 1.For example, the titration of the Asng spin system was observed at pH g 3.1 (doublet of doublet centered at 4.522 ppm corresponding to theproton Ha;multiplet structure at 2.803 and 2.674 ppm for the two protons HB). Two separate heteronuclear shift-correlated two-dimensional experiments using the selective polarization transfer from the proton to the carbon 13C-nucleusvia the scalar couplings were per-
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