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ST turn

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The ST turn is a structural feature in proteins and polypeptides.[1] Each consists of three amino acid residues (labeled i, i+1 and i+2) in which residue i is a serine (S) or threonine (T) that forms a hydrogen bond from its sidechain oxygen group to the mainchain NH group of residue i+2. Two websites are available for finding and examining ST turns in proteins, Motivated Proteins;[1][2] and PDBeMotif:[2].[3]

ST turn, a three amino acid residue motif with an N-terminal serine. The hydrogen bond between the serine side chain and the mainchain of the residue two ahead is shown as a dotted grey line. Carbons grey, oxygens red and nitrogens blue. The side chains of the second and third residues are omitted, as are the mainchain CO of the third residue and all hydrogens.

Similar motifs occur with aspartate or asparagine as residue i, called asx turn. Four types of asx turn and ST turn can be distinguished: types I, I’, II and II’. These categories correspond (via sidechain-mainchain mimicry of residue i) to those of the more abundant hydrogen-bonded beta turns, which have four residues and a hydrogen bond between the CO of residue i and the NH of residue i+3. Regarding their occurrence in proteins, they differ in that type I is the commonest of the four beta turns while type II’ is the commonest of the ST and asx turns.

Asx and ST turns both occur frequently at the N-termini of α-helices,[4][5][6][7] as part of asx motifs or ST motifs, with the asx, serine or threonine as the N cap residue. They are thus often regarded as helix capping features.

References

  1. ^ Duddy, WJ; Nissink WMJ; Allen, Frank H.; Milner-White, E. James (2004). "Mimicry by asx- and ST-turns of the four main types of β-turn in proteins". Protein Science. 13 (11): 3051–3055. doi:10.1110/ps.04920904. PMID 15459339.
  2. ^ Leader, DP; Milner-White EJ (2009). "Motivated Proteins: A web application for studying small three-dimensional protein motifs". BMC Bioinformatics. 10: 60. doi:10.1186/1471-2105-10-60. PMC 2651126. PMID 19210785.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  3. ^ Golovin, A; Henrick K (2008). "MSDmotif: exploring protein sites and motifs". BMC Bioinformatics. 9: 312. doi:10.1186/1471-2105-9-312. PMC 2491636. PMID 18637174.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  4. ^ Doig, AJ; Macarthur MW; MacArthur, Malcolm W.; Thornton, Janet M. (2008). "Structures of N-termini of helices in proteins". Protein Science. 6 (1): 147–155. doi:10.1002/pro.5560060117. PMC 2143508. PMID 9007987.
  5. ^ Presta, LG; Rose GD (1988). "Helix Caps". Science. 240 (4859): 1632–1641. Bibcode:1988Sci...240.1632P. doi:10.1126/science.2837824. PMID 2837824.
  6. ^ Aurora, R; Rose GD (1998). "Helix Capping". Protein Science. 7 (1): 21–38. doi:10.1002/pro.5560070103. PMC 2143812. PMID 9514257.
  7. ^ Gunasekaran, K; Nagarajam HA; Ramakrishnan, C; Balaram, P (1998). "Sterochemical punctuation marks in protein structure". Journal of Molecular Biology. 275 (5): 917–932. doi:10.1006/jmbi.1997.1505. PMID 9480777.
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