Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus

Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus

Abstract Background DNA methylation is a frequently studied epigenetic modification due to its role in regulating gene expression and hence in biological processes and in determining phenotypic plasticity in organisms. Rudimentary DNA methylation patterns for some livestock species are publically av...

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Main Authors: Stefano Frattini, Emanuele Capra, Barbara Lazzari, Stephanie D. McKay, Beatrice Coizet, Andrea Talenti, Debora Groppetti, Pietro Riccaboni, Alessandro Pecile, Stefania Chessa, Bianca Castiglioni, John L. Williams, Giulio Pagnacco, Alessandra Stella, Paola Crepaldi
Format: Article
Language:English
Published: BMC 2017-06-01
Series:BMC Genomics
Subjects:
Goat
DNA methylation
Epigenetic
MBD-seq
Hypothalamus
Ovary
Online Access:http://link.springer.com/article/10.1186/s12864-017-3866-4
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spelling doaj-bd1a74db75e64e34a457aa55aa9e0d572020-11-25T02:32:44ZengBMCBMC Genomics1471-21642017-06-011811910.1186/s12864-017-3866-4Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircusStefano Frattini0Emanuele Capra1Barbara Lazzari2Stephanie D. McKay3Beatrice Coizet4Andrea Talenti5Debora Groppetti6Pietro Riccaboni7Alessandro Pecile8Stefania Chessa9Bianca Castiglioni10John L. Williams11Giulio Pagnacco12Alessandra Stella13Paola Crepaldi14Department of Veterinary Science, University of MilanInstitute of Agricultural Biology and Biotechnology, National Research Council UOS of LodiInstitute of Agricultural Biology and Biotechnology, National Research Council UOS of LodiDepartment of Animal & Veterinary Sciences, University of VermontDepartment of Veterinary Science, University of MilanDepartment of Veterinary Science, University of MilanDepartment of Veterinary Science, University of MilanDepartment of Veterinary Science, University of MilanDepartment of Veterinary Science, University of MilanInstitute of Agricultural Biology and Biotechnology, National Research Council UOS of LodiInstitute of Agricultural Biology and Biotechnology, National Research Council UOS of LodiThe Davies Research Centre, School of Animal and Veterinary Sciences, University of AdelaideDepartment of Veterinary Science, University of MilanInstitute of Agricultural Biology and Biotechnology, National Research Council UOS of LodiDepartment of Veterinary Science, University of MilanAbstract Background DNA methylation is a frequently studied epigenetic modification due to its role in regulating gene expression and hence in biological processes and in determining phenotypic plasticity in organisms. Rudimentary DNA methylation patterns for some livestock species are publically available: among these, goat methylome deserves to be further explored. Results Genome-wide DNA methylation maps of the hypothalamus and ovary from Saanen goats were generated using Methyl-CpG binding domain protein sequencing (MBD-seq). Analysis of DNA methylation patterns indicate that the majority of methylation peaks found within genes are located gene body regions, for both organs. Analysis of the distribution of methylated sites per chromosome showed that chromosome X had the lowest number of methylation peaks. The X chromosome has one of the highest percentages of methylated CpG islands in both organs, and approximately 50% of the CpG islands in the goat epigenome are methylated in hypothalamus and ovary. Organ-specific Differentially Methylated Genes (DMGs) were correlated with the expression levels. Conclusions The comparison between transcriptome and methylome in hypothalamus and ovary showed that a higher level of methylation is not accompanied by a higher gene suppression. The genome-wide DNA methylation map for two goat organs produced here is a valuable starting point for studying the involvement of epigenetic modifications in regulating goat reproduction performance.http://link.springer.com/article/10.1186/s12864-017-3866-4GoatDNA methylationEpigeneticMBD-seqHypothalamusOvary
collection DOAJ
language English
format Article
sources DOAJ
author Stefano Frattini
Emanuele Capra
Barbara Lazzari
Stephanie D. McKay
Beatrice Coizet
Andrea Talenti
Debora Groppetti
Pietro Riccaboni
Alessandro Pecile
Stefania Chessa
Bianca Castiglioni
John L. Williams
Giulio Pagnacco
Alessandra Stella
Paola Crepaldi
spellingShingle Stefano Frattini
Emanuele Capra
Barbara Lazzari
Stephanie D. McKay
Beatrice Coizet
Andrea Talenti
Debora Groppetti
Pietro Riccaboni
Alessandro Pecile
Stefania Chessa
Bianca Castiglioni
John L. Williams
Giulio Pagnacco
Alessandra Stella
Paola Crepaldi
Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
BMC Genomics
Goat
DNA methylation
Epigenetic
MBD-seq
Hypothalamus
Ovary
author_facet Stefano Frattini
Emanuele Capra
Barbara Lazzari
Stephanie D. McKay
Beatrice Coizet
Andrea Talenti
Debora Groppetti
Pietro Riccaboni
Alessandro Pecile
Stefania Chessa
Bianca Castiglioni
John L. Williams
Giulio Pagnacco
Alessandra Stella
Paola Crepaldi
author_sort Stefano Frattini
title Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
title_short Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
title_full Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
title_fullStr Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
title_full_unstemmed Genome-wide analysis of DNA methylation in hypothalamus and ovary of Capra hircus
title_sort genome-wide analysis of dna methylation in hypothalamus and ovary of capra hircus
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2017-06-01
description Abstract Background DNA methylation is a frequently studied epigenetic modification due to its role in regulating gene expression and hence in biological processes and in determining phenotypic plasticity in organisms. Rudimentary DNA methylation patterns for some livestock species are publically available: among these, goat methylome deserves to be further explored. Results Genome-wide DNA methylation maps of the hypothalamus and ovary from Saanen goats were generated using Methyl-CpG binding domain protein sequencing (MBD-seq). Analysis of DNA methylation patterns indicate that the majority of methylation peaks found within genes are located gene body regions, for both organs. Analysis of the distribution of methylated sites per chromosome showed that chromosome X had the lowest number of methylation peaks. The X chromosome has one of the highest percentages of methylated CpG islands in both organs, and approximately 50% of the CpG islands in the goat epigenome are methylated in hypothalamus and ovary. Organ-specific Differentially Methylated Genes (DMGs) were correlated with the expression levels. Conclusions The comparison between transcriptome and methylome in hypothalamus and ovary showed that a higher level of methylation is not accompanied by a higher gene suppression. The genome-wide DNA methylation map for two goat organs produced here is a valuable starting point for studying the involvement of epigenetic modifications in regulating goat reproduction performance.
topic Goat
DNA methylation
Epigenetic
MBD-seq
Hypothalamus
Ovary
url http://link.springer.com/article/10.1186/s12864-017-3866-4
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