Functions of the E-class Floral Homeotic Genes in Several Common Dicotyledons

The identity of the floral organs is defined by a small group of transcriptional regulators, and the activities of these proteins can specify the feature of the different whorls in flowers. In the last thirty years, formation of the floral organs remained as the main research subject in plant, espec...

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Published in	Journal of plant growth regulation Vol. 41; no. 2; pp. 524 - 534
Main Authors	Pu, Zuo-Qian, Xu, Zi-Qin
Format	Journal Article
Language	English
Published	New York Springer US 01.02.2022 Springer Nature B.V
Subjects	Agriculture Arabidopsis thaliana Biomedical and Life Sciences flowering Flowers Genes Leaves Life Sciences Magnoliopsida Meristems Morphogenesis Organs Plant Anatomy/Development plant growth Plant Physiology Plant Sciences Proteins transcription (genetics) Transcription factors ABCDE model Floral organ Dicotyledons E-class floral homeotic genes
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ISSN	0721-7595 1435-8107
DOI	10.1007/s00344-021-10318-1

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Abstract	The identity of the floral organs is defined by a small group of transcriptional regulators, and the activities of these proteins can specify the feature of the different whorls in flowers. In the last thirty years, formation of the floral organs remained as the main research subject in plant, especially in Arabidopsis thaliana . By using A. thaliana as material, relevant research works have established a basic architecture for the development of floral organs in higher plants, and it was named as the ABCDE model. In accordance with this model, the identity of the different floral organs can be confirmed by the specific combinations of A-, B-, C-, D-, or E-class floral homeotic genes. SEP -like genes encode MADS transcription factors required for the development of all the four whorls of floral organs and for the determinacy of the floral meristems. In ABCDE model, these genes are defined as E-class floral homeotic genes. A great deal of studies have shown that the proteins encoding by these genes are the main regulators of flower development and act pivotal parts not only in organ identification but also in organ morphogenesis. In this paper, the functions of the E-class floral homeotic genes in dicotyledons are reviewed, and the progress that has been made in characterization of the floral organ identity factors in A. thaliana and other dicotyledons is discussed.
AbstractList	The identity of the floral organs is defined by a small group of transcriptional regulators, and the activities of these proteins can specify the feature of the different whorls in flowers. In the last thirty years, formation of the floral organs remained as the main research subject in plant, especially in Arabidopsis thaliana. By using A. thaliana as material, relevant research works have established a basic architecture for the development of floral organs in higher plants, and it was named as the ABCDE model. In accordance with this model, the identity of the different floral organs can be confirmed by the specific combinations of A-, B-, C-, D-, or E-class floral homeotic genes. SEP-like genes encode MADS transcription factors required for the development of all the four whorls of floral organs and for the determinacy of the floral meristems. In ABCDE model, these genes are defined as E-class floral homeotic genes. A great deal of studies have shown that the proteins encoding by these genes are the main regulators of flower development and act pivotal parts not only in organ identification but also in organ morphogenesis. In this paper, the functions of the E-class floral homeotic genes in dicotyledons are reviewed, and the progress that has been made in characterization of the floral organ identity factors in A. thaliana and other dicotyledons is discussed. The identity of the floral organs is defined by a small group of transcriptional regulators, and the activities of these proteins can specify the feature of the different whorls in flowers. In the last thirty years, formation of the floral organs remained as the main research subject in plant, especially in Arabidopsis thaliana . By using A. thaliana as material, relevant research works have established a basic architecture for the development of floral organs in higher plants, and it was named as the ABCDE model. In accordance with this model, the identity of the different floral organs can be confirmed by the specific combinations of A-, B-, C-, D-, or E-class floral homeotic genes. SEP -like genes encode MADS transcription factors required for the development of all the four whorls of floral organs and for the determinacy of the floral meristems. In ABCDE model, these genes are defined as E-class floral homeotic genes. A great deal of studies have shown that the proteins encoding by these genes are the main regulators of flower development and act pivotal parts not only in organ identification but also in organ morphogenesis. In this paper, the functions of the E-class floral homeotic genes in dicotyledons are reviewed, and the progress that has been made in characterization of the floral organ identity factors in A. thaliana and other dicotyledons is discussed.
Author	Pu, Zuo-Qian Xu, Zi-Qin
Author_xml	– sequence: 1 givenname: Zuo-Qian surname: Pu fullname: Pu, Zuo-Qian organization: Key Laboratory of Resource Biology and Biotechnology in Western China (Ministry of Education), Shaanxi Provincial Key Laboratory of Biotechnology, College of Life Sciences, Northwest University – sequence: 2 givenname: Zi-Qin surname: Xu fullname: Xu, Zi-Qin email: ziqinxu@nwu.edu.cn organization: Key Laboratory of Resource Biology and Biotechnology in Western China (Ministry of Education), Shaanxi Provincial Key Laboratory of Biotechnology, College of Life Sciences, Northwest University
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Snippet	The identity of the floral organs is defined by a small group of transcriptional regulators, and the activities of these proteins can specify the feature of...
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SubjectTerms	Agriculture Arabidopsis thaliana Biomedical and Life Sciences flowering Flowers Genes Leaves Life Sciences Magnoliopsida Meristems Morphogenesis Organs Plant Anatomy/Development plant growth Plant Physiology Plant Sciences Proteins transcription (genetics) Transcription factors
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Title	Functions of the E-class Floral Homeotic Genes in Several Common Dicotyledons
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