学術論文
原著論文
16) Sato K.* and Yamamoto D. Mutually exclusive expression of sex-specific and non-sex-specific fruitless gene products in the Drosophila central nervous system. Gene Expression Patterns, 43; 119232, 2022. (*corresponding author)
15) Liang H., Katoh T., Sato K., Yamamoto D. and Wen S. Evolution of a neuromascular sexual dimorphism in the Drosophila montium species group. Scientific Reports, 11; 15272, 2021.
14) Sato K.§ , Ito. H.§ and Yamamoto D. teiresias, a Fruitless target gene encoding an immunoglobulin-superfamily transmembrane protein, is required for neuronal feminization in Drosophila. Communications Biology, 3: 598, 2020. (§ co-first authors)
13) Sato K.§ , Ahsan M. T.§ , Ote M., Koganezawa M. and Yamamoto D. Calmodulin-binding transcription factor shapes the male courtship song in Drosophila. PLOS Genetics, 15(7): e1008309, 2019. (§ co-first authors)
DOI: 10.1371/journal.pgen.1008309
This paper was featured on the cover image of PLOS Genetics.
12) Sato K.*, Ito H., Yokoyama A., Toba G. and Yamamoto D.* Partial proteasomal degradation of Lola triggers the male-to-female switch of a dimorphic courtship circuit. Nature Communications 10; 166, 2019. (* co-corresponding authors)
11) Zhang, B., Sato, K. and Yamamoto, D. Ecdysone signaling regulates specification of neurons with a male-specific neurite in Drosophila. Biology Open, 7; bio029744, 2018.
10) Tanaka, R., Higuchi, T., Kohatsu, S., Sato, K., and Yamamoto, D. Optogenetic activation of the fruitless-labeled circuitry in Drosophila subobscura males induces mating motor acts. Journal of Neuroscience 37; 11662-11674, 2017.
DOI: 10.1523/JNEUROSCI.1943-17.2017
This paper was featured on the cover image of Journal of Neuroscience.
9) Chowdhury, Z. S., Sato, K., and Yamamoto, D. The core-promoter factor TRF2 mediates a Fruitless action to masculinize neural and behavioral traits in Drosophila. Nature Communications 8; 1480, 2017
8) Yilmazer, Y., Koganezawa, M., Sato, K., Xu, J., Yamamoto, D. Serotonergic neuronal death and concomitant serotonin deficiency curb copulation ability of Drosophila platonic mutants. Nature Communications 7; 13792, 2016
7) Ito H., Sato K., Kondo S., Ueda R. and Yamamoto D. Fruitless represses robo1 transcription to shape male-specific neural morphology and behavior in Drosophila. Current Biology 26; 1532-1542, 2016.
6) Goto T., Sato K., Sone H., Koganezawa M., Ito H. and Yamamoto D. Zeste tunes the timing of ecdysone actions in triggering programmed tissue degeneration in Drosophila. Journal of Neurogenetics 29; 169-173, 2015.
5) Takayanagi S., Toba G., Lukacsovich T., Ote M., Sato K., and Yamamoto D. A fruitless upstream region that defines the species-specificity in the male-specific muscle patterning in Drosophila. Journal of Neurogenetics 29; 23-29, 2015.
4) Kimura S., Sakakibara Y., Sato K., Ote M., Ito H., Koganezawa M. and Yamamoto D. The Drosophila Lingerer protein cooperates with Orb2 in long-term memory formation. Journal of Neurogenetics 29; 8-17, 2015.
3) Ito H., Sato K., Koganezawa M., Ote M., Matsumoto K., Hama C., and Yamamoto D. Fruitless recruits two antagonistic chromatin factors to establish single-neuron sexual dimorphism. Cell, 149; 1327-38, 2012.
DOI: 10.1016/j.cell.2012.04.025
Featured in Nature Review Neuroscience. "A fruitless sexual switch"
This paper appears in the text book "Developmental Biology (by Dr. Scott F. Gilbert) 10th edition" Chapter 15, Sex determination.
2) Sato K.*, Seki R.*, Noro M., Yokoyama H., and Tamura K. Morphogenetic change of the limb bud in the hand plate formation. Journal of Experimental Zoology Part B: Molecular and Developmental Evolution 314B; 539-551, 2010.(* co-first authors)
This paper was featured on the cover image of Journal of Experimental Zoology Part B.
This paper appears in the text book "Developmental Biology (by Dr. Scott F. Gilbert) 10th edition" Chapter 14, Development of the Tetrapod limb.
1) Sato K., Koizumi Y., Takahashi M., Kuroiwa A., and Tamura K. Specification of cell fate along the proximal-distal axis in the developing chick limb bud. Development 134; 1397-1406, 2007.
Featured in Development. "Limb development: into the mix"
レビュー論文
8) Sato K.* and Yamamoto D.* Molecular and Cellular Origins of Behavioral Sex Differences: A Tiny Little Fly Tells a Lot. Frontiers in Molecular Neuroscience, 16: 128437, 2023. (*co-corresponding authors)
7) Sato K. and Yamamoto D. Contact-chemosensory evolution underlying reproductive isolation in Drosophila species. Frontiers in Behavioral Neuroscience, 14: 597428, 2020.
6) Sato K., Tanaka R., Ishikawa Y. and Yamamoto D. Behavioral Evolution of Drosophila: Unravaling the Circuit Basis. Genes, 11: 157, 2020.
5) Sato K., Goto J., Yamamoto D. Sex mysteries of the fly courtship master regulator Fruitless. Frontiers in Behavioral Neuroscience, 13: 245, 2019.
4) Sato K., Yamamoto D. The mode of action of Fruitless: is it an easy matter to switch the sex? Genes, Brain and Behavior, e12606, 2019.
3) Sato K., Yamamoto D. An epigenetic switch of the brain sex as a basis of gendered behavior in Drosophila. Advances in Genetics, 86; 46-63, 2014.
2) Yamamoto D., Sato K., Koganezawa M. Neuroethology of male courtship in Drosophila: from the gene to behavior. Journal of Comparative Physiology A, 200(4): 251-64, 2014.
1) Ito H., Sato K., Yamamoto D. Sex-switching of the Drosophila brain by two antagonistic chromatin factors. Fly (Austin), 7(2): 87-91, 2013.
書籍
3) Yamamoto D., Sato K. Biological bases for typical and atypical gendered behaviors, Iwanami Kagaku 84 (7); 736-744, 2014.
2) Yamamoto D., Sato K. The female brain and the male brain. Brain and Nerve 65 (10); 1147-1158, 2013.
1) Tamura K., Sato K., Amano T., New concepts on pattern formation in developing limb bud. Experimental Medicine, Youdo-sha, 23(1); 87-93, 2005