学術論文
31. Waltraud R., Yoshida K., Rödelsperger C., "Genome Announcement: Further Improved Genome Assembly of Parapristionchus giblindavisi", Journal of Nematology, 57(1), 20250026 [Link]
30. Yoshida K., Witte H., Hatashima R., Sun S., Kikuchi T., Röseler W., & Sommer R. J., "Rapid chromosome evolution and acquisition of thermosensitive stochastic sex determination in nematode androdioecious hermaphrodites", Nature Communications, 15, 9649, (2024) [Link]
29. Kuraku S., Sato M., Yoshida K., Uno Y., "Genomic reconsideration of fish non-monophyly: why cannot we simply call them all ‘fish’?", Ichthyological Research, 2023, https://doi.org/10.1007/s10228-023-00939-9
28. Ansai S., Toyoda A., Yoshida K., Kitano J. "Repositioning of centromere-associated repeats during karyotype evolution in Oryzias fishes", Molecular Ecology, 2023, https://doi.org/10.1111/mec.17222
27. Reifová R., Ament-Velásquez S. L., Bourgeois Y., Coughlan J., Kulmuni J., Lipinska A. P., Okude G., Stevison L., Yoshida K., Kitano J. "Mechanisms of Intrinsic Postzygotic Isolation: From Traditional Genic and Chromosomal Views to Genomic and Epigenetic Perspectives", Cold Spring Harbor Perspective Biology, a041607, 2023, http://doi:10.1101/cshperspect.a041607
26. Kitano J., Yoshida K., "Do sex-linked male meiotic drivers contribute to intrinsic hybrid incompatibilities? Recent empirical studies from flies and rodents", Current Opinion in Genetics & Development, 81, 2023, https://doi.org/10.1016/j.gde.2023.102068
25. Yoshida K., Rödelsperger C., Röseler W., Riebesell M., Sun S., Kikuchi T., Sommer R. J., "Chromosome fusions repatterned recombination rate and facilitated reproductive isolation during Pristionchus nematode speciation", Nature Ecology & Evolution, 2023, https://doi.org/10.1038/s41559-022-01980-z
24. Waltraud R., Collenberg M., Yoshida K., Lanz C., Sommer R. J., Rödelsperger C., "The improved genome of the nematode Parapristionchus giblindavisi provides insights into lineage-specific gene family evolution", G3: Genes| Genomes| Genetics, Genetics Society of America, jkac215, 2022
23. Yoshida K., Kitano J., "Tempo and mode in karyotype evolution revealed by a probabilistic model incorporating both chromosome number and morphology", PLoS genetics, 17 (4), e1009502, 2021
22. Yoshida K., Ravinet M., Makino T., Toyoda A., Kokita T., Mori S., Kitano J., "Accumulation of deleterious mutations in landlocked threespine stickleback populations", Genome Biology and Evolution, 12 (4), 479-492, 2020
21. Yoshida K., Ishikawa A., Toyoda A., Shigenobu S., Fujiyama A., Kitano J., "Functional divergence of a heterochromatin‐binding protein during stickleback speciation", Molecular Ecology, 28 (6), 1563-1578, 2019
20. Herrmann M., Kanzaki N., Weiler C., Yoshida K., Rödelsperger C., Sommer R. J., "Two new species of Pristionchus (Nematoda: Diplogastridae) include the gonochoristic sister species of P. fissidentatus", Journal of Nematology, 51, 1-14, 2019
19. Kanzaki N., Herrmann M., Yoshida K., Weiler C., Rödelsperger C., Sommer R. J., "Samplings of millipedes in japan and scarab beetles in Hong Kong result in five new species of Pristionchus (Nematoda: Diplogastridae)", Journal of Nematology, 50 (4), 587-610, 2018
18. Rödelsperger C., Röseler W., Prabh N., Yoshida K., Weiler C., Herrmann M., Sommer R. J., "Phylotranscriptomics of Pristionchus nematodes reveals parallel gene loss in six hermaphroditic lineages", Current Biology, 28 (19), 3123-3127, e5, 2018
17. Yoshida K., Herrmann M., Kanzaki N., Weiler C., Rödelsperger C., Sommer R. J., "Two new species of Pristionchus (Nematoda: Diplogastridae) from Taiwan and the definition of the pacificus species-complex sensu stricto", Journal of Nematology, 50 (3), 355-368, 2018
16. Ravinet M., Yoshida K., Shigenobu S., Toyoda A., Fujiyama A., Kitano J., "The genomic landscape at a late stage of stickleback speciation: high genomic divergence interspersed by small localized regions of introgression", PLoS genetics, 14 (5), e1007358, 2018
