Building New Insights in Plant Gametogenesis from an Evolutionary Perspective

Overview

Journal Nat Plants

Specialties Biology
Genetics

Date 2019 Jul 10

PMID 31285561

Citations 29

Authors

Tetsuya Hisanaga

Shohei Yamaoka

Tomokazu Kawashima

Asuka Higo

Keiji Nakajima

Takashi Araki

Takayuki Kohchi

Frederic Berger

Affiliations

Soon will be listed here.

Abstract

Extant bryophytes are thought to preserve characteristics of ancestral land plants, with a life cycle dominated by the haploid gametophyte. The gametophyte produces gametes in specialized organs that differentiate after an extensive phase of vegetative development. During land plant evolution, these organs became extremely reduced. As a result, in flowers of angiosperms the haploid phase of the life cycle is reduced to few-celled gametophytes, namely the embryo sac (female) and pollen (male). Although many factors contributing to gametogenesis have been identified in flowering plants, the extreme reduction of the gametophytes has prevented a clear molecular dissection of key processes of gametogenesis. Recent studies in the model bryophyte Marchantia polymorpha have identified conserved transcription factors regulating the equivalent steps in the sexual reproduction of land plants. These include FEMALE GAMETOPHYTE MYB for female gametophyte development, BONOBO for gamete progenitor cell specification, DUO POLLEN1 for sperm differentiation and members of the RWP-RK domain family for female gamete formation. These studies demonstrate that M. polymorpha is a powerful model to untangle the core processes of gametogenesis in land plants. We anticipate that a deeper understanding of gametogenesis in bryophytes will circumscribe the origin of plant germ cells and define the differentiation programmes of sperm and eggs.

Citing Articles

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Physcomitrium LATERAL SUPPRESSOR genes promote formative cell divisions to produce germ cell lineages in both male and female gametangia.

Horiuchi Y, Umakawa N, Otani R, Tamada Y, Kosetsu K, Hiwatashi Y New Phytol. 2024; 245(5):2004-2015.

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The BNB-GLID module regulates germline fate determination in Marchantia polymorpha.

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A non-canonical BZR/BES transcription factor regulates the development of haploid reproductive organs in Marchantia polymorpha.

Furuya T, Saegusa N, Yamaoka S, Tomoita Y, Minamino N, Niwa M Nat Plants. 2024; 10(5):785-797.

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