Large-scale screening of <I>Arabidopsis</I> mutants for seed oil synthesis by using real-time bioluminescence monitoring system.

Kawai Tsutae, Onai Kiyoshi, Suzuki Takamasa, Maeo Kenichiro, Ishiura Masahiro, Nakamura Kenzo

doi:10.14841/jspp.2011.0.0616.0

Bibliographic Information

Other Title

生物発光リアルタイム測定解析システムを使ったシロイヌナズナの油脂合成制御変異株の網羅的スクリーニング

Abstract

During the maturation of Arabidopsis seeds, a large portion of sugars imported from the source are converted into oil for storage. A double-AP2 domain transcription factor ASML1/WRI1 directly activates genes for fatty acid synthesis in the plastid, while the activation of genes for the synthesis of triacylglycerol (TAG) in the ER requires additional factors. To search for such factors, a luciferase (LUC) reporter gene with the promoter of a gene for diacylglycerol acyltransferase (DGAT1) was introduced into Arabidopsis. In addition to strong expression in maturing seeds, the DGAT1p::LUC plants showed LUC expression in leaves of young seedlings, similar to the expression of DGAT1 mRNA. EMS-treated seeds of the DGAT1p::LUC plants screened for mutants with reduced LUC expression in seedlings by using the real-time bioluminescence monitoring system. Most of the mutants that consistently exhibit low LUC expression in the M₃ generation showed reduced bioluminescence in developing seeds and reduced seed oil content. We are screening for more mutants and trying to identify genes responsible for these mutants by next-generation sequencer.

Journal

Plant and Cell Physiology Supplement

Plant and Cell Physiology Supplement 2011 (0), 0616-0616, 2011

The Japanese Society of Plant Physiologists

Details 詳細情報について

CRID: 1390001205633818624

NII Article ID: 130006995972

DOI: 10.14841/jspp.2011.0.0616.0

Data Source

JaLC
CiNii Articles

Abstract License Flag: Disallowed

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