Asx turn
{{Short description|Feature in proteins and polypeptides}}
The Asx turn{{cite book|last=Richardson|first=JS|chapter=The anatomy and taxonomy of protein structure|year=1981|volume=34|pages=167–339 |pmid=7020376|doi=10.1016/S0065-3233(08)60520-3|isbn=9780120342341|title=Advances in Protein Chemistry Volume 34}}{{cite journal|last=Tainer|first=JA|author2=Getzoff ED|authorlink2=Elizabeth D. Getzoff|title=Determination and analysis of the 2 A-structure of copper, zinc superoxide dismutase|journal=Journal of Molecular Biology|year=1982|volume=160|pages=181–217 |pmid=7175933 |doi=10.1016/0022-2836(82)90174-7|issue=2}}{{cite journal|last=Rees|first=DC|author2=Lewis M|title=Refined crystal structure of carboxypeptidase a at 1.54 Å resolution|journal=Journal of Molecular Biology|year=1983|volume=168|pages=367–387 |pmid=6887246|doi=10.1016/S0022-2836(83)80024-2|issue=2}}{{cite journal|last=Eswar|first=N|author2=Ramachandran C|title=Secondary structures without backbone: An analysis of backbone mimicry by polar side chains in proteins|journal=Protein Engineering|year=1999|volume=12|issue=6|pages=447–455|doi=10.1093/protein/12.6.447|pmid=10388841|doi-access=free}}{{cite journal|last=Chakrabarti|first=P|author2=Pal D|title=Interrelationships of side-chain and main-chain conformations in proteins|journal=Progress in Biophysics and Molecular Biology|year=2001|volume=76|issue=1–2|pages=1–102|doi=10.1016/s0079-6107(01)00005-0|pmid=11389934|doi-access=free}}{{cite journal|last=Duddy|first=WJ|author2=Nissink WMJ|title=Mimicry by asx- and ST-turns of the four main types of β-turn in proteins|journal=Protein Science|year=2004|volume=13|issue=11|pages=3051–3055|doi=10.1110/ps.04920904|pmid=15459339|last3=Allen|first3=Frank H.|last4=Milner-White|first4=E. James|pmc=2286581}}{{cite journal|last=Thakur|first=AK|author2=Kishore R|title=Characterization of β-turn and asx-turns mimicry in a model peptide : Stabilization via C-H•••O interaction|journal=Biopolymers|year=2006|volume=81|issue=6|pages=440–449|doi=10.1002/bip.20441|pmid=16411188|s2cid=27091571 }}
is a structural feature in proteins and polypeptides. It consists of three amino acid residues (labeled i, i+1 and i+2) in which residue i is an aspartate (Asp) or asparagine (Asn) that forms a hydrogen bond from its sidechain CO group to the mainchain NH group of residue i+2. About 14% of Asx residues present in proteins belong to Asx turns.
The name "Asx" is used here to represent either of the amino acids aspartate (Asp) or asparagine (Asn).
Types
Four types of Asx turn can be distinguished:{{cite journal|last=Duddy|first=WJ|author2=Nissink WMJ|title=Mimicry by asx- and ST-turns of the four main types of beta turn in proteins|journal=Protein Science|year=2004|volume=13|issue=11|pages=3051–3055|doi=10.1110/ps.04920904|pmid=15459339|last3=Allen|first3=Frank H.|last4=Milner-White|first4=E. James|pmc=2286581}} types I, I’, II and II’. These categories correspond to those of the better-known 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. Asx turns and beta turns have structurally similar hydrogen-bonded loops and exhibit sidechain-mainchain mimicry in the sense that the sidechain of residue i of the Asx turn mimics the mainchain of residue i of the beta turn. 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 Asx turns.
Occurrence
Asx and ST turns both occur frequently at the N-termini of α-helices.{{cite journal|last=Doig|first=AJ|author2=Macarthur MW|title=Structures of N-termini of helices in proteins|journal=Protein Science|year=1997|volume=6|issue=1|pages=147–155|doi=10.1002/pro.5560060117|pmid=9007987|pmc=2143508|last3=MacArthur|first3=Malcolm W.|last4=Thornton|first4=Janet M.}}{{cite journal|last=Presta|first=LG|author2=Rose GD |title=Helix Caps|journal=Science|year=1988|volume=240|issue=4859|pages=1632–1641|doi= 10.1126/science.2837824|pmid=2837824|bibcode=1988Sci...240.1632P}}{{cite journal|last=Aurora|first=R|author2=Rose GD |title=Helix Capping|journal=Protein Science|year=1998|volume=7|issue=1|pages=21–38|doi= 10.1002/pro.5560070103|pmid=9514257|pmc=2143812}}{{cite journal|last=Gunasekaran|first=K|author2=Nagarajam HA |title=Stereochemical punctuation marks in protein structure|journal=Journal of Molecular Biology|year=1998|volume=275|issue=5|pages=917–932|doi= 10.1006/jmbi.1997.1505|pmid=9480777|last3=Ramakrishnan|first3=C|last4=Balaram|first4=P|s2cid=35919397}} as part of Asx motifs or ST motifs such that the Asx, serine or threonine is the N cap residue. They are thus often regarded as helix capping features.
Related motifs
Similar motifs occur with serine or threonine as residue i, which are called ST turns.{{cite journal|last=Duddy|first=WJ|author2=Nissink WMJ|title=Mimicry by asx- and ST-turns of the four main types of β-turn in proteins|journal=Protein Science|year=2004|volume=13|issue=11|pages=3051–3055|doi=10.1110/ps.04920904|pmid=15459339|last3=Allen|first3=Frank H.|last4=Milner-White|first4=E. James|pmc=2286581}} In spite of serine and threonine having one less sidechain atom, such that the sidechain-mainchain mimicry of β turns is imperfect, these features occur in proteins as the four types in numbers approaching those of Asx turns. They also exhibit a tendency to substitute each other over evolutionary time.{{cite journal|last=Wan|first=W-Y|author2=Milner-White EJ|title=A Recurring Two-Hydrogen-bond Motif Incorporating a Serine or Threonine Residue is found both at α-Helical N Termini and in Other Situations|journal=Journal of Molecular Biology|year=2009|volume=286|issue=5|pages=1651–1662|doi=10.1006/jmbi.1999.2551|pmid=10064721}}
A proportion of Asx turns are accompanied by a mainchain–mainchain hydrogen bond that qualifies them as Asx motifs.
References
External links
- [http://motif.gla.ac.uk/motif/index.html Motivated Proteins]
- [http://www.ebi.ac.uk/pdbe-site/pdbemotif/ PDBeMotif]
- [http://motif.gla.ac.uk/motif/index.html]{{cite journal|last=Leader|first=DP|author2=Milner-White EJ|title=Motivated Proteins: A web application for studying small three-dimensional protein motifs|journal=BMC Bioinformatics|year=2009|volume=10|pages=60|doi=10.1186/1471-2105-10-60|pmid=19210785|pmc=2651126 |doi-access=free }}
- [http://www.ebi.ac.uk/pdbe-site/pdbemotif/].{{cite journal|last=Golovin|first=A|author2=Henrick K|title=MSDmotif: exploring protein sites and motifs|journal=BMC Bioinformatics|year=2008|volume=9|pages=312|doi=10.1186/1471-2105-9-312|pmid=18637174|pmc=2491636|doi-access=free}}