Neuroscience

25  articles.  
* There may be some overlapped articles listed due to the difference of format.

  1. Okamoto H, Aizawa H: Fear and anxiety regulation by conserved affective circuits. Neuron. 2013.05; 78 (3): 411-413.

  2. Aizawa H: Habenula and the asymmetric development of the vertebrate brain. Anat Sci Int.. 2013; 88 (1): 1-9.

  3. Hidenori Aizawa, Wanpeng Cui, Kohichi Tanaka, Hitoshi Okamoto: Hyperactivation of the habenula as a link between depression and sleep disturbance. Front Hum Neurosci. 2013; 7 826. ( PubMed , DOI )

  4. Aoki T, Kinoshita M, Aoki R, Agetsuma M, Aizawa H, Yamazaki M, Takahoko M, Amo R, Arata A, Higashijima S-I, Tsuboi T, Okamoto H.: Imaging of neural ensemble for the retrieval of a learned behavioral program. Neuron. 2013; 78 (5): 881-894.

  1. Aizawa H, Kobayashi M, Tanaka S, Fukai T, Okamoto H.: Molecular characterization of the subnuclei in rat habenula. J Comp Neurol.. 2012; 520 4051-4066.

  1. Okamoto H, Agetsuma M, Aizawa H: Genetic dissection of the zebrafish habenula, a possible switching board for selection of behavioral strategy to cope with fear and anxiety. Dev Neurobiol. 2011.05; ( PubMed , DOI )

  2. Hidenori Aizawa, Ryunosuke Amo, Hitoshi Okamoto: Phylogeny and ontogeny of the habenular structure. Front Neurosci. 2011; 5 138. ( PubMed , DOI )

  1. Agetsuma M, Aizawa H, Aoki T, Nakayama R, Takahoko M, Goto M, Sassa T, Amo R, Shiraki T, Kawakami K, Hosoya T, Higashijima S, Okamoto H: The habenula is crucial for experience-dependent modification of fear responses in zebrafish. Nat Neurosci. 2010.11; 13 (11): 1354-1356. ( PubMed , DOI )

  2. Amo R, Aizawa H, Takahoko M, Kobayashi M, Takahashi R, Aoki T, Okamoto H: Identification of the zebrafish ventral habenula as a homolog of the mammalian lateral habenula. J Neurosci. 2010.01; 30 (4): 1566-1574. ( PubMed , DOI )

  1. Soma M, Aizawa H, Ito Y, Maekawa M, Osumi N, Nakahira E, Okamoto H, Tanaka K, Yuasa S: Development of the mouse amygdala as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation. J Comp Neurol. 2009.03; 513 (1): 113-128. ( PubMed , DOI )

  1. Okamoto H, Sato T, Aizawa H: Transgenic technology for visualization and manipulation of the neural circuits controlling behavior in zebrafish. Dev Growth Differ. 2008.06; 50 Suppl 1 S167-75. ( PubMed , DOI )

  2. Okamoto H, Aizawa H, Agetsuma M, Aoki T: [Visualization and manipulation of the emotional neural circuits in the zebrafish brain: study of mechanisms and roles for the asymmetry in the habenulo-interpeduncular projection]. Tanpakushitsu Kakusan Koso. 2008.03; 53 (4 Suppl): 475-481. ( PubMed )

  1. Sato T, Hamaoka T, Aizawa H, Hosoya T, Okamoto H: Genetic single-cell mosaic analysis implicates ephrinB2 reverse signaling in projections from the posterior tectum to the hindbrain in zebrafish. J Neurosci. 2007.05; 27 (20): 5271-5279. ( PubMed , DOI )

  2. Sassa T, Aizawa H, Okamoto H: Visualization of two distinct classes of neurons by gad2 and zic1 promoter/enhancer elements in the dorsal hindbrain of developing zebrafish reveals neuronal connectivity related to the auditory and lateral line systems. Dev Dyn. 2007.03; 236 (3): 706-718. ( PubMed , DOI )

