ライフサイエンスコーパス: olfaction

1 pon inhalation through the nares (orthonasal olfaction).

2 g the epithelium upon exhalation (retronasal olfaction).

3 plays a role in early sensory processing in olfaction.

4 orco mutations should significantly impact olfaction.

5 cesses, including, as recently demonstrated, olfaction.

6 ng lipid metabolism, leukocyte migration and olfaction.

7 in a bird lineage that relies extensively on olfaction.

8 n differently affect appetite parameters and olfaction.

9 mechanism and functional logic for mammalian olfaction.

10 a and genes related to diet, metabolism, and olfaction.

11 larger integrated system of ortho-retronasal olfaction.

12 tum feeding, food reward (snack points), and olfaction.

13 nd changes that are consistent with enhanced olfaction.

14 ment newly offered up by vision, hearing and olfaction.

15 delayed or absent puberty and dysfunctional olfaction.

16 he latency of initial transduction events in olfaction.

17 elemental perceptual feature of odors in rat olfaction.

18 acterise structure-activity relationships in olfaction.

19 pid gains in our understanding of Drosophila olfaction.

20 ating the independence of this behavior from olfaction.

21 velopment of fins, tail, ear, eye, brain and olfaction.

22 humans, suggesting an indispensible role in olfaction.

23 owerful model system for studying vertebrate olfaction.

24 s, the most salient sensations are taste and olfaction.

25 urons are the primary sensory organelles for olfaction.

26 the nose, plays an important role in rodent olfaction.

27 to operate on principles inspired by canine olfaction.

28 erotonergic system outside of the context of olfaction.

29 rmine if these mice have similar deficits in olfaction.

30 mination and cortical pattern recognition in olfaction.

31 knowledge regarding why the disease impacts olfaction.

32 ey play roles in higher functions other than olfaction.

33 including autonomic dysfunction and impaired olfaction.

34 in the antennae and so could be involved in olfaction.

35 d molecular mechanisms that drive rhythms in olfaction.

36 e the understanding of the initial events in olfaction.

37 e on odor tracking by connecting feeding and olfaction.

38 memory without significantly affecting basal olfaction.

39 relationship between stimulus and percept in olfaction.

40 al electrical signal in mammalian vision and olfaction.

41 -year mortality among participants with poor olfaction.

42 , a major receptor family involved in insect olfaction.

43 ss information in these two submodalities of olfaction.

44 is of the 'one-neuron, one-receptor' rule of olfaction.

45 sory systems including vision, audition, and olfaction.

46 -gated channels are essential for vision and olfaction.

47 known, limiting mechanistic understanding of olfaction.

48 shapes principal neuron activity to regulate olfaction.

49 ng 2 questions: (1) What does AR do to human olfaction?

50 Sniffing serves olfaction [13, 14], while whisking synchronized to sniff

51 al cavity carried by the inhaled air, making olfaction a sense where animals can control the frequenc

52 e or dementia with Lewy bodies had decreased olfaction, a lesser chronotropic response to tilt, and a

53 In olfaction, a single sniff is sufficient for fine odor di

54 Here we propose that, in olfaction, a small and relatively stable set comprised o

55 In olfaction, a stereotyped map is evident in the first sen

56 Effects of ambient air pollution exposure on olfaction: a review.

57 re from existing methodologies in artificial olfaction, allows the recognition module to better mitig

58 ofessionals under two conditions: orthonasal olfaction alone and global tasting.

59 Olfaction also enables stimulus categorization and gener

60 inal projections onto regions concerned with olfaction and audition.

61 y is examined, with a particular emphasis on olfaction and current findings that olfactory function i

62 Olfaction and gustation play critical roles in the life

63 In particular olfaction and hearing may have played an important role

64 ity, bone remodeling, synaptic transmission, olfaction and hearing.

65 ers sharing overlapping features of impaired olfaction and hypogonadism.

66 ucosa, a site where the complex functions of olfaction and immunity need to be orchestrated.

