Papers associated with trpa1

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	Xenopus TRPN1 (NOMPC) localizes to microtubule-based cilia in epithelial cells, including inner-ear hair cells., Shin JB, Adams D, Paukert M, Siba M, Sidi S, Levin M, Gillespie PG, Gründer S., Proc Natl Acad Sci U S A. August 30, 2005; 102 (35): 12572-7.
	Evolution of thermoTRP ion channel homologs in vertebrates., Saito S, Shingai R., Physiol Genomics. November 27, 2006; 27 (3): 219-30.
	A role of TRPA1 in mechanical hyperalgesia is revealed by pharmacological inhibition., Petrus M, Peier AM, Bandell M, Hwang SW, Huynh T, Olney N, Jegla T, Patapoutian A., Mol Pain. December 17, 2007; 3 40.
	Menthol derivative WS-12 selectively activates transient receptor potential melastatin-8 (TRPM8) ion channels., Ma S, G G, Ak VE, Jf D, H H., Pak J Pharm Sci. October 1, 2008; 21 (4): 370-8.
	Zebrafish TRPA1 channels are required for chemosensation but not for thermosensation or mechanosensory hair cell function., Prober DA, Zimmerman S, Myers BR, McDermott BM, Kim SH, Caron S, Rihel J, Solnica-Krezel L, Julius D, Hudspeth AJ, Schier AF., J Neurosci. October 1, 2008; 28 (40): 10102-10.
	Caffeine activates mouse TRPA1 channels but suppresses human TRPA1 channels., Nagatomo K, Kubo Y., Proc Natl Acad Sci U S A. November 11, 2008; 105 (45): 17373-8.
	Anopheles gambiae TRPA1 is a heat-activated channel expressed in thermosensitive sensilla of female antennae., Wang G, Qiu YT, Lu T, Kwon HW, Pitts RJ, Van Loon JJ, Takken W, Zwiebel LJ., Eur J Neurosci. September 1, 2009; 30 (6): 967-74.
	Enhanced activation of the transient receptor potential channel TRPA1 by ajoene, an allicin derivative., Yassaka RT, Inagaki H, Fujino T, Nakatani K, Kubo T., Neurosci Res. January 1, 2010; 66 (1): 99-105.
	Characterization of selective TRPM8 ligands and their structure activity response (S.A.R) relationship., Sherkheli MA, Vogt-Eisele AK, Bura D, Beltrán Márques LR, Gisselmann G, Hatt H., J Pharm Pharm Sci. January 1, 2010; 13 (2): 242-53.
	Activation of TRPA1 channels by fenamate nonsteroidal anti-inflammatory drugs., Hu H, Tian J, Zhu Y, Wang C, Xiao R, Herz JM, Wood JD, Zhu MX., Pflugers Arch. March 1, 2010; 459 (4): 579-92.
	Drosophila TRPA1 channel mediates chemical avoidance in gustatory receptor neurons., Kim SH, Lee Y, Akitake B, Woodward OM, Guggino WB, Montell C., Proc Natl Acad Sci U S A. May 4, 2010; 107 (18): 8440-5.
	The Met268Pro mutation of mouse TRPA1 changes the effect of caffeine from activation to suppression., Nagatomo K, Ishii H, Yamamoto T, Nakajo K, Kubo Y., Biophys J. December 1, 2010; 99 (11): 3609-18.
	Activation characteristics of transient receptor potential ankyrin 1 and its role in nociception., Raisinghani M, Zhong L, Jeffry JA, Bishnoi M, Pabbidi RM, Pimentel F, Cao DS, Evans MS, Premkumar LS., Am J Physiol Cell Physiol. September 1, 2011; 301 (3): C587-600.
	Cytoplasmic ankyrin repeats of transient receptor potential A1 (TRPA1) dictate sensitivity to thermal and chemical stimuli., Cordero-Morales JF, Gracheva EO, Julius D., Proc Natl Acad Sci U S A. November 15, 2011; 108 (46): E1184-91.
	Modulation of TRPA1 thermal sensitivity enables sensory discrimination in Drosophila., Kang K, Panzano VC, Chang EC, Ni L, Dainis AM, Jenkins AM, Regna K, Muskavitch MA, Garrity PA., Nature. December 4, 2011; 481 (7379): 76-80.
