Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation

Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation

<i>Catharanthus roseus</i> produces a wide spectrum of monoterpene indole alkaloids (MIAs). MIA biosynthesis requires a tightly coordinated pathway involving more than 30 enzymatic steps that are spatio-temporally and environmentally regulated so that some MIAs specifically accumulate in...

Full description

Bibliographic Details
Main Authors: Thomas Dugé de Bernonville, Stéphane Maury, Alain Delaunay, Christian Daviaud, Cristian Chaparro, Jörg Tost, Sarah Ellen O’Connor, Vincent Courdavault
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:International Journal of Molecular Sciences
Subjects:
alkaloids
DNA methylation
epigenetics
folivory
organs
plant specialized metabolism
Online Access:https://www.mdpi.com/1422-0067/21/17/6028
id doaj-614c156af11f497e8a571fe10398f054
record_format Article
spelling doaj-614c156af11f497e8a571fe10398f0542020-11-25T03:51:23ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672020-08-01216028602810.3390/ijms21176028Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA MethylationThomas Dugé de Bernonville0Stéphane Maury1Alain Delaunay2Christian Daviaud3Cristian Chaparro4Jörg Tost5Sarah Ellen O’Connor6Vincent Courdavault7Faculté des Sciences et Techniques, Université de Tours, EA2106 Biomolécules et Biotechnologies Végétales, F-37200 Tours, FranceINRA, EA1207 USC1328 Laboratoire de Biologie des Ligneux et des Grandes Cultures, Université d’Orléans, F-45067 Orléans, FranceINRA, EA1207 USC1328 Laboratoire de Biologie des Ligneux et des Grandes Cultures, Université d’Orléans, F-45067 Orléans, FranceLaboratoire Epigénétique et Environnement, LEE, Centre National de Recherche en Génomique Humaine, Institut de Biologie François Jacob, F-92265 Evry, FranceCNRS, IFREMER, UMR5244 Interactions Hôtes-Pathogènes-Environnments, Université de Montpellier, Université de Perpignan Via Domitia, F-66860 Perpignan, FranceLaboratoire Epigénétique et Environnement, LEE, Centre National de Recherche en Génomique Humaine, Institut de Biologie François Jacob, F-92265 Evry, FranceMax Planck Institute for Chemical Ecology, Department of Natural Product Biosynthesis, 07745 Jena, GermanyFaculté des Sciences et Techniques, Université de Tours, EA2106 Biomolécules et Biotechnologies Végétales, F-37200 Tours, France<i>Catharanthus roseus</i> produces a wide spectrum of monoterpene indole alkaloids (MIAs). MIA biosynthesis requires a tightly coordinated pathway involving more than 30 enzymatic steps that are spatio-temporally and environmentally regulated so that some MIAs specifically accumulate in restricted plant parts. The first regulatory layer involves a complex network of transcription factors from the basic Helix Loop Helix (bHLH) or AP2 families. In the present manuscript, we investigated whether an additional epigenetic layer could control the organ-, developmental- and environmental-specificity of MIA accumulation. We used Whole-Genome Bisulfite Sequencing (WGBS) together with RNA-seq to identify differentially methylated and expressed genes among nine samples reflecting different plant organs and experimental conditions. Tissue specific gene expression was associated with specific methylation signatures depending on cytosine contexts and gene parts. Some genes encoding key enzymatic steps from the MIA pathway were found to be simultaneously differentially expressed and methylated in agreement with the corresponding MIA accumulation. In addition, we found that transcription factors were strikingly concerned by DNA methylation variations. Altogether, our integrative analysis supports an epigenetic regulation of specialized metabolisms in plants and more likely targeting transcription factors which in turn may control the expression of enzyme-encoding genes.https://www.mdpi.com/1422-0067/21/17/6028alkaloidsDNA methylationepigeneticsfolivoryorgansplant specialized metabolism
collection DOAJ
language English
format Article
sources DOAJ
author Thomas Dugé de Bernonville
Stéphane Maury
Alain Delaunay
Christian Daviaud
Cristian Chaparro
Jörg Tost
Sarah Ellen O’Connor
Vincent Courdavault
spellingShingle Thomas Dugé de Bernonville
Stéphane Maury
Alain Delaunay
Christian Daviaud
Cristian Chaparro
Jörg Tost
Sarah Ellen O’Connor
Vincent Courdavault
Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
International Journal of Molecular Sciences
alkaloids
DNA methylation
epigenetics
folivory
organs
plant specialized metabolism
author_facet Thomas Dugé de Bernonville
Stéphane Maury
Alain Delaunay
Christian Daviaud
Cristian Chaparro
Jörg Tost
Sarah Ellen O’Connor
Vincent Courdavault
author_sort Thomas Dugé de Bernonville
title Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
title_short Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
title_full Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
title_fullStr Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
title_full_unstemmed Developmental Methylome of the Medicinal Plant <i>Catharanthus roseus</i> Unravels the Tissue-Specific Control of the Monoterpene Indole Alkaloid Pathway by DNA Methylation
title_sort developmental methylome of the medicinal plant <i>catharanthus roseus</i> unravels the tissue-specific control of the monoterpene indole alkaloid pathway by dna methylation
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2020-08-01
description <i>Catharanthus roseus</i> produces a wide spectrum of monoterpene indole alkaloids (MIAs). MIA biosynthesis requires a tightly coordinated pathway involving more than 30 enzymatic steps that are spatio-temporally and environmentally regulated so that some MIAs specifically accumulate in restricted plant parts. The first regulatory layer involves a complex network of transcription factors from the basic Helix Loop Helix (bHLH) or AP2 families. In the present manuscript, we investigated whether an additional epigenetic layer could control the organ-, developmental- and environmental-specificity of MIA accumulation. We used Whole-Genome Bisulfite Sequencing (WGBS) together with RNA-seq to identify differentially methylated and expressed genes among nine samples reflecting different plant organs and experimental conditions. Tissue specific gene expression was associated with specific methylation signatures depending on cytosine contexts and gene parts. Some genes encoding key enzymatic steps from the MIA pathway were found to be simultaneously differentially expressed and methylated in agreement with the corresponding MIA accumulation. In addition, we found that transcription factors were strikingly concerned by DNA methylation variations. Altogether, our integrative analysis supports an epigenetic regulation of specialized metabolisms in plants and more likely targeting transcription factors which in turn may control the expression of enzyme-encoding genes.
topic alkaloids
DNA methylation
epigenetics
folivory
organs
plant specialized metabolism
url https://www.mdpi.com/1422-0067/21/17/6028
work_keys_str_mv AT thomasdugedebernonville developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT stephanemaury developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT alaindelaunay developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT christiandaviaud developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT cristianchaparro developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT jorgtost developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT sarahellenoconnor developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
AT vincentcourdavault developmentalmethylomeofthemedicinalplanticatharanthusroseusiunravelsthetissuespecificcontrolofthemonoterpeneindolealkaloidpathwaybydnamethylation
_version_ 1724488097914159104

Similar Items