  3. Aizawa H, Goto M, Sato T, Okamoto H: Temporally regulated asymmetric neurogenesis causes left-right difference in the zebrafish habenular structures. Dev Cell. 2007.01; 12 (1): 87-98. ( PubMed , DOI )

  1. Aizawa H, Bianco IH, Hamaoka T, Miyashita T, Uemura O, Concha ML, Russell C, Wilson SW, Okamoto H: Laterotopic representation of left-right information onto the dorso-ventral axis of a zebrafish midbrain target nucleus. Curr Biol. 2005.02; 15 (3): 238-243. ( PubMed , DOI )

  1. Aizawa H, Sato Y, Maekawa M, Fujisawa H, Hirata T, Yuasa S: Development of the amygdalohypothalamic projection in the mouse embryonic forebrain. Anat Embryol (Berl). 2004.07; 208 (4): 249-264. ( PubMed , DOI )

  1. Okazaki N, Kikuno R, Ohara R, Inamoto S, Aizawa H, Yuasa S, Nakajima D, Nagase T, Ohara O, Koga H: Prediction of the coding sequences of mouse homologues of KIAA gene: II. The complete nucleotide sequences of 400 mouse KIAA-homologous cDNAs identified by screening of terminal sequences of cDNA clones randomly sampled from size-fractionated libraries. DNA Res. 2003.02; 10 (1): 35-48. ( PubMed )

  1. Shigeki Yuasa, Mitsunari Nakajima, Hidenori Aizawa, Naruhiko Sahara, Ken-Ichi Koizumi, Tsuyoshi Sakai, Mihoko Usami, Shin-Ichiro Kobayashi, Hidehito Kuroyanagi, Hiroshi Mori, Haruhiko Koseki, Takuji Shirasawa: Impaired cell cycle control of neuronal precursor cells in the neocortical primordium of presenilin-1-deficient mice. J. Neurosci. Res.. 2002.11; 70 (3): 501-513. ( PubMed , DOI )

  1. Amo R, Fredes F, Kinoshita M, Aoki R, Aizawa H, Agetsuma M, Aoki T, Shiraki T, Kakinuma H, Matsuda M, Yamazaki M, Takahoko M, Tsuboi T, Higashijima S, Miyasaka N, Koide T, Yabuki Y, Yoshihara Y, Fukai T, Okamoto H: The habenulo-raphe serotonergic circuit encodes an aversive expectation value essential for adaptive active avoidance of danger. Neuron. 2014.12; 84 1034-1048. ( PubMed , DOI )

  1. Isomura Y, Takekawa T, Harukuni R, Handa T, Aizawa H, Takada M, Fukai T: Reward-modulated motor information in identified striatum neurons. The Journal of Neuroscience. 2013.06; 33 10209-10220. ( PubMed , DOI )

  2. Aizawa H, Yanagihara S, Kobayashi M, Niisato K, Takekawa T, Harukuni R, McHugh TJ, Fukai T, Isomura Y, Okamoto H: The synchronous activity of lateral habenular neurons is essential for regulating hippocampal theta oscillation. The Journal of Neuroscience. 2013.05; 33 (20): 8909-8921. ( DOI )

  3. Aizawa H: Habenula and the asymmetric development of the vertebrate brain. Anatomical science international. 2013.01; 88 (1): 1-9. ( PubMed , DOI )

  1. Aizawa H, Kobayashi M, Tanaka S, Fukai T, Okamoto H: Molecular characterization of the subnuclei in rat habenula. The Journal of comparative neurology. 2012.12; 520 (18): 4051-4066. ( PubMed , DOI )

  1. Isomura Y, Harukuni R, Takekawa T, Aizawa H, Fukai T: Microcircuitry coordination of cortical motor information in self-initiation of voluntary movements. Nature Neuroscience. 2009.12; 12 (12): 1586-1593. ( PubMed , DOI )

To the head of this page.▲