Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops

Chromatin modulation plays important roles in gene expression regulation and genome activities. In plants, epigenetic changes, including variations in histone modification and DNA methylation, are linked to alterations in gene expression. Despite the significance and potential of in vitro cell and t...

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Main Authors: Azizi, Parisa, Hanafi, Mohamed M., Sahebi, Mahbod, Harikrishna, Jennifer A., Taheri, Sima, Yassoralipour, Ali, Nasehi, Abbas
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Published: Csiro Publishing 2020
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Online Access:http://eprints.um.edu.my/36990/
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Institution: Universiti Malaya
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spelling my.um.eprints.369902024-11-08T02:00:47Z http://eprints.um.edu.my/36990/ Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops Azizi, Parisa Hanafi, Mohamed M. Sahebi, Mahbod Harikrishna, Jennifer A. Taheri, Sima Yassoralipour, Ali Nasehi, Abbas Q Science (General) S Agriculture (General) Chromatin modulation plays important roles in gene expression regulation and genome activities. In plants, epigenetic changes, including variations in histone modification and DNA methylation, are linked to alterations in gene expression. Despite the significance and potential of in vitro cell and tissue culture systems in fundamental research and marketable applications, these systems threaten the genetic and epigenetic networks of intact plant organs and tissues. Cell and tissue culture applications can lead to DNA variations, methylation alterations, transposon activation, and finally, somaclonal variations. In this review, we discuss the status of the current understanding of epigenomic changes that occur under in vitro conditions in plantation crops, including coconut, oil palm, rubber, cotton, coffee and tea. It is hoped that comprehensive knowledge of the molecular basis of these epigenomic variations will help researchers develop strategies to enhance the totipotent and embryogenic capabilities of tissue culture systems for plantation crops. Csiro Publishing 2020 Article PeerReviewed Azizi, Parisa and Hanafi, Mohamed M. and Sahebi, Mahbod and Harikrishna, Jennifer A. and Taheri, Sima and Yassoralipour, Ali and Nasehi, Abbas (2020) Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops. Functional Plant Biology, 47 (6). pp. 508-523. ISSN 14454408, DOI https://doi.org/10.1071/FP19077 <https://doi.org/10.1071/FP19077>. 10.1071/FP19077
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 Q Science (General)
S Agriculture (General)
spellingShingle Q Science (General)
S Agriculture (General)
Azizi, Parisa
Hanafi, Mohamed M.
Sahebi, Mahbod
Harikrishna, Jennifer A.
Taheri, Sima
Yassoralipour, Ali
Nasehi, Abbas
Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
description Chromatin modulation plays important roles in gene expression regulation and genome activities. In plants, epigenetic changes, including variations in histone modification and DNA methylation, are linked to alterations in gene expression. Despite the significance and potential of in vitro cell and tissue culture systems in fundamental research and marketable applications, these systems threaten the genetic and epigenetic networks of intact plant organs and tissues. Cell and tissue culture applications can lead to DNA variations, methylation alterations, transposon activation, and finally, somaclonal variations. In this review, we discuss the status of the current understanding of epigenomic changes that occur under in vitro conditions in plantation crops, including coconut, oil palm, rubber, cotton, coffee and tea. It is hoped that comprehensive knowledge of the molecular basis of these epigenomic variations will help researchers develop strategies to enhance the totipotent and embryogenic capabilities of tissue culture systems for plantation crops.
format Article
author Azizi, Parisa
Hanafi, Mohamed M.
Sahebi, Mahbod
Harikrishna, Jennifer A.
Taheri, Sima
Yassoralipour, Ali
Nasehi, Abbas
author_facet Azizi, Parisa
Hanafi, Mohamed M.
Sahebi, Mahbod
Harikrishna, Jennifer A.
Taheri, Sima
Yassoralipour, Ali
Nasehi, Abbas
author_sort Azizi, Parisa
title Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
title_short Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
title_full Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
title_fullStr Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
title_full_unstemmed Epigenetic changes and their relationship to somaclonal variation: A need to monitor the micropropagation of plantation crops
title_sort epigenetic changes and their relationship to somaclonal variation: a need to monitor the micropropagation of plantation crops
publisher Csiro Publishing
publishDate 2020
url http://eprints.um.edu.my/36990/
_version_ 1816130391179788288