scholarly article | Q13442814 |
P50 | author | Linda B. Buck | Q200136 |
Luis R. Saraiva | Q56088376 | ||
P2093 | author name string | Xiaolan Ye | |
Kiyomitsu Nara | |||
P2860 | cites work | The human olfactory receptor gene family | Q24312045 |
RTP family members induce functional expression of mammalian odorant receptors | Q24315887 | ||
A pharmacological profile of the aldehyde receptor repertoire in rat olfactory epithelium | Q24678047 | ||
Volatile organic compounds from feces and their potential for diagnosis of gastrointestinal disease | Q24734669 | ||
A novel multigene family may encode odorant receptors: a molecular basis for odor recognition | Q28276183 | ||
A second class of chemosensory receptors in the olfactory epithelium | Q28507536 | ||
Molecular bases of odor discrimination: Reconstitution of olfactory receptors that recognize overlapping sets of odorants | Q28592769 | ||
Combinatorial receptor codes for odors | Q29616773 | ||
Visualizing an olfactory sensory map | Q29616849 | ||
Cortical representations of olfactory input by trans-synaptic tracing. | Q30499395 | ||
SR1, a mouse odorant receptor with an unusually broad response profile | Q33636612 | ||
Odor response properties of rat olfactory receptor neurons | Q33866088 | ||
Parallel-distributed processing in olfactory cortex: new insights from morphological and physiological analysis of neuronal circuitry | Q34289113 | ||
Comparative evolutionary analysis of olfactory receptor gene clusters between humans and mice | Q34395200 | ||
Ric-8B promotes functional expression of odorant receptors | Q34695091 | ||
Information coding in the olfactory system: evidence for a stereotyped and highly organized epitope map in the olfactory bulb | Q34719615 | ||
Topographic organization of sensory projections to the olfactory bulb | Q34725688 | ||
Spatial segregation of odorant receptor expression in the mammalian olfactory epithelium | Q34729513 | ||
Longevity genes in the nematode Caenorhabditis elegans also mediate increased resistance to stress and prevent disease. | Q34757207 | ||
Precision and diversity in an odor map on the olfactory bulb | Q34924340 | ||
Genes and ligands for odorant, vomeronasal and taste receptors | Q35701090 | ||
The mouse olfactory receptor gene family | Q36605181 | ||
Odorant receptor expression defines functional units in the mouse olfactory system. | Q38290347 | ||
Odor maps in the mammalian olfactory bulb: domain organization and odorant structural features | Q38307890 | ||
A zonal organization of odorant receptor gene expression in the olfactory epithelium | Q38319363 | ||
Microbial metabolites of tryptophan in the intestinal tract with special reference to skatole, | Q39784541 | ||
Synergism of accessory factors in functional expression of mammalian odorant receptors | Q40154070 | ||
Odor coding by a Mammalian receptor repertoire | Q42622226 | ||
The predator odor, TMT, displays a unique, stress-like pattern of dopaminergic and endocrinological activation in the rat. | Q42625477 | ||
Symmetry, stereotypy, and topography of odorant representations in mouse olfactory bulbs. | Q43540483 | ||
The olfactory receptor gene superfamily of the mouse | Q43861041 | ||
The pattern of brain c-fos mRNA induced by a component of fox odor, 2,5-dihydro-2,4,5-trimethylthiazoline (TMT), in rats, suggests both systemic and processive stress characteristics | Q45089920 | ||
Feedback loops link odor and pheromone signaling with reproduction | Q46805992 | ||
Innate versus learned odour processing in the mouse olfactory bulb | Q46909640 | ||
Ultrasensitive pheromone detection by mammalian vomeronasal neurons | Q59066274 | ||
Tuning specificities to aliphatic odorants in mouse olfactory receptor neurons and their local distribution | Q72647121 | ||
P433 | issue | 25 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 9179-9191 | |
P577 | publication date | 2011-06-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | A large-scale analysis of odor coding in the olfactory epithelium | |
P478 | volume | 31 |
Q38789681 | 'Smelling' the cerebrospinal fluid: olfactory signaling molecules are expressed in and mediate chemosensory signaling from the choroid plexus |
Q36019690 | A broadly tuned mouse odorant receptor that detects nitrotoluenes |
Q34809247 | A cleavable N-terminal signal peptide promotes widespread olfactory receptor surface expression in HEK293T cells |
Q42329819 | A single identified glomerulus in the zebrafish olfactory bulb carries the high-affinity response to death-associated odor cadaverine. |
Q92488463 | A transcriptomic atlas of mammalian olfactory mucosae reveals an evolutionary influence on food odor detection in humans |
Q36106468 | Agonists for 13 trace amine-associated receptors provide insight into the molecular basis of odor selectivity |
Q51369292 | Are mammal olfactory signals hiding right under our noses? |
Q52640940 | Carbon chain shape selectivity by the mouse olfactory receptor OR-I7. |
Q30809354 | Coding odor identity and odor value in awake rodents |
Q37183735 | Combinatorial effects of odorants on mouse behavior |
Q42064298 | Complex and non-redundant signals from individual odor receptors that underlie chemotaxis behavior in Drosophila melanogaster larvae |
Q35737318 | Databases in SenseLab for the genomics, proteomics, and function of olfactory receptors |
Q27300747 | Deciphering the Receptor Repertoire Encoding Specific Odorants by Time-Lapse Single-Cell Array Cytometry. |
Q58476020 | Encoding odorant mixtures by human olfactory receptors |
