Title of article
A quantum mechanical study on phosphotyrosyl peptide binding to the SH2 domain of p56lck tyrosine kinase with insights into the biochemistry of intracellular signal transduction events Original Research Article
Author/Authors
Fabio Pichierri، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
10
From page
295
To page
304
Abstract
A study on the interaction between a phosphotyrosyl peptide with the SH2 domain of Lck kinase has been undertaken with the aid of semiempirical linear-scaling quantum mechanical methods. The structure of this complex has been solved at atomic resolution and, hence, it represents the ideal candidate for studying the charge deformation effects induced by the phosphopeptide on the binding site. Substantial changes in the charge of amino acid residues located in the binding pocket of the protein are observed upon ligand binding. More specifically, our quantum chemical calculations indicate that H-bonds involving charged side-chains are subject to consistent charge deformation effects whereas those forming salt bridges are unaffected by ligand binding. Furthermore, ligand binding has the effect of changing both the magnitude and direction of the proteinʹs macrodipole, which rotates approximately 150° with respect that of the unliganded protein. This suggests that a change in the polarization state of the protein might acts as a switch during the transmission of intracellular signals. The binding energy calculated with the aid of the COSMO solvation model corresponds to about −200 kcal/mol, most of which is attributed to the interaction of the phosphotyrosine head with the amino acid chains located in the binding site of the SH2 domain.
Keywords
Quantum mechanical effects , Signal transduction , SH2 domain , Phosphotyrosyl peptide
Journal title
Biophysical Chemistry
Serial Year
2004
Journal title
Biophysical Chemistry
Record number
1113461
Link To Document