Conformational studies on β-bend containing a cis peptide unit

Nagarajaram, H. A. ; Paul, P. K. C. ; Ramanarayanan, K. ; Soman, K. V. ; Ramakrishnan, C. (1992) Conformational studies on β-bend containing a cis peptide unit International Journal of Peptide and Protein Research, 40 (5). pp. 383-394. ISSN 0367-8377

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Official URL: http://onlinelibrary.wiley.com/doi/10.1111/j.1399-...

Related URL: http://dx.doi.org/10.1111/j.1399-3011.1992.tb00315.x

Abstract

Conformational studies have been carried out on the X-cis-Pro tripeptide system (a system of three linked peptide units, in the trans-cis-trans configuration) using energy minimization techniques. For X, residues Gly, L-Ala, D-Ala and L-Pro have been used. The energy minima have been classified into different groups based upon the conformational similarity. There are 15, 20, 18 and 6 minima that are possible for the four cases respectively arid these fall into 11 different groups. A study of these minima shows that, (i) some minima contain hydrogen bonds- either 4→1 or 1→2 type, (ii) the low energy minima qualify themselves as bend conformations, (iii) cis' and trans' conformations are possible for the prolyl residue as also the C γ-endo and C γ-exo puckerings, and (iv) for Pro-cis-Pro, cis' at the first prolyl residue is ruled out, due to the high energy. The available crystal structure data on proteins and peptides, containing cis-Pro segment have been examined with a view to find the minima that occur in solid state. The data from protein show that they fall under two groups. The conformation at X in X-cis-Pro is near extended when it is a non-glycyl residue. In both peptides and proteins there exists a preference for trans' conformation at prolyl residue over cis' when X is a non-glycyl residue. The minima obtained can be useful in modelling studies.

Item Type:Article
Source:Copyright of this article belongs to Munksgaard International Publishers.
Keywords:Bends; βcis-Prolyl; in Proteins; in Peptides; Conformation; Peptides; Energy Minimization; Hydrogen Bonds with cis Units; Peptides; cis Units; Tripeptides with cis Units
ID Code:41006
Deposited On:26 May 2011 05:55
Last Modified:26 May 2011 05:55

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