The phenomenon of autonomous endosperm in sexual and apomictic plants

Rojek, Joanna; Ohad, Nir

doi:10.1093/jxb/erad168

Journal of Experimental Botany

2023

DOI: 10.1093/jxb/erad168

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The phenomenon of autonomous endosperm in sexual and apomictic plants

Joanna Rojek

Nir Ohad

Abstract: Endosperm is a key nutritive tissue that supports the developing embryo or seedling, and serves as a major nutritional source for human and livestock feed. In sexual flowering plants, it generally develops after fertilization. However, autonomous endosperm (AE) formation (i.e., independently from fertilization) is also possible. Recent findings of AE loci/ genes and aberrant imprinting in native apomicts, together with a successful initiation of parthenogenesis in rice and lettuce, have enhanced our understand… Show more

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2024

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Cited by 2 publications

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Distinctive development of embryo and endosperm caused by male gametes irradiated with carbon-ion beam

Hirano,

Murata,

Watarikawa

et al. 2024

Plant Reprod

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Key message In Cyrtanthus mackenii, development of embryo and endosperm were differentially affected by fertilization of male gametes with DNA damage and mutations. Abstract Pollen irradiation with ionizing radiations has been applied in plant breeding and genetic research, and haploid plant induction has mainly been performed by male inactivation with high-dose irradiation. However, the fertilization process of irradiated male gametes and the early development of embryo and endosperm have not received much attention. Heavy-ion beams, a type of radiation, have been widely applied as effective mutagens for plants and show a high mutation rate even at low-dose irradiation. In this study, we analyzed the effects of male gametes of Cyrtanthus mackenii irradiated with a carbon-ion beam at low doses on fertilization. In immature seeds derived from the pollination of irradiated pollen grains, two types of embryo sacs were observed: embryo sac with a normally developed embryo and endosperm and embryo sac with an egg cell or an undivided zygote and an endosperm. Abnormalities in chromosome segregation, such as chromosomal bridges, were observed only in the endosperm nuclei, irrespective of the presence or absence of embryogenesis. Therefore, in Cyrtanthus, embryogenesis is strongly affected by DNA damage or mutations in male gametes. Moreover, various DNA contents were detected in the embryo and endosperm nuclei, and endoreduplication may have occurred in the endosperm nuclei. As carbon-ion irradiation causes chromosomal rearrangements even at low doses, pollen irradiation can be an interesting tool for studying double fertilization and mutation heritability.

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Distinctive development of embryo and endosperm caused by male gametes irradiated with carbon-ion beam

Hirano,

Murata,

Watarikawa

et al. 2024

Plant Reprod

View full text Add to dashboard Cite

show abstract

Effects of fertilization of male gametes with heavy-ion beam irradiation on embryo and endosperm development in <i>Cyrtanthus mackenii</i>

Shii,

Kajiya,

Murata

et al. 2024

CYTOLOGIA

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The phenomenon of autonomous endosperm in sexual and apomictic plants

Cited by 2 publications

References 155 publications

Distinctive development of embryo and endosperm caused by male gametes irradiated with carbon-ion beam

Distinctive development of embryo and endosperm caused by male gametes irradiated with carbon-ion beam

Effects of fertilization of male gametes with heavy-ion beam irradiation on embryo and endosperm development in <i>Cyrtanthus mackenii</i>

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