Publications
【Articles】
2011~
Ø Takeuchi H,
Kurahashi T. (2023) Segregation of Ca2+ signaling in olfactory signal transduction. J Gen Physiol. Apr
3;155(4): e202213165. doi: 10.1085/jgp.202213165. Epub 2023 Feb 14.
Ø Takeuchi H,
Kurahashi T. (2019). Suppression of olfactory signal transduction by
insecticides. npj Science of Food, 3(9)
Ø Tamari
K, Takeuchi H, Kobayashi M, Takeuchi K, Kurahashi T, Yamamoto T. (2019).
Electrical properties of cells from human olfactory epithelium. Auris
Nasus Larynx. 5. pii: S0385-8146(18)30697-7.
Ø Takeuchi H,
Kurahashi T. (2018). Second messenger molecules have a limited spread in
olfactory cilia. J Gen Physiol. 150(12):1647-1659.
Ø Takeuchi H, Kato
H, Kurahashi T. (2013). 2,4,6-Trichloroanisole is a potent suppressor of
olfactory signal transduction. Proc Natl Acad Sci U S A. 110(40):
16235-16240.
Ø Tamari K,
Takeuchi H, Kobayashi M, Kurahashi T, Yamamoto T. (2013). Suppression and
recovery of voltage-gated currents after cocaine treatments of olfactory
receptor cells. Auris Nasus Larynx. 40(1): 66-70.
Ø Matsumura K,
Matsumoto M, Kurahashi T, Takeuchi H. (2012). Recordings from cultured newt
olfactory receptor cells. Zoolog Sci. 5: 340-345.
Ø Kishino Y, Kato
H, Kurahashi T, Takeuchi H. (2011). Chemical structures of odorants that
suppress ion channels in the olfactory receptor cell. J Physiol
Sci. 61: 231-245.
2001~2010
Ø Takeuchi H, Ishida
H, Hikichi S, Kurahashi T. (2009). Mechanism of olfactory masking in the
sensory cilia. J Gen Physiol. 133(6): 583-601.
Ø Takeuchi H,
Kurahashi T. (2008). Distribution, amplification, and summation of cyclic
nucleotide sensitivities within single olfactory sensory cilia. J. Neurosci. 28(3):766-775.
Ø Sugahara A,
Yoshida M, Takeuchi H. (2008). MS-Windows application executing the
non-stationary noise analysis of whole-cell transient current. Aroma
Research, 9(3): 233-240. [Written in Japanese]
Ø Chen TY, Takeuchi
H, Kurahashi T. (2006). Odorant inhibition of the olfactory cyclic
nucleotide-gated channel with a native molecular assembly. J Gen
Physiol. 128(3):365-371.
Ø Takeuchi H,
Kurahashi T. (2005). Mechanism of Signal Amplification in the Olfactory Sensory
Cilia. J. Neurosci. 25(48):11084-11091.
Ø Tomaru A,
Kurahashi T. (2005). Mechanisms determining the dynamic range of the bullfrog
olfactory receptor cell. J.Neurophysiol. 93(4):1880-8.
Ø Morita A, Inoue
Y, Ymachi Y, Ishimawa M, Yamada S, Yamane M, Tsuzuki N, Moriya N, Takeuchi H,
Kurahashi T. (2004). The power
spectral analysis of heart rate variability during the aroma treatment. Aroma
Research, 5(2): 156-161. [Written in Japanese]
Ø Furuta T,
Takeuchi H, Isozaki M, Takahashi Y, Kanehara M, Sugimoto M, Watanabe
T, Noguchi K, Dore TM, Kurahashi T, Iwamura M, Tsien RY.
(2004). Bhc-cNMPs as either water-soluble or membrane-permeant
photo-releasable cyclic nucleotides for both one and two-photon
excitations. ChemBioChem. 5(8): 1119-1128.
Ø Takeuchi H,
Kurahashi T. (2003). Identification of second messenger mediating signal
transduction in the olfactory receptor cell. J Gen Physiol. 122:
557-567.
Ø Takeuchi H,
Moriya N, Kurahashi T. (2003). Response
induced by the essential oil in single olfactory receptor cells. Aroma Research,
4(4): 336-343. [Written in Japanese]
Ø Takeuchi
H, Imanaka Y, Hirono J, Kurahashi T. (2003).
Cross-adaptation between olfactory responses induced by two subgroups of
odorant molecules. J Gen Physiol. 122: 255-264. (2003 JGP Noteworthy
articles).
Ø Takeuchi H,
Kurahashi T. (2002). Photolysis of caged cyclic AMP in the ciliary cytoplasm of
the newt olfactory receptor cell. J. Physiol. 541(3): 825-833.
Ø Watanabe K, Umezu
K, Kurahashi T. (2002). Human olfactory contrast changes during the menstrual
cycle. Jpn J Physiol. 52(4):353-9.
Ø Imanaka Y,
Takeuchi H. (2001). Spiking properties of olfactory receptor cells in the slice
preparation. Chem. Senses. 8: 1023-1027.
Ø Takeuchi
H, Tsunenari T, Kurahashi T, Kaneko A. (2001). Physiology of morphologically
identified cells of the bull frog fungiform papilla. NeuroReport. 12(13):2957-2962.
1991~2000
Ø Kaneko A,
Takeuchi H, Kurahashi T, Tsunenari T. (1999). A Novel mechanism of
bitter taste transduction. Korean J Physiol. Pharmacol.3: 455-459.
