Aromatic Side-Chain Interactions In Proteins. I. Main Structural Features

[en] In a data set of 593 nonhomologous proteins from the PDB, we have analyzed the pairing of phenylalanine, tyrosine, tryptophan, and histidine residues with their closest aromatic partner. The frequency distribution of the shortest interatomic distance of partners is bimodal with a sharp peak at approximately 3.8 A and a wider one at a longer distance. Only the 3.8 A peak corresponds to direct ring-ring interactions thus aromatic pairs. The aromatic pairs were separated into two classes, near-sequence pairs and far-sequence pairs. Near sequence pairs stabilize local structure, and far-sequence pairs stabilize tertiary structure. Far-sequence pairs (74% of all pairs) mainly bridge two beta-strands, followed by pairs that bridge a beta-strand and a helix, and pairs that bridge a beta-strand and a random coil structure. Pairs that bridge helices are rare. The secondary structure of the near-sequence pairs depends on the partner distance in the sequence. When the partners are 1, 3, or 4 residues apart in the sequence, pairs are mostly found in helical structures. When the partners are two apart, pairs are mostly found in the same beta-strand. Analysis of the frequency of near sequence pairs supports the hypothesis that aromatic pairing occurs after, rather than before, the formation of secondary structures.

Disciplines :

Biochemistry, biophysics & molecular biology

Author, co-author :

Thomas, Annick ; Université de Liège - ULiège > Chimie et bio-industries > Centre de Bio. Fond. - Section de Biologie moléc. et numér.

Meurisse, R.

Charloteaux, Benoît ; Université de Liège - ULiège > Gembloux Agro-Bio Tech

Brasseur, Robert ; Université de Liège - ULiège > Gembloux Agro-Bio Tech

Language :

English

Title :

Aromatic Side-Chain Interactions In Proteins. I. Main Structural Features

Publication date :

2002

Journal title :

Proteins

ISSN :

0887-3585

eISSN :

1097-0134

Publisher :

Wiley-Liss Inc, United States - New York

Volume :

Issue :

Pages :

628-634
628-34

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 24 June 2010

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Bibliography

Samanta U., Debnath P., Chakrabarti P. (1999) Packing of aromatic rings against tryptophan residues in proteins. Acta Cryst D55:1421-1427.
Samanta U., Debnath P., Chakrabarti P. (2000) Environment of tryptophan side chains in proteins. Proteins Struct Funct Genet 38:288-300.
Burley S.K., Petsko G.A. (1985) Aromatic-aromatic interaction: A mechanism of protein structure stabilization. Science 229:23-28.
Tóth G., Watts C.R., Murphy R.F., Lovas S. (2001) Significance of aromaticbackbone amide interactions in protein structure. Proteins Struct Funct Genet 43:373-381.
McGaughey G.B., Gagne M., Rappe A.K. (1998) pi-stacking interactions. Alive and well in proteins. J Biol Chem 273:15458-15463.
Thomas A., Bouffioux O., Geeurickx D., Brasseur R. (2001) PEX, analytical tools for PDB files. I. Pex, analytical tools for PDB files. I. GF-Pex: The basic file to describe a protein. Proteins Struct Funct Genet 43:28-36.
Liu W.-M., Chou K.-C. (1999) Prediction of protein secondary structure content. Protein Eng 12:1041-1050.
Nishio M., Hirota M., Umezawa Y. (1998) The CH/π interaction - Evidence, nature, and consequences. Series: Methods in stereochemical analysis , Marchand AP, editor. New York: Wiley-VCH Inc.; 46.
Singh J., Thornton J.M. (1985) The interaction between phenylalanine rings in proteins. FEBS Lett 191:1-6.
Hunter C., Singh J., Thornton J. (1991) π-π interactions the geometry and energetics of phenylalanine-phenylalanine interactions in proteins. J Mol Biol 218:837-846.
Mitchell J.B.O., Nandi L., McDonald I.K., Thornton J., Price S.L. (1994) Amino/aromatic interactions in proteins: Is the evidence stacked against hydrogen bonding?. J Mol Biol 239:315-331.
Ma J.C., Dougherty D.A. (1997) The cation-π interaction. Chem Rev 97:1303-1324.
Derewenda Z.S., Lee L., Derewenda U. (1995) The occurrence of C - HO hydrogen bonds in proteins. J Mol Biol 252:248-262.
Martin T.W., Derewenda Z.S. (1999) The name is bond, H-bond. Nat Struct Biol 6(5):403-406.
Thomas A., Benhabiles N., Meurisse R., Ngwabije R., Brasseur R. (2001) PEX, analytical tools for PDB files. II. H-Pex: Noncanonical H-bonds in alpha helices. Proteins Struct Funct Genet 43:37-44.
Scatena L.F., Brown M.G., Richmond G.L. (2001) Water at hydrophobic surfaces: Weak hydrogen bonding and strong orientation effects. Science 292:908-912.
Srinivasan R., Rose G.D. (1995) LINUS: A hierarchic procedure to predict the fold of a protein. Proteins Struct Funct Genet 22:81-99.