	Modulation of thermoreceptor TRPM8 by cooling compounds., Bharate SS, Bharate SB., ACS Chem Neurosci. April 18, 2012; 3 (4): 248-67.
	Analysis of transient receptor potential ankyrin 1 (TRPA1) in frogs and lizards illuminates both nociceptive heat and chemical sensitivities and coexpression with TRP vanilloid 1 (TRPV1) in ancestral vertebrates., Saito S, Nakatsuka K, Takahashi K, Fukuta N, Imagawa T, Ohta T, Tominaga M., J Biol Chem. August 31, 2012; 287 (36): 30743-54.
	Characterization of a ligand binding site in the human transient receptor potential ankyrin 1 pore., Klement G, Eisele L, Malinowsky D, Nolting A, Svensson M, Terp G, Weigelt D, Dabrowski M., Biophys J. February 19, 2013; 104 (4): 798-806.
	Transient receptor potential channels encode volatile chemicals sensed by rat trigeminal ganglion neurons., Lübbert M, Kyereme J, Schöbel N, Beltrán L, Wetzel CH, Hatt H., PLoS One. October 8, 2013; 8 (10): e77998.
	Identification of molecular determinants for a potent mammalian TRPA1 antagonist by utilizing species differences., Nakatsuka K, Gupta R, Saito S, Banzawa N, Takahashi K, Tominaga M, Ohta T., J Mol Neurosci. November 1, 2013; 51 (3): 754-62.
	Heat and noxious chemical sensor, chicken TRPA1, as a target of bird repellents and identification of its structural determinants by multispecies functional comparison., Saito S, Banzawa N, Fukuta N, Saito CT, Takahashi K, Imagawa T, Ohta T, Tominaga M., Mol Biol Evol. March 1, 2014; 31 (3): 708-22.
	A tarantula-venom peptide antagonizes the TRPA1 nociceptor ion channel by binding to the S1-S4 gating domain., Gui J, Liu B, Cao G, Lipchik AM, Perez M, Dekan Z, Mobli M, Daly NL, Alewood PF, Parker LL, King GF, Zhou Y, Jordt SE, Nitabach MN., Curr Biol. March 3, 2014; 24 (5): 473-83.
	Direct action and modulating effect of (+)- and (-)-nicotine on ion channels expressed in trigeminal sensory neurons., Schreiner BS, Lehmann R, Thiel U, Ziemba PM, Beltrán LR, Sherkheli MA, Jeanbourquin P, Hugi A, Werner M, Gisselmann G, Hatt H., Eur J Pharmacol. April 5, 2014; 728 48-58.
	The bile acid receptor TGR5 activates the TRPA1 channel to induce itch in mice., Lieu T, Jayaweera G, Zhao P, Poole DP, Jensen D, Grace M, McIntyre P, Bron R, Wilson YM, Krappitz M, Haerteis S, Korbmacher C, Steinhoff MS, Nassini R, Materazzi S, Geppetti P, Corvera CU, Bunnett NW., Gastroenterology. December 1, 2014; 147 (6): 1417-28.
	Hydroxy-α sanshool induces colonic motor activity in rat proximal colon: a possible involvement of KCNK9., Kubota K, Ohtake N, Ohbuchi K, Mase A, Imamura S, Sudo Y, Miyano K, Yamamoto M, Kono T, Uezono Y., Am J Physiol Gastrointest Liver Physiol. April 1, 2015; 308 (7): G579-90.
	Borneol inhibits TRPA1, a proinflammatory and noxious pain-sensing cation channel., Sherkheli MA, Schreiner B, Haq R, Werner M, Hatt H., Pak J Pharm Sci. July 1, 2015; 28 (4): 1357-63.
	A TRPA1 channel that senses thermal stimulus and irritating chemicals in Helicoverpa armigera., Wei JJ, Fu T, Yang T, Liu Y, Wang GR., Insect Mol Biol. August 1, 2015; 24 (4): 412-21.
	The Mosquito Repellent Citronellal Directly Potentiates Drosophila TRPA1, Facilitating Feeding Suppression., Du EJ, Ahn TJ, Choi MS, Kwon I, Kim HW, Kwon JY, Kang K., Mol Cells. October 1, 2015; 38 (10): 911-7.
	Chemical sensing properties of Takifugu TRPA1., Oda M, Ninomiya K, Kurogi M, Saitoh O., Neuroreport. October 21, 2015; 26 (15): 908-14.