15. Matsumoto T., Yoshida K., Kitano J., "Contribution of gene flow to the evolution of recombination suppression in sex chromosomes" Journal of Theoretical Biology, 431, 25-31, 2017
14. Ishikawa A., Kusakabe M., Yoshida K., Ravinet M., Makino T., Toyoda A., Fujiyama A., Kitano J., "Different contributions of local‐and distant‐regulatory changes to transcriptome divergence between stickleback ecotypes", Evolution, 71 (3), 565-581, 2017
13. Yoshida K., Makino T., Kitano J., "Accumulation of Deleterious Mutations on the Neo-Y Chromosome of Japan Sea Stickleback (Gasterosteus nipponicus)", Journal of Heredity, Oxford University Press, 108 (1), 63-68, 2017
12. Kusakabe M., Ishikawa A., Ravinet M., Yoshida K., Makino T., Toyoda A., Fujiyama A., Kitano J., "Genetic basis for variation in salinity tolerance between stickleback ecotypes", Molecular Ecology, Wiley Online Library, 26 (1), 304-319, 2017
11. Yoshida K., Miyagi R., Mori S., Takahashi A., Makino T., Toyoda A., Fujiyama A., Kitano J., "Whole‐genome sequencing reveals small genomic regions of introgression in an introduced crater lake population of threespine stickleback", Ecology and Evolution, Wiley Online Library, 6 (7), 2190-2204, 2016
10. Kawajiri M., Fujimoto S., Yoshida K., Yamahira K., Kitano J., "Genetic Architecture of the Variation in Male-Specific Ossified Processes on the Anal Fins of Japanese Medaka", G3: Genes| Genomes| Genetics, Genetics Society of America, 5 (12), 2875-2884, 2015
9. Kudo Y., Nikaido M., Kondo A., Suzuki H., Yoshida K., Kikuchi K., Okada N., “A microsatellite-based genetic linkage map and putative sex-determining genomic regions in Lake Victoria cichlids”, Gene, Elsevier, 560, 156-164, 2015
8. Kawajiri M., Yoshida K., Fujimoto S., Mokodongan D. F., Ravinet M., Kirkpatrick M., Yamahira K., Kitano J. “Ontogenetic stage-specific quantitative trait loci contribute to divergence in developmental trajectories of sexually dimorphic fins between medaka populations”, Molecular Ecology, Wiley Online Library, 23 (21), 5258-5275, 2014
7. Yoshida K., Makino T., Yamaguchi K., Shigenobu S., Hasebe M., Kawata M., Kume M., Mori S., Peichel C. L., Toyoda A., Fujiyama A., Kitano J., “Sex chromosome turnover contributes to genomic divergence between incipient stickleback species”, PLoS Genetics, Public Library of Science, 10 (3), e1004223, 2014
6. Kuroiwa A., Terai Y., Kobayashi N., Yoshida K., Suzuki M., Nakanishi A., Matsuda Y., Watanabe M., Okada N., “Construction of chromosome markers from the Lake Victoria cichlid Paralabidochromis chilotes and their application to comparative mapping” Cytogenetic and genome research, Karger Publishers, 142 (2), 112-120, 2014
5. Kitano J., Yoshida K., Suzuki Y., “RNA sequencing reveals small RNAs differentially expressed between incipient Japanese threespine sticklebacks”, BMC Genomics, BioMed Central, 14, 214, 2013
4. Greenwood A. K., Wark A. R., Yoshida K., Peichel C. L., ”Genetic and neural modularity underlie the evolution of schooling behavior in threespine sticklebacks”, Current biology, Cell Press, 23 (19), 1884-1888, 2013
3. Yoshida K., Kitano J., “The contribution of female meiotic drive to the evolution of neo-sex chromosomes”, Evolution, Society for the Study of Evolution, 66, pp3198-3208, 2012
2. Yoshida K., Terai Y., Mizoiri S., Aibara M., Nishihara H., Watanabe M., Kuroiwa A., Hirai H., Hirai Y., Matsuda Y., Okada N., “B chromosomes have a functional effect on female sex determination in Lake Victoria cichlid fishes”, PLoS Genetics, Public Library of Science, 7 (8), e1002203, 2011
1. Wark A. R., Greenwood A. K., Taylor E. M., Yoshida K., Peichel C. L., “Heritable differences in schooling behavior among threespine stickleback population revealed by a novel assay”, PLoS One, Public Library of Science, 6 (3), e18316, 2011
その他の出版物
2. Yoshida K., “Strong link between selfish genetic elements and sex chromosome evolution”, Biological Science (Tokyo), 65 (3), pp146-154, 2014
1. Yoshida K., Okada N., “Evolution of sex determination system – gain of function of B chromosomes in sex determination in Lake Victoria cichlids”, Seibutsu no kagaku IDEN, NTS, 66 (2), pp153-158, 2012