Q38221958 | From molecule to mind: an integrative perspective on odor intensity |
Q83232151 | Front-end Weber-Fechner gain control enhances the fidelity of combinatorial odor coding |
Q54485939 | Functional reconstitution of olfactory receptor complex on baculovirus. |
Q36769878 | General olfactory sensitivity database (GOSdb): candidate genes and their genomic variations |
Q34659037 | Glomerular input patterns in the mouse olfactory bulb evoked by retronasal odor stimuli |
Q36376349 | Hierarchical deconstruction of mouse olfactory sensory neurons: from whole mucosa to single-cell RNA-seq |
Q37353078 | High-affinity olfactory receptor for the death-associated odor cadaverine. |
Q36576721 | How does your kidney smell? Emerging roles for olfactory receptors in renal function |
Q34395586 | Identification and characterization of novel renal sensory receptors. |
Q43171985 | Identification of agonists for a group of human odorant receptors. |
Q28541819 | Identification of odorant-receptor interactions by global mapping of the human odorome |
Q30404810 | Identification of pyridine analogs as new predator-derived kairomones |
Q28260916 | Implausibility of the vibrational theory of olfaction |
Q28585626 | In vivo identification of eugenol-responsive and muscone-responsive mouse odorant receptors |
Q57898814 | Insect olfaction and the evolution of receptor tuning |
Q93177229 | Interspecific variation of olfactory preferences in flies, mice, and humans |
Q92941453 | Is It Possible to Predict the Odor of a Molecule on the Basis of its Structure? |
Q47829694 | Live-cell Measurement of Odorant Receptor Activation Using a Real-time cAMP Assay. |
Q42363607 | Mammalian odorant receptor tuning breadth persists across distinct odorant panels |
Q35027325 | Mammalian pheromones |
Q34921623 | Mating increases neuronal tyrosine hydroxylase expression and selectively gates transmission of male chemosensory information in female mice |
Q47955089 | Mechanisms underlying odorant-induced and spontaneous calcium signals in olfactory receptor neurons of spiny lobsters, Panulirus argus |
Q52597866 | Molecular mechanism of activation of human musk receptors OR5AN1 and OR1A1 by (R)-muscone and diverse other musk-smelling compounds. |
Q28607243 | Molecular profiling of activated olfactory neurons identifies odorant receptors for odors in vivo |
Q58171688 | Molecular recognition in olfaction |
Q21090800 | Molecular vibration-sensing component in human olfaction |
Q28080586 | Monoallelic expression of olfactory receptors |
Q36586633 | Neural coding of binary mixtures in a structurally related odorant pair |
Q46450555 | 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. |
Q34049155 | Olfactory receptors in non-chemosensory tissues |
Q34222373 | Olfactory sensitivity and odor structure-activity relationships for aliphatic carboxylic acids in CD-1 mice |
Q27027234 | Pathogens penetrating the central nervous system: infection pathways and the cellular and molecular mechanisms of invasion |
Q28486122 | Phosphoinositide 3-kinase dependent inhibition as a broad basis for opponent coding in Mammalian olfactory receptor neurons |
Q54957983 | Pleasantness and trigeminal sensations as salient dimensions in organizing the semantic and physiological spaces of odors. |
Q28480505 | Quality coding by neural populations in the early olfactory pathway: analysis using information theory and lessons for artificial olfactory systems |
Q59043404 | Quantum Calculation for Musk Molecules Infrared Spectra towards the Understanding of Odor |
Q35756407 | Receptive range analysis of a mouse odorant receptor subfamily |
Q47995906 | Recognition of the Component Odors in Mixtures |
Q91784144 | Recognizing Taste: Coding Patterns Along the Neural Axis in Mammals |
Q39167201 | Regulatory Features for Odorant Receptor Genes in the Mouse Genome |
Q51315719 | Responses to sulfated steroids of female mouse vomeronasal sensory neurons. |
Q36354912 | Responsiveness of G protein-coupled odorant receptors is partially attributed to the activation mechanism |
Q34612222 | Saccharomyces cerevisiae mitochondria are required for optimal attractiveness to Drosophila melanogaster |
Q34349739 | Sensing marine biomolecules: smell, taste, and the evolutionary transition from aquatic to terrestrial life |
Q58193499 | Single compounds elicit complex behavioural responses in wild, free-ranging rats |
Q60927510 | Spheroid Culture of Mammalian Olfactory Receptor Neurons: Potential Applications for a Bioelectronic Nose |
Q38705886 | Structural determinants of a conserved enantiomer-selective carvone binding pocket in the human odorant receptor OR1A1. |
Q39263303 | Taste and smell in aquatic and terrestrial environments |
Q38105770 | Temporal processing in the olfactory system: can we see a smell? |
Q51286081 | The Broadly Tuned Odorant Receptor OR1A1 is Highly Selective for 3-Methyl-2,4-nonanedione, a Key Food Odorant in Aged Wines, Tea, and Other Foods. |
Q88250904 | The Scent of the Fly |
Q36762219 | The extremely broad odorant response profile of mouse olfactory sensory neurons expressing the odorant receptor MOR256-17 includes trace amine-associated receptor ligands |
Q39283154 | The role of metals in mammalian olfaction of low molecular weight organosulfur compounds. |
Q28658227 | The state of the art of odorant receptor deorphanization: a report from the orphanage |
Q90408035 | Tracking traumatic head injuries with the chemical senses |
Q41872441 | Why do axons differ in caliber? |
Search more.