Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M1 plants

Kitamura Satoshi; Hirata Shoya; Sato Katsuya; Inamura Rie; Issay Narumi; Ono Yutaka

doi:10.1038/s41598-022-26989z

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Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M1 plants

https://repo.qst.go.jp/records/2000159

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学術雑誌論文 / Journal Article(1)

公開日

2023-07-03

タイトル

Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M1 plants

言語

eng

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資源タイプ識別子

http://purl.org/coar/resource_type/c_6501

資源タイプ

journal article

著者

Kitamura Satoshi
Hirata Shoya
Sato Katsuya
Inamura Rie
Issay Narumi
Ono Yutaka

抄録

内容記述タイプ

Abstract

内容記述

Ionizing radiation induces genetic variations in plants, which makes it useful for plant breeding. A theory that the induced mutations occur randomly in the genome has long been accepted, but is now controversial. Nevertheless, a comparative analysis of the mutations at multiple loci has not been conducted using irradiated M1 genomes that contain all types of mutations. In this study, we identified Arabidopsis mutants (pab2 and pab3) in a mutagenized population of an anthocyanin-positive seed mutant (ban). Both pab2 and pab3 were revealed to be double mutants (tt4 ban and tt8 ban, respectively) that produced similar anthocyanin-less immature seeds, but differentially colored mature seeds. These features enabled the seed color-based detection of de novo M1 mutations in TT4 or TT8 following the irradiation of double heterozygous plants (TT4/tt4 TT8/tt8 ban/ban). Most of the irradiated double heterozygous plants produced anthocyanin-positive immature seeds, but 19 plants produced anthocyanin-less immature seeds. Of these 19 mutants, 2 and 17 exhibited tt4- and tt8-type mature seed coloration, respectively. The molecular analysis of the seed coat DNA from randomly selected anthocyanin-less seeds detected mutations at the locus predicted on the basis of the phenotype. Thus, the simple system developed in this study can reliably detect radiation-induced mutations at multiple loci in irradiated Arabidopsis M1 plants.

書誌情報

Scientific Reports

巻 12, p. 22467, 発行日 2022-12

出版者

Springer Nature

ISSN

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ISSN

収録物識別子

2045-2322

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DOI

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2025-08-15 01:22:22.756092

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Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M1 plants

× Kitamura Satoshi

× Hirata Shoya

× Sato Katsuya

× Inamura Rie

× Issay Narumi

× Ono Yutaka

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Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M1 plants

× Kitamura Satoshi

× Hirata Shoya

× Sato Katsuya

× Inamura Rie

× Issay Narumi

× Ono Yutaka

Versions

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Cite as

Other

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コミュニティ