67 s probably driven by increased resolution in olfaction and improvements in tactile sensitivity (from

68 No data were collected on change in olfaction and its relationship to mortality.

69 Machine olfaction and machine vision characterization provided a

70 of various origins were examined by machine olfaction and machine vision techniques.

71 Olfaction and other potential cues are not necessary.

72 argue that, despite the differences between olfaction and other sensory modalities, addressing these

73 s and fluid, to sensory inputs involved with olfaction and photoreception.

74 siological function of Hedgehog signaling in olfaction and provide an important evolutionary link bet

75 le in regulating many behaviors that rely on olfaction and recently there has been great effort in de

76 Mammalian olfaction and reproduction are tightly linked, a link le

77 dministration, followed by the assessment of olfaction and reward-driven snack intake in the absence

78 indicate that certain conditions that impact olfaction and sexual development, such as Kallmann syndr

79 Here, we show a combined effect of olfaction and social hierarchy on micturition patterns i

80 Olfaction and some forms of taste (including bitter) are

81 lutionary novelties for beak development and olfaction and specifically for homeostasis-related genes

82 redefine the role of sorption properties in olfaction and suggest that the peripheral olfactory syst

83 transmitters as well as the senses of sight, olfaction and taste.

84 ovide an important evolutionary link between olfaction and the requirement of a ciliary compartment f

85 Olfaction and thermoregulation are key functions for mam

86 odel to evaluate the specific role of MCs in olfaction and to test the restorative function of transp

87 lad over wild hosts, and whether the role of olfaction and vision in response to cues from host plant

88 s changes in some brain areas concerned with olfaction and voice perception consistent with sexual id

89 severe bladder/bowel dysfunction, preserved olfaction, and a cardiac chronotropic response upon tilt

90 he interactions between taste and retronasal olfaction, and a paradigm for enhancing liking of natura

91 antidepressant fluoxetine (FLX) on behavior, olfaction, and adult neurogenesis in the dentate gyrus (

92 evalent among genes associated with defense, olfaction, and among genes downstream of the Drosophila

93 mily, widely studied in insect gustation and olfaction, and are implicated in host-seeking by insect

94 al physiological roles in phototransduction, olfaction, and cardiac pace making.

95 an thus be used to better understand natural olfaction, and it also suggests ways to improve artifici

96 via coding changes is dominated by immunity, olfaction, and male reproduction.

97 nancy loss (uRPL) is associated with altered olfaction, and particularly altered olfactory responses

98 es in biological processes including vision, olfaction, and skin pigmentation.

99 blebee chemoreception towards gustation from olfaction, and striking differences in microRNAs, potent

100 g sequences of genes critical for cognition, olfaction, and thermotolerance, consistent with the obse

101 physically and/or chemically interfere with olfaction, and thus maintains the olfactory acuity of th

102 mory deficit, with no change in sociability, olfaction, anxiety, or several hippocampal-dependent beh

103 ys of non-specific biosensors for artificial olfaction applications.

104 Thus, key components of olfaction are expressed in the renal distal nephron and

105 nd suggest that impacts of neonicotinoids on olfaction are greater than their effects on rewarding me

106 However, the effects of 5-HT in olfaction are likely complicated, because multiple recep

107 Ortho- and retronasal olfaction are particularly crucial to flavor because the

108 rliest hypothesis of the role of sniffing in olfaction arises from the fact that odorants with differ

109 Mosquitoes use olfaction as a primary means of detecting their hosts.

110 neurons that have been implicated in normal olfaction as well as in Parkinson's disease.

111 ence of correlated transformations affecting olfaction as well as mastication, head movement, and ven

112 We examine interactions between taste and olfaction as well as psychophysical measurement limitati

113 odorant mixtures, "whiteness" may emerge in olfaction as well.

114 across the Neotropical army ants, then this olfaction-based ecological specialization may facilitate

115 enomic DNA, a model species for the study of olfaction-based navigation, and sequence OR gene-positiv

116 derives not from empirical studies of human olfaction but from a famous 19th-century anatomist's hyp

117 Pesticide exposure may impair olfaction, but empirical evidence is lacking.

118 It locates its human hosts primarily through olfaction, but little is known about the molecular basis

119 R) superfamily is best known for its role in olfaction, but virtually nothing is known about a clade

120 the limits of temporal resolution in insect olfaction by delivering high frequency odor pulses and m

121 factory epithelium and are thought to affect olfaction by enzymatic conversion of odorant molecules.

