Chromatin Proteomics Reveals Variable Histone Modifications during the Life Cycle of Trypanosoma cruzi

Histones are well-conserved proteins that form the basic structure of chromatin in eukaryotes and undergo several post-translational modifications, which are important for the control of transcription, replication, DNA damage repair, and chromosome condensation. In early branched organisms, histones...

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Veröffentlicht in:	Journal of proteome research 2016-06, Vol.15 (6), p.2039-2051
Hauptverfasser:	de Jesus, Teresa Cristina Leandro, Nunes, Vinícius Santana, Lopes, Mariana de Camargo, Martil, Daiana Evelin, Iwai, Leo Kei, Moretti, Nilmar Silvio, Machado, Fabrício Castro, de Lima-Stein, Mariana L, Thiemann, Otavio Henrique, Elias, Maria Carolina, Janzen, Christian, Schenkman, Sergio, da Cunha, Julia Pinheiro Chagas
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetylation Cell Cycle Chromatin - chemistry Gene Expression Regulation Histone Code Life Cycle Stages Methylation Phosphorylation Protein Processing, Post-Translational - physiology Proteomics - methods Trypanosoma cruzi
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container_title	Journal of proteome research
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creator	de Jesus, Teresa Cristina Leandro Nunes, Vinícius Santana Lopes, Mariana de Camargo Martil, Daiana Evelin Iwai, Leo Kei Moretti, Nilmar Silvio Machado, Fabrício Castro de Lima-Stein, Mariana L Thiemann, Otavio Henrique Elias, Maria Carolina Janzen, Christian Schenkman, Sergio da Cunha, Julia Pinheiro Chagas
description	Histones are well-conserved proteins that form the basic structure of chromatin in eukaryotes and undergo several post-translational modifications, which are important for the control of transcription, replication, DNA damage repair, and chromosome condensation. In early branched organisms, histones are less conserved and appear to contain alternative sites for modifications, which could reveal evolutionary unique functions of histone modifications in gene expression and other chromatin-based processes. Here, by using high-resolution mass spectrometry, we identified and quantified histone post-translational modifications in two life cycle stages of Trypanosoma cruzi, the protozoan parasite that causes Chagas disease. We detected 44 new modifications, namely: 18 acetylations, seven monomethylations, seven dimethylations, seven trimethylations, and four phosphorylations. We found that replicative (epimastigote stage) contains more histone modifications than nonreplicative and infective parasites (trypomastigote stage). Acetylations of lysines at the C-terminus of histone H2A and methylations of lysine 23 of histone H3 were found to be enriched in trypomastigotes. In contrast, phosphorylation in serine 23 of H2B and methylations of lysine 76 of histone H3 predominates in proliferative states. The presence of one or two methylations in the lysine 76 was found in cells undergoing mitosis and cytokinesis, typical of proliferating parasites. Our findings provide new insights into the role of histone modifications related to the control of gene expression and cell-cycle regulation in an early divergent organism.
