Crucial role of copper in detection of metal-coordinating odorants
about
Aversion and attraction through olfactionImplausibility of the vibrational theory of olfactionOlfactory sensitivity for six predator odorants in CD-1 mice, human subjects, and spider monkeysIn vivo identification of eugenol-responsive and muscone-responsive mouse odorant receptorsThe joy of sex pheromonesMinute Impurities Contribute Significantly to Olfactory Receptor Ligand Studies: Tales from Testing the Vibration TheoryConserved Residues Control Activation of Mammalian G Protein-Coupled Odorant Receptors.Copper is an endogenous modulator of neural circuit spontaneous activity.In Vitro Mutational and Bioinformatics Analysis of the M71 Odorant Receptor and Its Superfamily.Vibrationally assisted electron transfer mechanism of olfaction: myth or reality?Receptor-transporting protein (RTP) family members play divergent roles in the functional expression of odorant receptors.G protein-coupled receptor deorphanizations.Optical sensor arrays for chemical sensing: the optoelectronic nose.Metalloprotein design using genetic code expansion.Nature's chemical signatures in human olfaction: a foodborne perspective for future biotechnology.Chemical signals in terrestrial vertebrates: search for design features.Analogues of Dehydroacetic Acid as Selective and Potent Agonists of an Ectopic Odorant Receptor through a Combination of Hydrophilic and Hydrophobic Interactions.The role of metals in mammalian olfaction of low molecular weight organosulfur compounds.Nrp2 is sufficient to instruct circuit formation of mitral-cells to mediate odour-induced attractive social responses.Evidence for a shape-based recognition of odorants in vivo in the human nose from an analysis of the molecular mechanism of lily-of-the-valley odorants detection in the Lilial and Bourgeonal family using the C/Si/Ge/Sn switch strategy.QM/MM model of the mouse olfactory receptor MOR244-3 validated by site-directed mutagenesis experiments.Experimental evaluation of the generalized vibrational theory of G protein-coupled receptor activation.OR2M3: A Highly Specific and Narrowly Tuned Human Odorant Receptor for the Sensitive Detection of Onion Key Food Odorant 3-Mercapto-2-methylpentan-1-ol.Copper Signaling in the Brain and Beyond.A timeline of hydrogen sulfide (H2S) research: From environmental toxin to biological mediator.Live-cell Measurement of Odorant Receptor Activation Using a Real-time cAMP Assay.Molecular mechanism of activation of human musk receptors OR5AN1 and OR1A1 by (R)-muscone and diverse other musk-smelling compounds.Effects of inorganic mercury on the olfactory pits of zebrafish larvae.Structure-odour relationships reviewed in the postgenomic era
P2860
Q27024833-906FA159-1CB8-4284-A684-F1CAA6DE067DQ28260916-4FFBF1B4-097F-4567-9761-3E540B42E6ACQ28535286-E8FC2ABC-E4D2-441B-ADB2-27F995B42C4EQ28585626-5BE3A8A0-BEF5-4B1C-AF49-AE785CDDF1B8Q28662169-8106328A-F566-41F6-B923-C14F9D007247Q33851182-90579B3A-9FCC-4766-9C2D-F627A557046DQ34481420-B64E7228-18BA-48C6-B72A-50D1B19292D4Q34581319-13B04AFD-E880-4244-B767-359EB4A58C25Q35826146-40F82CB0-058D-450F-BAE3-C8BAE2BC0052Q36340759-A116FB5C-6A58-49C7-A566-1BD6D7449B31Q36394035-7DDEDC99-EF41-489C-816A-C335DA0ECE19Q38047341-F6B0139B-5AD2-401B-B43C-D650597876B5Q38148932-303C17CA-DAED-4A04-985B-CC907EA54D44Q38202013-5945C8F5-0CD9-40C7-A131-DF9FEB1EAA5EQ38221105-1CE2CD3B-A697-45A4-9BD6-9EE3EE16FB45Q38534625-D09C102A-4B6F-4193-9308-B0455BCB8253Q38712192-2C63230D-D2C1-4E02-B590-D39560F4ED81Q39283154-903ABB3F-DC1F-48BC-A81D-700240A87D4EQ41109938-406FF670-6511-4D3F-B20A-BE3EEEB0B414Q41200753-D7ED697A-A533-475E-B67A-F54E35B44173Q42866902-0576945A-97C8-4D44-9CDE-3DE2B9B95B0DQ44871577-5B31D4B5-97C0-4BFE-8547-E03ACA0DDFABQ46450555-8F04645C-C75A-4E6A-978F-2CE61378550BQ46766311-F3FA3A9B-EDCE-4956-A052-004A3705F2D2Q47762321-E256490A-66BB-499E-AAFA-077780BA2182Q47829694-4AEE86FE-767E-4B80-9882-380A5599229CQ52597866-0990C8F7-51CF-44E9-8637-E1A4B397043CQ54389683-FE3D65A2-EF24-410B-893F-BC7C40D6CDA6Q55950802-925B4835-96AE-4A27-B566-B722F15D4BD5
P2860
Crucial role of copper in detection of metal-coordinating odorants
description
2012 nî lūn-bûn
@nan
2012 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Crucial role of copper in detection of metal-coordinating odorants
@ast
Crucial role of copper in detection of metal-coordinating odorants
@en
Crucial role of copper in detection of metal-coordinating odorants
@nl
type
label
Crucial role of copper in detection of metal-coordinating odorants
@ast
Crucial role of copper in detection of metal-coordinating odorants
@en
Crucial role of copper in detection of metal-coordinating odorants
@nl
prefLabel
Crucial role of copper in detection of metal-coordinating odorants
@ast
Crucial role of copper in detection of metal-coordinating odorants
@en
Crucial role of copper in detection of metal-coordinating odorants
@nl
P2093
P2860
P356
P1476
Crucial role of copper in detection of metal-coordinating odorants
@en
P2093
Eric Block
Guo-Qiang Chen
Hanyi Zhuang
Hiroaki Matsunami
Jian Zhang
Minghong Ma
Shaozhong Zhang
Siji Thomas
Timothy Connelly
P2860
P304
P356
10.1073/PNAS.1111297109
P407
P50
P577
2012-02-10T00:00:00Z