QSAR analysis of SH2-binding phosphopeptides: Using interaction energies and cross-correlation coefficients

Authors
Moon, TSong, JSLee, JKYoon, CN
Issue Date
2003-09
Publisher
AMER CHEMICAL SOC
Citation
JOURNAL OF CHEMICAL INFORMATION AND COMPUTER SCIENCES, v.43, no.5, pp.1570 - 1575
Abstract
Quantitative structure-activity relationships (QSAR) analyses were carried out on the SH2-phosphopeptide complexes using multiple linear regressions. The residue-residue interaction energies and cross-correlation coefficients were used as descriptors. Since the number of descriptors was very large (602 for interaction energies and 951 for cross-correlation coefficients), the stepwise addition method was applied for the multiple linear regressions. The residue-residue interaction energies were good descriptors for structure-activity relationships. The high r(2) regression models were achieved by using interaction energy. In addition, the concerted atomic motions, which show the dynamic properties during the SH2-phosphopeptide interaction, were used as descriptors. They were identified by the cross-correlation coefficients for atomic displacement. The best regression model, derived by using four cross-correlation coefficients, gave a high r(2) value of 0.925. This suggests that the dynamic properties showing concerted atomic motions can be used as good descriptors in QSAR study.
Keywords
AFFINITY PHOSPHOTYROSYL PEPTIDE; SH2 DOMAIN; SIGNAL TRANSDUCTION; CRYSTAL-STRUCTURES; PROTEIN-KINASE; BINDING; RECOGNITION; PP60C-SRC; P56(LCK); FAMILY; AFFINITY PHOSPHOTYROSYL PEPTIDE; SH2 DOMAIN; SIGNAL TRANSDUCTION; CRYSTAL-STRUCTURES; PROTEIN-KINASE; BINDING; RECOGNITION; PP60C-SRC; P56(LCK); FAMILY; QSAR
ISSN
0095-2338
URI
https://pubs.kist.re.kr/handle/201004/138280
DOI
10.1021/ci034073o
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KIST Article > 2003
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