	TrpA1 Regulates Defecation of Food-Borne Pathogens under the Control of the Duox Pathway., Du EJ, Ahn TJ, Kwon I, Lee JH, Park JH, Park SH, Kang TM, Cho H, Kim TJ, Kim HW, Jun Y, Lee HJ, Lee YS, Kwon JY, Kang K., PLoS Genet. January 4, 2016; 12 (1): e1005773.
	Exceptionally high thermal sensitivity of rattlesnake TRPA1 correlates with peak current amplitude., Kang K., Biochim Biophys Acta. February 1, 2016; 1858 (2): 318-25.
	Sensitivities of Two Zebrafish TRPA1 Paralogs to Chemical and Thermal Stimuli Analyzed in Heterologous Expression Systems., Oda M, Kurogi M, Kubo Y, Saitoh O., Chem Senses. March 1, 2016; 41 (3): 261-72.
	Evolution of Heat Sensors Drove Shifts in Thermosensation between Xenopus Species Adapted to Different Thermal Niches., Saito S, Ohkita M, Saito CT, Takahashi K, Tominaga M, Ohta T., J Biol Chem. May 20, 2016; 291 (21): 11446-59.
	Identification and functional characterization of four transient receptor potential ankyrin 1 variants in Apolygus lucorum (Meyer-Dür)., Fu T, Hull JJ, Yang T, Wang G., Insect Mol Biol. August 1, 2016; 25 (4): 370-84.
	Structural basis of TRPA1 inhibition by HC-030031 utilizing species-specific differences., Gupta R, Saito S, Mori Y, Itoh SG, Okumura H, Tominaga M., Sci Rep. November 22, 2016; 6 37460.
	Alternative in vitro assays to assess the potency of sensory irritants-Is one TRP channel enough?, Lehmann R, Hatt H, van Thriel C., Neurotoxicology. May 1, 2017; 60 178-186.
	Chemical and thermal sensitivity of medaka TRPA1 analyzed in heterologous expression system., Oda M, Saito K, Hatta S, Kubo Y, Saitoh O., Biochem Biophys Res Commun. December 9, 2017; 494 (1-2): 194-201.
	Sensitivity of Takifugu TRPA1 to thermal stimulations analyzed in oocytes expression system., Oda M, Kubo Y, Saitoh O., Neuroreport. March 7, 2018; 29 (4): 280-285.
	Comparisons of behavioural and TRPA1 heat sensitivities in three sympatric Cuban Anolis lizards., Akashi HD, Saito S, Cádiz Díaz A, Makino T, Tominaga M, Kawata M., Mol Ecol. May 1, 2018; 27 (9): 2234-2242.
	Functional properties of axolotl transient receptor potential ankyrin 1 revealed by the heterologous expression system., Oda M, Ogino H, Kubo Y, Saitoh O., Neuroreport. March 20, 2019; 30 (5): 323-330.
	Analysis of phototoxin taste closely correlates nucleophilicity to type 1 phototoxicity., Du EJ, Ahn TJ, Sung H, Jo H, Kim HW, Kim ST, Kang K., Proc Natl Acad Sci U S A. June 11, 2019; 116 (24): 12013-12018.
	Elucidating the functional evolution of heat sensors among Xenopus species adapted to different thermal niches by ancestral sequence reconstruction., Saito S, Saito CT, Nozawa M, Tominaga M., Mol Ecol. August 1, 2019; 28 (15): 3561-3571.
	Unique high sensitivity to heat of axolotl TRPV1 revealed by the heterologous expression system., Hori S, Saitoh O., Biochem Biophys Res Commun. January 22, 2020; 521 (4): 914-920.
	A Single Natural Variation Determines Cytosolic Ca2+-Mediated Hyperthermosensitivity of TRPA1s from Rattlesnakes and Boas., Du EJ, Kang K., Mol Cells. June 30, 2020; 43 (6): 572-580.
	SMC5 Plays Independent Roles in Congenital Heart Disease and Neurodevelopmental Disability., O'Brien MP, Pryzhkova MV, Lake EMR, Mandino F, Shen X, Karnik R, Atkins A, Xu MJ, Ji W, Konstantino M, Brueckner M, Ment LR, Khokha MK, Jordan PW., Int J Mol Sci. December 28, 2023; 25 (1):

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