Books, Original Papers & Review Papers- KOGANEZAWA Masayuki -
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[B]:Books [O]:Original Papers [R]:Review Papers
total:49
[2018]
1.[O] Antennae sense heat stress to inhibit mating and promote escaping in Drosophila females..[J Neurogenet.,32(4),(2018),353-363]Yusuke Miwa, Masayuki Koganezawa & Daisuke Yamamoto
[2016]
2.[O] Serotonergic neuronal death and concomitant serotonin deficiency curb copulation ability of Drosophila platonic mutants..[Nature Communications,7,(2016)]Yasemin B. Yilmazer, Masayuki Koganezawa, Kosei Sato, Jinhua Xu & Daisuke Yamamoto
10.1038/ncomms13792
3.[O] The neural circuitry that functions as a switch for courtship versus aggression in Drosophila males..[Current Biology,26,(2016),1395-1403]Koganezawa M., Kimura K., Yamamoto D.
10.1016/j.cub.2016.04.017
4.[O] Requirement of the Tec family tyrosine kinase Btk29A for courtship memory in Drosophila males.[Arch. Insect. Biochem. Physiol.,91,(2016),165-174]Sunouchi K., Koganezawa M., Yamamoto D.
10.1002/arch.21316
[2015]
5.[O] Zeste tunes the timing of ecdysone actions in triggering programmed tissue degeneration in Drosophila..[J. Neurogenet.,29,(2015),169-173]Goto T., Sato K., Sone H., Koganezawa M., Ito H., Yamamoto D.
10.3109/01677063.2015.1098638
6.[R] ショウジョウバエの求愛行動(下)脳の性差をつくる分子・愛を生み出す神経.[東京化学同人 現代化学,531, (2015), 52-55]小金澤雅之
7.[R] ショウジョウバエの求愛行動(上)求愛を制御するフェロモン.[東京化学同人 現代化学,530, (2015), 48-50]小金澤雅之
8.[O] Drosophila ovipositor extension in mating behavior and egg deposition involves distinct sets of brain interneurons..[PLoS One,10,(2015)]Kimura K, Sato C, Koganezawa M, Yamamoto D.
10.1371/journal.pone.0126445
9.[O] The Drosophila lingerer protein cooperates with Orb2 in long-term memory formation..[J Neurogenet,29,(2015),8-17]Kimura S, Sakakibara Y, Sato K, Ote M, Ito H, Koganezawa M, Yamamoto D.
10.[O] The Dmca1D channel mediates Ca(2+) inward currents in Drosophila embryonic muscles..[J. Neurogenet.,29,(2015),117-123]Hara Y., Koganezawa M., Yamamoto D.
10.3109/01677063.2015.1054991
[2014]
11.[R] Neuroethology of male courtship in Drosophila: from the gene to behavior.[Journal of Comparative Physiology A,200, (2014), 251-264]Yamamoto D., Sato K., Koganezawa M.
[2013]
12.[R] Genes and circuits of courtship behaviour in Drosophila males.[Nature Reviews Neuroscience,14, (2013), 681-692]Yamamoto, D., Koganezawa, M.
13.[O] Select interneuron clusters determine female sexual receptivity in Drosophila.[Nature Communications,4,(2013)]Sakurai, A., Koganezawa, M., Yasunaga, K., Emoto, K., and Yamamoto, D.
10.1038/ncomms2837
14.[B] Pheromone Signaling: Methods in Molecular Biology.[(2013)]Yamamoto, D., Kohatsu, S., Koganezawa, M.
15.[B] Methods in Molecular Biology, vol.1068, Tohara K Ed..[Springer,(2013)]Yamamoto, D., Kohatsu, S., Koganezawa, M.
[2012]
16.[O] Fruitless recruits two antagonistic chromatin factors to establish single-neuron sexual dimorphism.[Cell,149,(2012),1327-1338]Ito, H., Sato, K., Koganezawa, M., Ote, M., Matsumoto, K., Hama, C., Yamamoto, D.
17.[O] An untranslated RNA sequence encoded in the putative regulatory regionof fruitless, a major courtship regulator gene of Drosophila.[Intern. J. Biol.,4,(2012),20-26]Takayanagi S, Toba G, Koganezawa M, Lukacsovich T, Yamamoto D
18.[R] in vivo optical recording of brain interneuron activities from a Drosophila male on a treadmill.[Humana Press Springer Genetically Encoded Functional Indicators, (2012), 103-112]Kohatsu, S., Koganezawa, M., Yamamoto, D.
[2011]
19.[O] Sexually dimorphic shaping of interneuron dendrites involves the Hunchback transcription factor.[J. Neuroscience,31,(2011),5454-5459]Goto, J., Mikawa, Y., Koganezawa, M., Ito, H., and Yamamoto, D.
20.[O] Gr39a, a Highly Diversified Gustatory Receptor in Drosophila,has a Role in Sexual Behavior.[Behavior Genetics,(2011)]Watanabe, K., Toba, G., Koganezawa, M., and Yamamoto D.
10.1007/s10519-011-9461-6
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