Exploring PHD fingers and H3K4me0 interactions with molecular dynamics simulations and binding free energy calculations: AIRE-PHD1, a comparative study

PHD fingers represent one of the largest families of epigenetic readers capable of decoding post-translationally modified or unmodified histone H3 tails. Because of their direct involvement in human pathologies they are increasingly considered as a potential therapeutic target. Several PHD/histone-p...

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Veröffentlicht in:	PloS one 2012-10, Vol.7 (10), p.e46902-e46902
Hauptverfasser:	Spiliotopoulos, Dimitrios, Spitaleri, Andrea, Musco, Giovanna
Format:	Artikel
Sprache:	eng
Schlagworte:	AIRE Protein Alanine Amino acids Antigens Binding energy Bioinformatics Biology Comparative analysis Comparative studies Computer applications Computer simulation Covariance matrix Decoding Dissection Energy Epigenetics Fingers Flapping Free energy Gene expression Genomics Histone H3 Histones - chemistry Histones - genetics Histones - metabolism Humans Hypoxia-Inducible Factor-Proline Dioxygenases Immunology Immunoproteins Kinases Laboratories Ligands Mathematical analysis Methylation Molecular dynamics Molecular Dynamics Simulation Mutants Mutation Nuclear Proteins - chemistry Nuclear Proteins - genetics Nuclear Proteins - metabolism Peptides Physiological aspects Post-translation Principal Component Analysis Procollagen-Proline Dioxygenase - chemistry Procollagen-Proline Dioxygenase - genetics Procollagen-Proline Dioxygenase - metabolism Properties Protein Binding Protein Conformation Protein Interaction Domains and Motifs Protein-protein interactions Proteins Qualitative analysis Readers Recognition Simulation Solvation Studies Thermodynamics Transcription Factors - chemistry Transcription Factors - genetics Transcription Factors - metabolism
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description	PHD fingers represent one of the largest families of epigenetic readers capable of decoding post-translationally modified or unmodified histone H3 tails. Because of their direct involvement in human pathologies they are increasingly considered as a potential therapeutic target. Several PHD/histone-peptide structures have been determined, however relatively little information is available on their dynamics. Studies aiming to characterize the dynamic and energetic determinants driving histone peptide recognition by epigenetic readers would strongly benefit from computational studies. Herein we focus on the dynamic and energetic characterization of the PHD finger subclass specialized in the recognition of histone H3 peptides unmodified in position K4 (H3K4me0). As a case study we focused on the first PHD finger of autoimmune regulator protein (AIRE-PHD1) in complex with H3K4me0. PCA analysis of the covariance matrix of free AIRE-PHD1 highlights the presence of a "flapping" movement, which is blocked in an open conformation upon binding to H3K4me0. Moreover, binding free energy calculations obtained through Molecular Mechanics/Poisson-Boltzmann Surface Area (MM/PBSA) methodology are in good qualitative agreement with experiments and allow dissection of the energetic terms associated with native and alanine mutants of AIRE-PHD1/H3K4me0 complexes. MM/PBSA calculations have also been applied to the energetic analysis of other PHD fingers recognizing H3K4me0. In this case we observe excellent correlation between computed and experimental binding free energies. Overall calculations show that H3K4me0 recognition by PHD fingers relies on compensation of the electrostatic and polar solvation energy terms and is stabilized by non-polar interactions.
doi_str_mv	10.1371/journal.pone.0046902
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Because of their direct involvement in human pathologies they are increasingly considered as a potential therapeutic target. Several PHD/histone-peptide structures have been determined, however relatively little information is available on their dynamics. Studies aiming to characterize the dynamic and energetic determinants driving histone peptide recognition by epigenetic readers would strongly benefit from computational studies. Herein we focus on the dynamic and energetic characterization of the PHD finger subclass specialized in the recognition of histone H3 peptides unmodified in position K4 (H3K4me0). As a case study we focused on the first PHD finger of autoimmune regulator protein (AIRE-PHD1) in complex with H3K4me0. PCA analysis of the covariance matrix of free AIRE-PHD1 highlights the presence of a "flapping" movement, which is blocked in an open conformation upon binding to H3K4me0. 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chemistry</subject><subject>Nuclear Proteins - genetics</subject><subject>Nuclear Proteins - metabolism</subject><subject>Peptides</subject><subject>Physiological aspects</subject><subject>Post-translation</subject><subject>Principal Component Analysis</subject><subject>Procollagen-Proline Dioxygenase - chemistry</subject><subject>Procollagen-Proline Dioxygenase - genetics</subject><subject>Procollagen-Proline Dioxygenase - metabolism</subject><subject>Properties</subject><subject>Protein Binding</subject><subject>Protein Conformation</subject><subject>Protein Interaction Domains and Motifs</subject><subject>Protein-protein interactions</subject><subject>Proteins</subject><subject>Qualitative analysis</subject><subject>Readers</subject><subject>Recognition</subject><subject>Simulation</subject><subject>Solvation</subject><subject>Studies</subject><subject>Thermodynamics</subject><subject>Transcription Factors - chemistry</subject><subject>Transcription Factors - genetics</subject><subject>Transcription Factors - 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Moreover, binding free energy calculations obtained through Molecular Mechanics/Poisson-Boltzmann Surface Area (MM/PBSA) methodology are in good qualitative agreement with experiments and allow dissection of the energetic terms associated with native and alanine mutants of AIRE-PHD1/H3K4me0 complexes. MM/PBSA calculations have also been applied to the energetic analysis of other PHD fingers recognizing H3K4me0. In this case we observe excellent correlation between computed and experimental binding free energies. Overall calculations show that H3K4me0 recognition by PHD fingers relies on compensation of the electrostatic and polar solvation energy terms and is stabilized by non-polar interactions.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23077531</pmid><doi>10.1371/journal.pone.0046902</doi><oa>free_for_read</oa></addata></record>
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subjects	AIRE Protein Alanine Amino acids Antigens Binding energy Bioinformatics Biology Comparative analysis Comparative studies Computer applications Computer simulation Covariance matrix Decoding Dissection Energy Epigenetics Fingers Flapping Free energy Gene expression Genomics Histone H3 Histones - chemistry Histones - genetics Histones - metabolism Humans Hypoxia-Inducible Factor-Proline Dioxygenases Immunology Immunoproteins Kinases Laboratories Ligands Mathematical analysis Methylation Molecular dynamics Molecular Dynamics Simulation Mutants Mutation Nuclear Proteins - chemistry Nuclear Proteins - genetics Nuclear Proteins - metabolism Peptides Physiological aspects Post-translation Principal Component Analysis Procollagen-Proline Dioxygenase - chemistry Procollagen-Proline Dioxygenase - genetics Procollagen-Proline Dioxygenase - metabolism Properties Protein Binding Protein Conformation Protein Interaction Domains and Motifs Protein-protein interactions Proteins Qualitative analysis Readers Recognition Simulation Solvation Studies Thermodynamics Transcription Factors - chemistry Transcription Factors - genetics Transcription Factors - metabolism
title	Exploring PHD fingers and H3K4me0 interactions with molecular dynamics simulations and binding free energy calculations: AIRE-PHD1, a comparative study
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