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β turns (also β-bends, tight turns, reverse turns, Venkatachalam turns) are the most common form of turns—a type of non-regular secondary structure in proteins that cause a change in direction of the Peptide. They are very common motifs in proteins and polypeptides. Each consists of four amino acid residues (labelled i, i+1, i+2 and i+3). They can be defined in two ways:
The hydrogen bond criterion is the one most appropriate for everyday use, partly because it gives rise to four distinct categories; the distance criterion gives rise to the same four categories but yields additional turn types.
The four types of beta turn are distinguished by the φ, ψ angles of residues i+1 and i+2 as shown in the table below giving the typical average values. are especially common as with positive φ angles; for such a conformation is sterically impossible but they occur frequently at amino acid positions where φ is negative.
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Type I and II β turns exhibit a relationship to one another because they potentially interconvert by the process of peptide plane flipping (180° rotation of the CONH peptide plane with little positional alteration to side chains and surrounding peptides). The same relationship exists between type I' and II' β turns. Some evidence has indicated that these interconversions occur in beta turns in proteins such that crystal or NMR structures merely provide a snapshot of β turns that are, in reality, interchanging. In proteins in general all four beta turn types occur frequently but I is most common, followed by II, I' and II' in that order. Beta turns are especially common at the loop ends of beta hairpins; they have a different distribution of types from the others; type I' is the most common, followed by types II', I and II. Additional turn types have been defined by clustering turn conformations within very high-resolution protein structures.
and resemble beta turns except that residue i is replaced by the side chain of an aspartate, asparagine, serine or threonine. The main chain–main chain hydrogen bond is replaced by a side chain–main chain hydrogen bond. 3D computer superimposition shows that, in proteins, they occur as one of the same four types that beta turns do, except that their relative frequency of occurrence differs: type II' is the most common, followed by types I, II and I'.
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