Research theme for competitive and other funds (16):
2022 - 2029 Key-Molecule-Network in Plant Reproduction
2023 - 2028 Dual function of strigolactones as plant hormones to control growth and as signaling molecules to induce symbiosis: its origin and evolution
2022 - 2027 Genomic dynamics underlying the plastic hermaphroditism in plants: the basis of exploratory reproductive adaptations
2022 - 2027 Sex determination mechanisms underlying evolution of hermaphrodites in haploid generation
2021 - 2024 Elucidation of last common ancestor of land plants based on meristem related genes
2019 - 2023 Reformation of evolutionary genomics in land plant evolution: from sequence comparison to functional comparison.
2018 - 2022 Evolution of regulating factor of alternation of generations
2018 - 2020 細胞壁が制御する幹細胞の運命決定機構の解明
2017 - 2020 Elucidation of the mechanism of cell-fate transition by single-cell epigenome analysis
2016 - 2018 植物の新規幹細胞運命決定ロジックの解明
2014 - 2018 Establishment of hornwort model system for land plant evo-devo studies
2014 - 2018 Comprehensive research on Takakia and Haplomitrium based on genomic information
2013 - 2018 Multidimensional Exploration of Logics of Leaf Development
2012 - 2015 Molecular mechanism regulating the alternation of generations in land plants using the transcription factor
2011 - 2014 Chloroplast phylogenomics to resolve the phylogenetic relationships of major taxonomic groups in bryophytes
2004 - 2006 茎頂分裂組織形成遺伝子の解析から陸上植物の胞子体世代延長の誕を探る
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Papers (27):
Emiko Yoro, Seiya Suzuki, Nobuhiro Akiyoshi, Rumiko Kofuji, Keiko Sakakibara. The transcription factor PpRKD evokes female developmental fate in the sexual reproductive organs of Physcomitrium patens. New Phytologist. 2025
Emiko Yoro, Keiko Sakakibara. Sexual reproduction: Is the genetic pathway for female germ cell specification conserved in land plants?. Current Biology. 2024. 34. 6. R241-R244
Emiko Yoro, Shizuka Koshimizu, Takashi Murata, Keiko Sakakibara. Protocol: an improved method for inducing sporophyte generation in the model moss Physcomitrium patens under nitrogen starvation. Plant methods. 2023. 19. 1. 100-100
