Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification

Reyhaneh Esmaielbeiki; Jean Christophe Nebel

doi:10.4230/OASIcs.GCB.2012.119

Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification

Reyhaneh Esmaielbeiki, Jean Christophe Nebel

Kingston University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Proteins interact with each other to perform essential functions in cells. Consequently, identification of their binding interfaces can provide key information for drug design. Here, we introduce Weighted Protein Interface Prediction (WePIP), an original framework which predicts protein interfaces from homologous complexes. WePIP takes advantage of a novel weighted score which is not only based on structural neighbours' information but, unlike current state-of-the-art methods, also takes into consideration the nature of their interaction partners. Experimental validation demonstrates that our weighted schema significantly improves prediction performance. In particular, we have established a major contribution to ligand diversity quantification. Moreover, application of our framework on a standard dataset shows WePIP performance compares favourably with other state of the art methods.

Original language	English
Title of host publication	This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.
Pages	119-130
DOIs	https://doi.org/10.4230/OASIcs.GCB.2012.119
Publication status	Published - Sept 2012

Publication series

Name	OASICS
Number	Vol. 26
ISSN (Print)	2190-6807

Bibliographical note

Note: This paper was published in:
Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.

Keywords

Computer science and informatics
Protein-protein interaction
homology modeling
protein interface prediction

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10.4230/OASIcs.GCB.2012.119

Nebel-JC-23649Final published version, 2.62 MBLicence: CC BY-ND

http://dx.doi.org/10.4230/OASIcs.GCB.2012.119

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Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification
Esmaielbeiki, R. & Nebel, J. C., Sept 2012.
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Esmaielbeiki, R., & Nebel, J. C. (2012). Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification. In This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130. (pp. 119-130). (OASICS; No. Vol. 26). https://doi.org/10.4230/OASIcs.GCB.2012.119

Esmaielbeiki, Reyhaneh ; Nebel, Jean Christophe. / Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification. This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.. 2012. pp. 119-130 (OASICS; Vol. 26).

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title = "Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification",

abstract = "Proteins interact with each other to perform essential functions in cells. Consequently, identification of their binding interfaces can provide key information for drug design. Here, we introduce Weighted Protein Interface Prediction (WePIP), an original framework which predicts protein interfaces from homologous complexes. WePIP takes advantage of a novel weighted score which is not only based on structural neighbours' information but, unlike current state-of-the-art methods, also takes into consideration the nature of their interaction partners. Experimental validation demonstrates that our weighted schema significantly improves prediction performance. In particular, we have established a major contribution to ligand diversity quantification. Moreover, application of our framework on a standard dataset shows WePIP performance compares favourably with other state of the art methods.",

keywords = "Computer science and informatics, Protein-protein interaction, homology modeling, protein interface prediction",

author = "Reyhaneh Esmaielbeiki and Nebel, \{Jean Christophe\}",

note = "Note: This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.",

year = "2012",

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doi = "10.4230/OASIcs.GCB.2012.119",

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Esmaielbeiki, R & Nebel, JC 2012, Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification. in This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.. OASICS, no. Vol. 26, pp. 119-130. https://doi.org/10.4230/OASIcs.GCB.2012.119

Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification. / Esmaielbeiki, Reyhaneh; Nebel, Jean Christophe.
This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.. 2012. p. 119-130 (OASICS; No. Vol. 26).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

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AU - Esmaielbeiki, Reyhaneh

AU - Nebel, Jean Christophe

N1 - Note: This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.

PY - 2012/9

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N2 - Proteins interact with each other to perform essential functions in cells. Consequently, identification of their binding interfaces can provide key information for drug design. Here, we introduce Weighted Protein Interface Prediction (WePIP), an original framework which predicts protein interfaces from homologous complexes. WePIP takes advantage of a novel weighted score which is not only based on structural neighbours' information but, unlike current state-of-the-art methods, also takes into consideration the nature of their interaction partners. Experimental validation demonstrates that our weighted schema significantly improves prediction performance. In particular, we have established a major contribution to ligand diversity quantification. Moreover, application of our framework on a standard dataset shows WePIP performance compares favourably with other state of the art methods.

AB - Proteins interact with each other to perform essential functions in cells. Consequently, identification of their binding interfaces can provide key information for drug design. Here, we introduce Weighted Protein Interface Prediction (WePIP), an original framework which predicts protein interfaces from homologous complexes. WePIP takes advantage of a novel weighted score which is not only based on structural neighbours' information but, unlike current state-of-the-art methods, also takes into consideration the nature of their interaction partners. Experimental validation demonstrates that our weighted schema significantly improves prediction performance. In particular, we have established a major contribution to ligand diversity quantification. Moreover, application of our framework on a standard dataset shows WePIP performance compares favourably with other state of the art methods.

KW - Computer science and informatics

KW - Protein-protein interaction

KW - homology modeling

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M3 - Conference contribution

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EP - 130

BT - This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.

ER -

Esmaielbeiki R, Nebel JC. Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification. In This paper was published in: Esmaielbeiki, R and Nebel, J-C. (2012) Unbiased protein interface prediction based on ligand diversity quantification In Bocker, S; Hufsky, F; Scheubert, K; Schleicher, J and Schuster, S (eds), German conference on bioinformatics 2012. Dagstuhl Publishing, Saarbrucken, pp. 119-130.. 2012. p. 119-130. (OASICS; Vol. 26). doi: 10.4230/OASIcs.GCB.2012.119

Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification

Abstract

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Bibliographical note

Keywords

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Research output

Unbiased Protein Interface Prediction Based on Ligand Diversity Quantification

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