Functional Roles of Histone Modification, Chromatin Remodeling and MicroRNAs in Arabidopsis Flower Development
Flowers are the reproductive units of angiosperms and originate from small number of stem cells maintained at the growing tips of shoots. Flower development is a multistep process starting from an environmental response, followed by the meristem identity change, termination of the stem cell activity...
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Published in | International Review of Cell and Molecular Biology Vol. 305; pp. 115 - 161 |
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Main Authors | , , |
Format | Book Chapter Journal Article |
Language | English |
Published |
Netherlands
Elsevier Science & Technology
2013
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Abstract | Flowers are the reproductive units of angiosperms and originate from small number of stem cells maintained at the growing tips of shoots. Flower development is a multistep process starting from an environmental response, followed by the meristem identity change, termination of the stem cell activity, organ polarity control, organ identity determination, and organogenesis. It is regulated through many hard-wired genetic pathways, composed of transcription factors, signaling molecules, catalytic enzymes, and structural proteins. Epigenetic regulators play essential roles for the initiation and maintenance of the genetic pathways by controlling gene expression through chromosomes. Histone modification, ATP-dependent chromatin remodeling, and microRNAs are involved in the regulation of spatiotemporal-specific expression of huge numbers of genes that lead to patterning, specification, and morphogenesis of flowers. In contrast, DNA methylation mainly works for genome stability and integrity, silencing transposons, and repeats. This review will describe the recent progress on functional roles of epigenetic regulators and their crosstalks in Arabidopsis flower development. |
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AbstractList | Flowers are the reproductive units of angiosperms and originate from small number of stem cells maintained at the growing tips of shoots. Flower development is a multistep process starting from an environmental response, followed by the meristem identity change, termination of the stem cell activity, organ polarity control, organ identity determination, and organogenesis. It is regulated through many hard-wired genetic pathways, composed of transcription factors, signaling molecules, catalytic enzymes, and structural proteins. Epigenetic regulators play essential roles for the initiation and maintenance of the genetic pathways by controlling gene expression through chromosomes. Histone modification, ATP-dependent chromatin remodeling, and microRNAs are involved in the regulation of spatiotemporal-specific expression of huge numbers of genes that lead to patterning, specification, and morphogenesis of flowers. In contrast, DNA methylation mainly works for genome stability and integrity, silencing transposons, and repeats. This review will describe the recent progress on functional roles of epigenetic regulators and their crosstalks in Arabidopsis flower development. |
Author | Gan, Eng-Seng Ito, Toshiro Huang, Jiangbo |
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Keywords | Arabidopsis flower development Cell memory Histone methylation MicroRNAs Histone acetylation Floral stem cells Organ identity Chromatin remodeling |
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SubjectTerms | Arabidopsis - genetics Arabidopsis - growth & development Arabidopsis - metabolism Arabidopsis flower development Cell memory Chromatin - metabolism Chromatin Assembly and Disassembly Chromatin remodeling Floral stem cells Flowers - genetics Flowers - growth & development Flowers - metabolism Histone acetylation Histone methylation Histones - metabolism MicroRNAs MicroRNAs - metabolism Models, Biological Organ identity |
Title | Functional Roles of Histone Modification, Chromatin Remodeling and MicroRNAs in Arabidopsis Flower Development |
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