Cargando…
The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA
The maize genome, with its large complement of transposons and repeats, is a paradigm for the study of epigenetic mechanisms such as paramutation and imprinting. Here, we present the genome-wide map of cytosine methylation for two maize inbred lines, B73 and Mo17. CG (65%) and CHG (50%) methylation...
| Autores principales: | , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Cold Spring Harbor Laboratory Press
2013
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3787262/ https://www.ncbi.nlm.nih.gov/pubmed/23739895 http://dx.doi.org/10.1101/gr.153510.112 |
| _version_ | 1782286155328258048 |
|---|---|
| author | Regulski, Michael Lu, Zhenyuan Kendall, Jude Donoghue, Mark T.A. Reinders, Jon Llaca, Victor Deschamps, Stephane Smith, Andrew Levy, Dan McCombie, W. Richard Tingey, Scott Rafalski, Antoni Hicks, James Ware, Doreen Martienssen, Robert A. |
| author_facet | Regulski, Michael Lu, Zhenyuan Kendall, Jude Donoghue, Mark T.A. Reinders, Jon Llaca, Victor Deschamps, Stephane Smith, Andrew Levy, Dan McCombie, W. Richard Tingey, Scott Rafalski, Antoni Hicks, James Ware, Doreen Martienssen, Robert A. |
| author_sort | Regulski, Michael |
| collection | PubMed |
| description | The maize genome, with its large complement of transposons and repeats, is a paradigm for the study of epigenetic mechanisms such as paramutation and imprinting. Here, we present the genome-wide map of cytosine methylation for two maize inbred lines, B73 and Mo17. CG (65%) and CHG (50%) methylation (where H = A, C, or T) is highest in transposons, while CHH (5%) methylation is likely guided by 24-nt, but not 21-nt, small interfering RNAs (siRNAs). Correlations with methylation patterns suggest that CG methylation in exons (8%) may deter insertion of Mutator transposon insertion, while CHG methylation at splice acceptor sites may inhibit RNA splicing. Using the methylation map as a guide, we used low-coverage sequencing to show that parental methylation differences are inherited by recombinant inbred lines. However, frequent methylation switches, guided by siRNA, persist for up to eight generations, suggesting that epigenetic inheritance resembling paramutation is much more common than previously supposed. The methylation map will provide an invaluable resource for epigenetic studies in maize. |
| format | Online Article Text |
| id | pubmed-3787262 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2013 |
| publisher | Cold Spring Harbor Laboratory Press |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-37872622013-10-21 The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA Regulski, Michael Lu, Zhenyuan Kendall, Jude Donoghue, Mark T.A. Reinders, Jon Llaca, Victor Deschamps, Stephane Smith, Andrew Levy, Dan McCombie, W. Richard Tingey, Scott Rafalski, Antoni Hicks, James Ware, Doreen Martienssen, Robert A. Genome Res Research The maize genome, with its large complement of transposons and repeats, is a paradigm for the study of epigenetic mechanisms such as paramutation and imprinting. Here, we present the genome-wide map of cytosine methylation for two maize inbred lines, B73 and Mo17. CG (65%) and CHG (50%) methylation (where H = A, C, or T) is highest in transposons, while CHH (5%) methylation is likely guided by 24-nt, but not 21-nt, small interfering RNAs (siRNAs). Correlations with methylation patterns suggest that CG methylation in exons (8%) may deter insertion of Mutator transposon insertion, while CHG methylation at splice acceptor sites may inhibit RNA splicing. Using the methylation map as a guide, we used low-coverage sequencing to show that parental methylation differences are inherited by recombinant inbred lines. However, frequent methylation switches, guided by siRNA, persist for up to eight generations, suggesting that epigenetic inheritance resembling paramutation is much more common than previously supposed. The methylation map will provide an invaluable resource for epigenetic studies in maize. Cold Spring Harbor Laboratory Press 2013-10 /pmc/articles/PMC3787262/ /pubmed/23739895 http://dx.doi.org/10.1101/gr.153510.112 Text en © 2013, Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by-nc/3.0/ This article, published in Genome Research, is available under a Creative Commons License (Attribution-NonCommercial 3.0 Unported), as described at http://creativecommons.org/licenses/by-nc/3.0/. |
| spellingShingle | Research Regulski, Michael Lu, Zhenyuan Kendall, Jude Donoghue, Mark T.A. Reinders, Jon Llaca, Victor Deschamps, Stephane Smith, Andrew Levy, Dan McCombie, W. Richard Tingey, Scott Rafalski, Antoni Hicks, James Ware, Doreen Martienssen, Robert A. The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title | The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title_full | The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title_fullStr | The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title_full_unstemmed | The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title_short | The maize methylome influences mRNA splice sites and reveals widespread paramutation-like switches guided by small RNA |
| title_sort | maize methylome influences mrna splice sites and reveals widespread paramutation-like switches guided by small rna |
| topic | Research |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3787262/ https://www.ncbi.nlm.nih.gov/pubmed/23739895 http://dx.doi.org/10.1101/gr.153510.112 |
| work_keys_str_mv | AT regulskimichael themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT luzhenyuan themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT kendalljude themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT donoghuemarkta themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT reindersjon themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT llacavictor themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT deschampsstephane themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT smithandrew themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT levydan themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT mccombiewrichard themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT tingeyscott themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT rafalskiantoni themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT hicksjames themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT waredoreen themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT martienssenroberta themaizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT regulskimichael maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT luzhenyuan maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT kendalljude maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT donoghuemarkta maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT reindersjon maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT llacavictor maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT deschampsstephane maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT smithandrew maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT levydan maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT mccombiewrichard maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT tingeyscott maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT rafalskiantoni maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT hicksjames maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT waredoreen maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna AT martienssenroberta maizemethylomeinfluencesmrnasplicesitesandrevealswidespreadparamutationlikeswitchesguidedbysmallrna |