All Relations between taste perception and nitrogen monoxide

Reference Sentence Publish Date Extraction Date Species
D Risso, D Carmagnola, G Morini, G Pellegrini, E Canciani, M Antinucci, D Henin, C Dellavi. Distribution of TAS2R38 bitter taste receptor phenotype and haplotypes among COVID-19 patients. Scientific reports vol 12 issue 1 2022 35513681 bitter taste receptor tas2r38 is expressed in the respiratory tract and can respond to quorum-sensing molecules produced by pathogens, stimulating the release of nitric oxide, with biocidal activity. 2022-05-05 2022-05-07 Not clear
Li Eon Kuek, Derek B McMahon, Ray Z Ma, Zoey A Miller, Jennifer F Jolivert, Nithin D Adappa, James N Palmer, Robert J Le. Cilia Stimulatory and Antibacterial Activities of T2R Bitter Taste Receptor Agonist Diphenhydramine: Insights into Repurposing Bitter Drugs for Nasal Infections. Pharmaceuticals (Basel, Switzerland) vol 15 issue 4 2022 35455449 t2r bitter taste receptors in airway motile cilia increase ciliary beat frequency (cbf) and nitric oxide (no) production. 2022-04-23 2022-04-25 Not clear
Zhizhongbin Wu, Yilin Huang, Weiqing Hu, Liyin Ren, Peihua Jiang, Robert F Margolskee, Hong Wang, Shan Fen. Lipopolysaccharide-induced inflammation increases nitric oxide production in taste buds. Brain, behavior, and immunity vol issue 2022 35447301 however, it is unclear whether activation of the nf-\xce\xbab pathway could induce inos gene expression and increase nitric oxide (no) production in taste buds. 2022-04-21 2022-04-25 Not clear
Zhizhongbin Wu, Yilin Huang, Weiqing Hu, Liyin Ren, Peihua Jiang, Robert F Margolskee, Hong Wang, Shan Fen. Lipopolysaccharide-induced inflammation increases nitric oxide production in taste buds. Brain, behavior, and immunity vol issue 2022 35447301 lipopolysaccharide-induced inflammation increases nitric oxide production in taste buds. 2022-04-21 2022-04-25 Not clear
Katleen Martens, Brecht Steelant, Dominique M A Bullen. Taste Receptors: The Gatekeepers of the Airway Epithelium. Cells vol 10 issue 11 2021 34831117 taste receptors in the airways are potentially involved in three different immune pathways (i.e., the production of nitric oxide and antimicrobial peptides secretion, modulation of ciliary beat frequency, and bronchial smooth muscle cell relaxation). 2021-12-08 2022-01-13 Not clear
Ryan M Carey, Nithin D Adappa, James N Palmer, Robert J Le. Neuropeptide Y Reduces Nasal Epithelial T2R Bitter Taste Receptor-Stimulated Nitric Oxide Production. Nutrients vol 13 issue 10 2021 34684394 neuropeptide y reduces nasal epithelial t2r bitter taste receptor-stimulated nitric oxide production. 2021-11-15 2022-01-13 Not clear
Jingle Jiang, Siyi Liu, Lina Qi, Quanwei Wei, Fangxiong Sh. Activation of Ovarian Taste Receptors Inhibits Progesterone Production Potentially via NO/cGMP and Apoptotic Signaling. Endocrinology vol 162 issue 3 2021 33367902 the activation of these ovarian taste receptors promoted nitric oxide (no) production via endothelial nitric oxide synthase (enos). 2021-09-10 2022-01-13 Not clear
Yiwen Li, Jing Cui, Yanfei Liu, Keji Chen, Luqi Huang, Yue Li. Oral, Tongue-Coating Microbiota, and Metabolic Disorders: A Novel Area of Interactive Research. Frontiers in cardiovascular medicine vol 8 issue 2021 34490384 this barrier is involved in the production and circulation of nitric oxide (no) and the function of taste receptors, forming the oral-gut-brain axis (similar to the gut-brain axis). 2021-09-08 2022-01-13 Not clear
Indiwari Gopallawa, Jenna R Freund, Robert J Le. Bitter taste receptors stimulate phagocytosis in human macrophages through calcium, nitric oxide, and cyclic-GMP signaling. Cellular and molecular life sciences : CMLS vol 78 issue 1 2021 32172302 bitter taste receptors stimulate phagocytosis in human macrophages through calcium, nitric oxide, and cyclic-gmp signaling. 2021-02-16 2022-01-13 Not clear
Carol H Yan, Samuel Hahn, Derek McMahon, David Bonislawski, David W Kennedy, Nithin D Adappa, James N Palmer, Peihua Jiang, Robert J Lee, Noam A Cohe. Nitric oxide production is stimulated by bitter taste receptors ubiquitously expressed in the sinonasal cavity. American journal of rhinology & allergy vol 31 issue 2 2018 28452704 nitric oxide production is stimulated by bitter taste receptors ubiquitously expressed in the sinonasal cavity. 2018-03-09 2022-01-13 Not clear
Benjamin M Hariri, Derek B McMahon, Bei Chen, Nithin D Adappa, James N Palmer, David W Kennedy, Robert J Le. Plant flavones enhance antimicrobial activity of respiratory epithelial cell secretions against Pseudomonas aeruginosa. PloS one vol 12 issue 9 2017 28931063 some flavones also activate the t2r14 bitter taste receptor, which is expressed in motile cilia of the sinonasal epithelium and activates innate immune nitric oxide (no) production. 2017-10-17 2022-01-13 Not clear
