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1.
Biochemistry ; 60(36): 2704-2714, 2021 09 14.
Artículo en Inglés | MEDLINE | ID: mdl-34463474

RESUMEN

In synthetic peptides containing Gly and coded α-amino acids, one of the most common practices to enhance their helical extent is to incorporate a large number of l-Ala residues along with noncoded, strongly foldameric α-aminoisobutyric acid (Aib) units. Earlier studies have established that Aib-based peptides, with propensity for both the 310- and α-helices, have a tendency to form ordered three-dimensional structure that is much stronger than that exhibited by their l-Ala rich counterparts. However, the achiral nature of Aib induces an inherent, equal preference for the right- and left-handed helical conformations as found in Aib homopeptide stretches. This property poses challenges in the analysis of a model peptide helical conformation based on chirospectroscopic techniques like electronic circular dichroism (ECD), a very important tool for assigning secondary structures. To overcome such ambiguity, we have synthesized and investigated a thermally stable 14-mer peptide in which each of the Aib residues of our previously designed and reported analogue ABGY (where B stands for Aib) is replaced by Cα-methyl-l-valine (L-AMV). Analysis of the results described here from complementary ECD and 1H nuclear magnetic resonance spectroscopic techniques in a variety of environments firmly establishes that the L-AMV-containing peptide exhibits a significantly stronger preference compared to that of its Aib parent in terms of conferring α-helical character. Furthermore, being a chiral α-amino acid, L-AMV shows an intrinsic, extremely strong bias for a quite specific (right-handed) screw sense. These findings emphasize the relevance of L-AMV as a more appropriate unit for the design of right-handed α-helical peptide models that may be utilized as conformationally constrained scaffolds.


Asunto(s)
Aminoácidos/química , Ácidos Aminoisobutíricos/química , Péptidos/química , Valina/química , Dicroismo Circular/métodos , Modelos Moleculares , Conformación Proteica en Hélice alfa , Estructura Secundaria de Proteína
2.
Biopolymers ; 108(1)2017 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-27428807

RESUMEN

The 'novel phosphate binding 'Cα NN' motif', consisting of three consecutive amino acid residues, usually occurs in the protein loop regions preceding a helix. Recent computational and complementary biophysical experiments on a series of chimeric peptides containing the naturally occurring 'Cα NN' motif at the N-terminus of a designed helix establishes that the motif segment recognizes the anion (sulfate and phosphate ions) through local interaction along with extension of the helical conformation which is thermodynamically favored even in a context-free, nonproteinaceous isolated system. However, the strength of the interaction depends on the amino acid sequence/conformation of the motif. Such a locally-mediated recognition of anions validates its intrinsic affinity towards anions and confirms that the affinity for recognition of anions is embedded within the 'local sequence' of the motif. Based on the knowledge gathered on the sequence/structural aspects of the naturally occurring 'Cα NN' segment, which provides the guideline for rationally engineering model scaffolds, we have modeled a series of templates and investigated their interactions with anions using computational approach. Two of these designed scaffolds show more efficient anion recognition than those of the naturally occurring 'Cα NN' motif which have been studied. This may provide an avenue in designing better anion receptors suitable for various biochemical applications.


Asunto(s)
Simulación del Acoplamiento Molecular , Péptidos/química , Secuencias de Aminoácidos , Aniones/química , Sitios de Unión , Enlace de Hidrógeno , Péptidos/síntesis química , Fosfatos/química , Teoría Cuántica , Sulfatos/química , Termodinámica
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