Saneyoshi Ueno
Institut national de la recherche agronomique
41 Papers
361 Citations
Saneyoshi Ueno is an academic researcher from Institut national de la recherche agronomique. The author has contributed to research in topics: Biology & Japonica. The author has an hindex of 21, co-authored 27 publications. Previous affiliations of Saneyoshi Ueno include University of Bordeaux & Nagoya University.
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Papers
A fast and cost-effective approach to develop and map EST-SSR markers: oak as a case study
Jerome Durand,Jerome Durand,Catherine Bodénès,Catherine Bodénès,Emilie Chancerel,Emilie Chancerel,Jean-Marc Frigerio,Jean-Marc Frigerio,Giovanni G. Vendramin,Federico Sebastiani,A. Buonamici,Oliver Gailing,Oliver Gailing,H.P. Koelewijn,Fiorella Villani,Claudia Mattioni,M. Cherubini,Pablo G. Goicoechea,Ana Herrán,Ziortza Ikaran,Cyril Cabane,Saneyoshi Ueno,Saneyoshi Ueno,Florian Alberto,Florian Alberto,Pierre-Yves Dumoulin,Pierre-Yves Dumoulin,Erwan Guichoux,Erwan Guichoux,Antoine de Daruvar,Antoine Kremer,Antoine Kremer,Christophe Plomion,Christophe Plomion +33 more
TL;DR: In this paper, the first step toward the construction of a gene-based linkage map of oak for quantitative trait locus (QTL) mapping is described, as well as a fast and cost-effective approach (bin mapping) to assign these markers to an approximate map position.
Genomics of Fagaceae
Antoine Kremer,Antoine Kremer,Albert G. Abbott,John E. Carlson,Paul S. Manos,Christophe Plomion,Christophe Plomion,P. H. Sisco,Margaret Staton,Saneyoshi Ueno,Giovanni G. Vendramin +10 more
TL;DR: An overview of recent achievements and development of genomic resources in the Fagaceae is provided, with major emphasis on the genera Castanea and Quercus.
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Genetic structure of Camellia japonica L. in an old-growth evergreen forest, Tsushima, Japan.
TL;DR: The clumped distribution of individuals and the positive autocorrelation over short‐distance classes may result from the limited seed dispersal and microsite heterogeneity of the stand, while the genetic structure may be weakened by overlapping seed shadow and extensive pollen flow.
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Population differentiation and gene flow within a metapopulation of a threatened tree, Magnolia stellata (Magnoliaceae)
TL;DR: It is concluded that to conserve M. stellata, it is important to preserve the whole population by maintaining its metapopulation structure and the gene flow among its populations.
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Phylogeographic study based on intraspecific sequence variation of chloroplast DNA for the conservation of genetic diversity in the Japanese endangered species Primula sieboldii
TL;DR: If genetic conservation of the species is valued, transplanting of P. sieboldii among regions should be avoided, and transplantation between adjacent populations in restoration activities should be carefully designed so as not to change the gene pool of local populations significantly.
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