Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line

Methylation systems have been conserved during the divergence of plants and animals, although they are regulated by different pathways and enzymes. However, studies on the interactions of the epigenomes among evolutionarily distant organisms are lacking. To address this, we studied the epigenetic mo...

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Main Authors: Liaw, YengMun, Liu, Yikun, Teo, CheeHow, Capal, Petr, Wada, Naoki, Fukui, Kiichi, Dolezel, Jaroslav, Ohmido, Nobuko
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Published: MDPI 2021
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Online Access:http://eprints.um.edu.my/33922/
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Institution: Universiti Malaya
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spelling my.um.eprints.339222022-07-12T04:34:37Z http://eprints.um.edu.my/33922/ Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line Liaw, YengMun Liu, Yikun Teo, CheeHow Capal, Petr Wada, Naoki Fukui, Kiichi Dolezel, Jaroslav Ohmido, Nobuko QD Chemistry Methylation systems have been conserved during the divergence of plants and animals, although they are regulated by different pathways and enzymes. However, studies on the interactions of the epigenomes among evolutionarily distant organisms are lacking. To address this, we studied the epigenetic modification and gene expression of plant chromosome fragments (similar to 30 Mb) in a human Arabidopsis hybrid cell line. The whole-genome bisulfite sequencing results demonstrated that recombinant Arabidopsis DNA could retain its plant CG methylation levels even without functional plant methyltransferases, indicating that plant DNA methylation states can be maintained even in a different genomic background. The differential methylation analysis showed that the Arabidopsis DNA was undermethylated in the centromeric region and repetitive elements. Several Arabidopsis genes were still expressed, whereas the expression patterns were not related to the gene function. We concluded that the plant DNA did not maintain the original plant epigenomic landscapes and was under the control of the human genome. This study showed how two diverging genomes can coexist and provided insights into epigenetic modifications and their impact on the regulation of gene expressions between plant and animal genomes. MDPI 2021-06 Article PeerReviewed Liaw, YengMun and Liu, Yikun and Teo, CheeHow and Capal, Petr and Wada, Naoki and Fukui, Kiichi and Dolezel, Jaroslav and Ohmido, Nobuko (2021) Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line. International Journal of Molecular Sciences, 22 (11). ISSN 1422-0067, DOI https://doi.org/10.3390/ijms22115426 <https://doi.org/10.3390/ijms22115426>. 10.3390/ijms22115426
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic QD Chemistry
spellingShingle QD Chemistry
Liaw, YengMun
Liu, Yikun
Teo, CheeHow
Capal, Petr
Wada, Naoki
Fukui, Kiichi
Dolezel, Jaroslav
Ohmido, Nobuko
Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
description Methylation systems have been conserved during the divergence of plants and animals, although they are regulated by different pathways and enzymes. However, studies on the interactions of the epigenomes among evolutionarily distant organisms are lacking. To address this, we studied the epigenetic modification and gene expression of plant chromosome fragments (similar to 30 Mb) in a human Arabidopsis hybrid cell line. The whole-genome bisulfite sequencing results demonstrated that recombinant Arabidopsis DNA could retain its plant CG methylation levels even without functional plant methyltransferases, indicating that plant DNA methylation states can be maintained even in a different genomic background. The differential methylation analysis showed that the Arabidopsis DNA was undermethylated in the centromeric region and repetitive elements. Several Arabidopsis genes were still expressed, whereas the expression patterns were not related to the gene function. We concluded that the plant DNA did not maintain the original plant epigenomic landscapes and was under the control of the human genome. This study showed how two diverging genomes can coexist and provided insights into epigenetic modifications and their impact on the regulation of gene expressions between plant and animal genomes.
format Article
author Liaw, YengMun
Liu, Yikun
Teo, CheeHow
Capal, Petr
Wada, Naoki
Fukui, Kiichi
Dolezel, Jaroslav
Ohmido, Nobuko
author_facet Liaw, YengMun
Liu, Yikun
Teo, CheeHow
Capal, Petr
Wada, Naoki
Fukui, Kiichi
Dolezel, Jaroslav
Ohmido, Nobuko
author_sort Liaw, YengMun
title Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
title_short Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
title_full Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
title_fullStr Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
title_full_unstemmed Epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
title_sort epigenetic distribution of recombinant plant chromosome fragments in a human-arabidopsis hybrid cell line
publisher MDPI
publishDate 2021
url http://eprints.um.edu.my/33922/
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