Publikationslisten mit Pagination (orcid)
ZORA Publikationsliste
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Publikationen
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Plant Evolution Shujunsha.
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Ecologist@world, No. 8. From postdoc in the USA to the lab start up in Switzerland Japanese Journal of Ecology, 57, 432–437. http://ci.nii.ac.jp/naid/110006546516/en
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Speciation and evolution of reproductive systems In K. K. Shimizu & M. Hasebe (Eds.), Plant Evolution (pp. 83–91). Shujunsha.
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Allopolyploid origin of Cardamine asarifolia (Brassicaceae): incongruence between plastid and nuclear ribosomal DNA sequences solved by a single-copy nuclear gene Molecular Phylogenetics and Evolution, 39, 759–786. https://doi.org/10.1016/j.ympev.2006.01.027
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Evolutionary genomics (evolutionary and ecological functional genomics): The power of Arabidopsis thaliana to study adaptive evolution Japanese Journal of Ecology, 56, 28–46.
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Letter from laboratories in foreign countries 5. Department of Genetics, North Carolina State University News / Japan Society of Evolutionary Studies, 5, 4–5. http://sesj.kenkyuukai.jp/images/sys%5Cinformation%5C20101220195034-E8B267F5611B0A32504BD8F76D5F820020E52A442EC0817FC392191E21995533.pdf
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Arabidopsis as a model organism in evolutionary genetics In C. W. Fox & J. B. Wolf (Eds.), Evolutionary Genetics: Concepts And Case Studies (pp. 453–455). Oxford Univ Press.
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Evolutionary genomics confirmed Darwin’s selfing model: An adaptation revealed by DNA analysis. Protein, Nucleic Acid and Enzyme, 50, 966–977.
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Evolutionary and ecological genomics of Arabidopsis Plant Physiology, 138, 578–584. https://doi.org/10.1104/pp.105.061655
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Arabidopsis kamchatica (Fisch. ex DC.) К. Shimizu & Kudoh and A. kamchatica subsp. kawasakiana (Makino) K. Shimizu & Kudoh, New Combinations Acta Phytotaxonomica et Geobotanica, 56, 163–172. http://ci.nii.ac.jp/naid/110006318633/en
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Evolutionary genomics supported Darwin’s hypothesis about the evolution of selfing. Genes & Genetic Systems, 80, 431.
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Arabidopsis and related species as models to study speciation Genes & Genetic Systems, 80, 442.
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KOMPEITO is essential for the sculpture of pollen wall and callose accumulation in Arabidopsis thaliana (No. 45; Nippon Shokubutsu Seiri Gakkai Nenkai ayobi Shinpojiumu Koen Yshishu). http://jglobal.jst.go.jp/en/public/20090422/200902277567834879
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Genetic analysis of the male-female interactions between male and female tissues in Arabidopsis Plant & Cell Physiology, 44, S21.
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Rules in morphology and evolution revealed by the study of flowers In T. Sekimura, S. Noji, & R. Morita (Eds.), Diversity in Pattern and Form of Biological Systems - From DNA to Ecological System - (pp. 137–151). Shokabo.
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Ecology meets molecular genetics in Arabidopsis Population Ecology, 44, 221–233. https://doi.org/10.1007/s101440200025
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A dream beyond scientific fields: in the special issue “how is the life as a scientist?” Kagaku, 72, 470–471. http://www.iwanami.co.jp/kagaku/
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Studying abroad: advice by those who experienced it Protein, Nucleic Acid and Enzyme, 47, 1969–1971.
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Multiple factors contribute to outcrossing in a tropical emergent Dipterocarpus tempehes, including a new pollen-tube guidance mechanism for self-incompatibility American Journal of Botany, 89, 60–66. https://doi.org/10.3732/ajb.89.1.60
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Males wander to look for females - from the model species Arabidopsis thaliana to its related species in the natural field - Biohistory, 32, 14–15. http://www.brh.co.jp/seimeishi/journal/032/ss_7.html