Co-ordination of Flower Development Through Epigenetic Regulation in Two Model Species: Rice and Arabidopsis

Plant & Cell Physiology
Siyi GuoToshiro Ito

Abstract

Angiosperms produce flowers for reproduction. Flower development is a multistep developmental process, beginning with the initiation of the floral meristems, followed by floral meristem identity specification and maintenance, organ primordia initiation, floral organ identity specification, floral stem cell termination and finally floral organ maturation. During flower development, each of a large number of genes is expressed in a spatiotemporally regulated manner. Underlying these molecular and phenotypic events are various genetic and epigenetic pathways, consisting of diverse transcription factors, chromatin-remodeling factors and signaling molecules. Over the past 30 years, genetic, biochemical and genomic assays have revealed the underlying genetic frameworks that control flower development. Here, we will review the transcriptional regulation of flower development in two model species: Arabidopsis thaliana and rice (Oryza sativa). We focus on epigenetic regulation that functions to co-ordinate transcription pathways in flower development.

References

Aug 1, 1990·The Plant Cell·D R SmythE M Meyerowitz
Jul 1, 1994·Genes & Development·K Goto, E M Meyerowitz
Apr 30, 1996·Proceedings of the National Academy of Sciences of the United States of America·B A Krizek, E M Meyerowitz
Aug 22, 1997·Science·S E Jacobsen, E M Meyerowitz
Apr 8, 2000·Current Opinion in Genetics & Development·C L Peterson, J L Workman
Jan 31, 2002·Current Biology : CB·Doris Wagner, Elliot M Meyerowitz
Apr 15, 2003·Nature Genetics·Shutao CaiTerumi Kohwi-Shigematsu
Apr 18, 2003·Current Biology : CB·Raul Alvarez-VenegasZoya Avramova
Nov 9, 2004·Current Biology : CB·Gary DittaMartin F Yanofsky
Apr 27, 2005·Nature Reviews. Molecular Cell Biology·V Narry Kim
Dec 20, 2005·The Plant Journal : for Cell and Molecular Biology·Hui-Chun LiJoe Ogas
Jun 2, 2006·Nucleic Acids Research·Andrew FlausTom Owen-Hughes
Jun 10, 2006·Science·Jeff A LongElliot M Meyerowitz
Mar 17, 2007·Biochimica Et Biophysica Acta·Stéphane Pien, Ueli Grossniklaus
Apr 19, 2007·PLoS Biology·Xiaoyu ZhangSteven E Jacobsen
Jun 9, 2007·Biochimica Et Biophysica Acta·Z Jeffrey Chen, Lu Tian
Mar 14, 2008·Nature·Hye-Jung HanTerumi Kohwi-Shigematsu

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Citations

Dec 26, 2016·Plant & Cell Physiology·Yukino NakamuraKentaro Yano
Jun 28, 2018·Scientific Reports·Himanshi BhatiaRohini Garg
Oct 18, 2019·Genes·Katarzyna Marciniak, Krzysztof Przedniczek
Mar 28, 2019·Journal of Experimental Botany·Yifeng XuToshiro Ito
Apr 27, 2019·Frontiers in Plant Science·Daniel CondeIsabel Allona
Jun 9, 2017·Epigenetics & Chromatin·David LatrasseAbdelhafid Bendahmane
May 17, 2019·Plant & Cell Physiology·Toshiro Ito
Aug 29, 2021·Plants·Keiichi Mochdia, Shun Tamaki

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