Benjamin M Hariri, Sakeena J Payne, Bei Chen, Corrine Mansfield, Laurel J Doghramji, Nithin D Adappa, James N Palmer, David W Kennedy, Masha Y Niv, Robert J Le. In vitro effects of anthocyanidins on sinonasal epithelial nitric oxide production and bacterial physiology. American journal of rhinology & allergy vol 30 issue 4 2017 27456596 t2r bitter taste receptors play a crucial role in sinonasal innate immunity by upregulating mucociliary clearance and nitric oxide (no) production in response to bitter gram-negative quorum-sensing molecules in the airway surface liquid. 2017-03-10 2022-01-12 Not clear
Nithin D Adappa, Timothy J Howland, James N Palmer, David W Kennedy, Laurel Doghramji, Anna Lysenko, Danielle R Reed, Robert J Lee, Noam A Cohe. Genetics of the taste receptor T2R38 correlates with chronic rhinosinusitis necessitating surgical intervention. International forum of allergy & rhinology vol 3 issue 3 2013 23322450 we recently demonstrated the bitter taste receptor t2r38 upregulates sinonasal mucosal innate defense in response to gram-negative quorum-sensing molecules through increased nitric oxide production and mucociliary clearance. 2013-09-09 2022-01-12 Not clear
Hisayuki Uneyama, Akira Niijima, Akihiko Kitamura, Kunio Tori. Existence of NO-triggered vagal afferent activation in the rat gastric mucosa. Life sciences vol 85 issue 23-26 2009 19874830 we previously reported the possible involvement of mucosal nitric oxide (no)-triggered 5-ht release in luminal glutamate sensing by the gastric vagus nerve, and we proposed that the stomach, like the duodenum, could "taste" luminal nutrients. 2009-12-11 2022-01-12 Not clear
H Schuppe, M Cuttle, P L Newlan. Nitric oxide modulates sodium taste via a cGMP-independent pathway. Developmental neurobiology vol 67 issue 2 2007 17443784 nitric oxide modulates sodium taste via a cgmp-independent pathway. 2007-06-01 2022-01-12 Not clear
Susan P Travers, Joseph B Traver. Taste-evoked Fos expression in nitrergic neurons in the nucleus of the solitary tract and reticular formation of the rat. The Journal of comparative neurology vol 500 issue 4 2007 17154256 stimulation of awake rats with citric acid and quinine resulted in significant increases in the numbers of double-labeled neurons in both the nst and rf, suggesting that some medullary gustatory neurons utilize nitric oxide (no) as a transmitter. 2007-02-13 2022-01-12 Not clear
Anupum Haksar, Ashok Sharma, Raman Chawla, Raj Kumar, Rajesh Arora, Surender Singh, J Prasad, M Gupta, R P Tripathi, M P Arora, F Islam, R K Sharm. Zingiber officinale exhibits behavioral radioprotection against radiation-induced CTA in a gender-specific manner. Pharmacology, biochemistry, and behavior vol 84 issue 2 2006 16797061 to correlate the mechanism of action, the free-radical-scavenging potential of zingiber extract to scavenge hydroxyl ion and nitric oxide was also tested, in cell-free system and a concentration of 1000 microg/ml, was found to be the most potent, which has been proposed as one the many activities assisting in its overall ability to modulate radiation-induced taste aversion. 2006-10-05 2022-01-13 Not clear
Daniel Klamer, Erik P\\xc3\\xa5lsson, Caroline Wass, Trevor Archer, J\\xc3\\xb6rgen A Engel, Lennart Svensso. Antagonism of the nitric oxide synthase inhibitor, L-NAME, of the effects of phencyclidine on latent inhibition in taste aversion conditioning. Behavioural brain research vol 161 issue 1 2005 15904710 antagonism of the nitric oxide synthase inhibitor, l-name, of the effects of phencyclidine on latent inhibition in taste aversion conditioning. 2005-07-29 2022-01-12 Not clear
Daniel Klamer, Erik P\\xc3\\xa5lsson, Caroline Wass, Trevor Archer, J\\xc3\\xb6rgen A Engel, Lennart Svensso. Antagonism of the nitric oxide synthase inhibitor, L-NAME, of the effects of phencyclidine on latent inhibition in taste aversion conditioning. Behavioural brain research vol 161 issue 1 2005 15904710 in the present study, a conditioned taste aversion (cta) procedure was used to investigate the effects of the nitric oxide (no) synthase inhibitor, n(g)-nitro-l-arginine methyl ester (l-name), and the psychotomimetic drugs, phencyclidine (pcp) and d-amphetamine (d-amp) on li. 2005-07-29 2022-01-12 Not clear
Yoshihiro Murata, Masashi Mashiko, Mamiko Ozaki, Taisaku Amakawa, Tadashi Nakamur. Intrinsic nitric oxide regulates the taste response of the sugar receptor cell in the blowfly, Phormia regina. Chemical senses vol 29 issue 1 2004 14752042 intrinsic nitric oxide regulates the taste response of the sugar receptor cell in the blowfly, phormia regina. 2004-09-23 2022-01-12 Not clear
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