doi_str_mv	10.1021/acs.jproteome.6b00208
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In early branched organisms, histones are less conserved and appear to contain alternative sites for modifications, which could reveal evolutionary unique functions of histone modifications in gene expression and other chromatin-based processes. Here, by using high-resolution mass spectrometry, we identified and quantified histone post-translational modifications in two life cycle stages of Trypanosoma cruzi, the protozoan parasite that causes Chagas disease. We detected 44 new modifications, namely: 18 acetylations, seven monomethylations, seven dimethylations, seven trimethylations, and four phosphorylations. We found that replicative (epimastigote stage) contains more histone modifications than nonreplicative and infective parasites (trypomastigote stage). Acetylations of lysines at the C-terminus of histone H2A and methylations of lysine 23 of histone H3 were found to be enriched in trypomastigotes. In contrast, phosphorylation in serine 23 of H2B and methylations of lysine 76 of histone H3 predominates in proliferative states. The presence of one or two methylations in the lysine 76 was found in cells undergoing mitosis and cytokinesis, typical of proliferating parasites. 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Proteome Res</addtitle><description>Histones are well-conserved proteins that form the basic structure of chromatin in eukaryotes and undergo several post-translational modifications, which are important for the control of transcription, replication, DNA damage repair, and chromosome condensation. In early branched organisms, histones are less conserved and appear to contain alternative sites for modifications, which could reveal evolutionary unique functions of histone modifications in gene expression and other chromatin-based processes. Here, by using high-resolution mass spectrometry, we identified and quantified histone post-translational modifications in two life cycle stages of Trypanosoma cruzi, the protozoan parasite that causes Chagas disease. We detected 44 new modifications, namely: 18 acetylations, seven monomethylations, seven dimethylations, seven trimethylations, and four phosphorylations. We found that replicative (epimastigote stage) contains more histone modifications than nonreplicative and infective parasites (trypomastigote stage). Acetylations of lysines at the C-terminus of histone H2A and methylations of lysine 23 of histone H3 were found to be enriched in trypomastigotes. In contrast, phosphorylation in serine 23 of H2B and methylations of lysine 76 of histone H3 predominates in proliferative states. The presence of one or two methylations in the lysine 76 was found in cells undergoing mitosis and cytokinesis, typical of proliferating parasites. Our findings provide new insights into the role of histone modifications related to the control of gene expression and cell-cycle regulation in an early divergent organism.</description><subject>Acetylation</subject><subject>Cell Cycle</subject><subject>Chromatin - chemistry</subject><subject>Gene Expression Regulation</subject><subject>Histone Code</subject><subject>Life Cycle Stages</subject><subject>Methylation</subject><subject>Phosphorylation</subject><subject>Protein Processing, Post-Translational - physiology</subject><subject>Proteomics - methods</subject><subject>Trypanosoma cruzi</subject><issn>1535-3893</issn><issn>1535-3907</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkMtOwzAQRS0EoqXwCSAv2aSMnbpxligCilQEQoVt5CRj6iqJi50gla_H0MeWlWdx7h3PIeSSwZgBZzeq9OPV2tkObYPjaQHAQR6RIROxiOIUkuP9LNN4QM68XwEwkUB8SgY8YSCFgCHR2dLZRnWmpS_bMlN6-opfqGpP35UzqqiRzozvbIv0yVZGmzLwtvW06p1pP2i3RDo3Gmm2KQNrNV24zVq11odmWrr-25yTEx0K8WL3jsjb_d0im0Xz54fH7HYeqViwLkoFL6tEVcAnE11wUSEkk2n4qy5QSxljAihZyhWmXCJMJdOoQXBErpTSIh6R621vMPPZo-_yxvgS61q1aHufsyQNbiZxIgMqtmjprPcOdb52plFukzPIfxXnQXF-UJzvFIfc1W5FXzRYHVJ7pwFgW-Avb3vXhov_Kf0B-qGOKA</recordid><startdate>20160603</startdate><enddate>20160603</enddate><creator>de Jesus, Teresa Cristina Leandro</creator><creator>Nunes, Vinícius Santana</creator><creator>Lopes, Mariana de Camargo</creator><creator>Martil, Daiana Evelin</creator><creator>Iwai, Leo Kei</creator><creator>Moretti, Nilmar Silvio</creator><creator>Machado, Fabrício Castro</creator><creator>de Lima-Stein, Mariana L</creator><creator>Thiemann, Otavio Henrique</creator><creator>Elias, Maria Carolina</creator><creator>Janzen, Christian</creator><creator>Schenkman, Sergio</creator><creator>da Cunha, Julia Pinheiro Chagas</creator><general>American Chemical Society</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20160603</creationdate><title>Chromatin Proteomics Reveals Variable Histone Modifications during the Life Cycle of Trypanosoma cruzi</title><author>de Jesus, Teresa Cristina Leandro ; 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subjects	Acetylation Cell Cycle Chromatin - chemistry Gene Expression Regulation Histone Code Life Cycle Stages Methylation Phosphorylation Protein Processing, Post-Translational - physiology Proteomics - methods Trypanosoma cruzi
title	Chromatin Proteomics Reveals Variable Histone Modifications during the Life Cycle of Trypanosoma cruzi
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