Ø Kawai F,
Kurahashi T, Kaneko A (1999). Adrenaline enhances odorant contrast by
modulating signal encoding in olfactory receptor cells. Nature
Neuroscience 2, 133 - 138.
Ø Kawai F,
Kurahashi T, Kaneko A. (1997). Quantitative analysis of spike generation in the
newt olfactory receptor cell. Jpn J Physiol. 47,367-376.
Ø Wakazono Y,
Kurahashi T, Nekahira K, Nagata I, Takayama C, Inoue Y, Kaneko A, Ikenaka K. (1997). Appearance of a fast unactivating voltage-dependent K+ currents
in developing cerebellar granule cells in vitro. Neurosci Res,
29 291-301.
Ø Kurahashi T,
Menini A. (1997). Mechanism of odorant adaptation in the olfactory receptor
cell. Nature 385, 725-729.
Ø Kawai F,
Kurahashi T, Kaneko A. (1997). Nonselective suppression of voltage-gated
currents by odorants in the newt olfactory receptor cells. J Gen
Physiol. 109. 265-272.
Ø Kawai F,
Kurahashi T, Kaneko A. (1996). T-type Ca2+ channel lowers the threshold of
spike generation in the newt olfactory receptor cell. J Gen Physiol. 108,
525-535.
Ø Tsunenari T,
Hayashi Y, Orita M, Kurahashi T, Kaneko A, Mori T. (1996).
A-quinine-activated cationic conductance in vertebrate taste receptor
cells. J Gen Physiol. 108, 515-523.
Ø Villa P,
Kurahashi T, Kaneko A. (1995). L-glutamate-induced responses and cGMP-activated
channels in three subtypes of retinal bipolar cells dissociated from the cat. J. Neurosci. vol.15,
3571-3582.
Ø Kaneko A, Villa
P, Kurahashi T, Sasaki T. (1994). Role of l-glutamate for formation of On-and
Off-responses in the retina. Biomedical Res. Suppl. Vol.1,
41-45.
Ø Kurahashi T, Lowe
G, Gold G H. (1994). Suppression by odorants of odorant responses in olfactory
receptor cells. Science. Vol.265, 18-120.
Ø Kurahashi T,
Kaneko A. (1993). Gating properties of the cAMP-gated channels in toad
olfactory receptor cells. J. Physiol. Vol.466, 287-302.
Ø Kurahashi T, Yau
K-W. (1993). Co-existence of cationic and chloride components in
odorant-induced current of vertebrate olfactory receptor cells. Nature Vol.363,
71-74.
Ø Kurahashi T, Kaneko
A. (1991). High density cAMP-gated channels at the ciliary membrane in the
olfactory receptor cell. Neuro Report Vol.2, 5-8.
Ø Kurahashi T,
Shibuya T. (1990). Ca2+-dependent adaptive properties in the
solitary olfactory receptor cells of newt. Brain Research. Vol.515,
261-268.
Ø Kurahashi T,
Kaneko A, Shibuya T. (1990). Ionic mechanisms of the olfactory transduction
studied on isolated receptor cells. Neurosci. Res. Suppl. Vol.12,
S85-S96.
Ø Kurahashi T.
(1990). The Response induced by intracellular cyclic AMP in isolated olfactory
receptor cells of the newt. J. Physiol. Vol.430, 355-371.
~1990
Ø Kurahashi T. (1989).
Activation by odorants of cation-selective conductance in the olfactory
receptor cell isolated from the newt. J. Physiol.419, 177-192.
Ø Kurahashi T,
Shibuya T. (1989). Membrane responses and permeability changes to odorants in
the solitary olfactory receptor cells of the newt. Zoolog Sci. 6,
19-30.
【Books】
² Hiroko Takeuchi,
Takashi Kurahashi. (2017). Olfactory transduction channels and their modulation
by varieties of volatile substances, Ed: Dietmar Krautwurst, pp 115-149.Publisher:
Springer International Publishing.
² 倉橋 隆 (著) (2015). トコトンやさしい人体のしくみの本 (今日からモノ知りシリーズ) 日刊工業新聞社
² 竹内裕子、倉橋 隆 (著) (2013). おもしろサイエンス 神経細胞の科学 日刊工業新聞社
² 倉橋 隆,光田 恵,福井 寛 (著) (2011). トコトンやさしいにおいとかおりの本 (B&Tブックス―今日からモノ知りシリーズ) 日刊工業新聞社
² Takeuchi H,
Kurahashi T. (2008). §4-28: Signal Transduction in the Olfactory Receptor Cell.
The Senses, Elsevier, p499-510.
² 竹内裕子. (2007). 匂いと香りの科学 ; 第4章第2項:嗅細胞のイオンチャネル特性. 朝倉書店 p87-93.
² 倉橋隆 (著). (2004). 嗅覚生理学 フレグランスジャーナス社.
² 渡辺京子, 竹内裕子・倉橋隆. (2002). 嗅細胞のセカンドメッセンジャーとイオンチャネル; 第3章3項 嗅細胞のセカンドメッセンジャーとイオンチャネル. フレグランスジャーナル社 p147-167.
² 竹内裕子, 倉橋隆. (2001). 匂いレセプターシリーズ・バイオサイエンスの新世紀 第12巻「感覚器官と脳内情報処理」; 第1章2項 匂い受容体. 共立出版 p9-18.