122 Electronic olfaction can be successfully used in the analysis of ed

123 interneurons, GH298 and krasavietz, leads to olfaction changes toward attraction or repulsion, while

124 In olfaction, changes in the concentration of a given odor

125 s, autonomic and psychiatric manifestations, olfaction, color vision, sleep parameters, and neurocogn

126 ine minerality scores only in the orthonasal olfaction condition, samples from the left being more mi

127 Understanding the molecular basis of insect olfaction could facilitate the development of interventi

128 As such, olfaction could have great potential as an early biomark

129 Galpha(olf) plays a role in olfaction, coupling D1 and A2a receptors to adenylyl cyc

130 ity, liver disease, retinal degeneration and olfaction defect in Bbs2-/- mice.

131 roxyurea (HU) treatment results in a loss of olfaction-dependent increase in yaw optomotor fidelity.

132 Olfaction depends on the differential activation of olfa

133 Olfaction depends on the selectivity and sensitivity of

134 pecies that primarily use other senses (e.g. olfaction, echolocation), and suppression was strongest

135 However, mechanisms underlying olfaction-emotion interaction remain unclear, especially

136 nt odor molecules; gene families involved in olfaction exhibit high diversity in different animal phy

137 In olfaction, experimentally measuring receptor responses t

138 hile TRPM8(-/-) females display an increased olfaction-exploratory behavior.

139 s, suggesting functionality of SiOBPs beyond olfaction Expression patterns of SiOBP subgroups also sh

140 Male flies deficient for olfaction failed to perform the locomotion-dependent son

141 sory neurons (OSNs), which are essential for olfaction (Figure 1).

142 an avian group which relies on the sense of olfaction for critical ecological functions.

143 Many species are critically dependent on olfaction for survival.

144 that was manipulated.SIGNIFICANCE STATEMENT Olfaction guides the behavior of animals.

145 cipants with good olfaction, those with poor olfaction had a 46% higher cumulative risk for death at

146 Although olfaction has a significant role in determining food fla

147 In contrast, research in olfaction has focused almost exclusively on how the nerv

148 Olfaction has often been described as a 'synthetic' sens

149 Although understanding of mosquito olfaction has progressed dramatically in recent years, m

150 e as early indicators of AD, with a focus on olfaction, hearing and vision.

151 Vision, olfaction, hearing, and balance are mediated by receptor

152 s and the endosseous labyrinth suggests that olfaction, hearing, and equilibrium were well-developed

153 as key biological sensors in vision, taste, olfaction, hearing, and touch.

154 Despite their importance in olfaction, how most Olfr mRNAs are regulated remains une

155 euronal stimulus selectivity in systems like olfaction, however, which lack a simple two-dimensional

156 under positive selection and are involved in olfaction, immune response, development, locomotion, and

157 wide variety of biological processes such as olfaction, immunity, and gene regulation.

158 faction in larvae to semiaquatic or airborne olfaction in adults requires anatomical, cellular, and m

159 gene family is absent from S. maritima, and olfaction in air is likely effected by expansion of othe

160 st the consequences of a loss of OR-mediated olfaction in an insect-plant relationship.

161 and examined a novel intervention to improve olfaction in ESRD.

162 eral horn, a region of the brain involved in olfaction in flies, has many more types of neurons than

163 These results highlight the importance of olfaction in human brain function, and provide an access

164 We therefore investigated olfaction in human subjects from families with congenita

165 We found severe defects in olfaction in individuals with CHD7 mutations and CHARGE,

166 The transition from aquatic olfaction in larvae to semiaquatic or airborne olfaction

167 lar and organizational strategies underlying olfaction in mice.

168 ates, motor sequence production in rats, and olfaction in mice.

169 Olfaction in most animals is mediated by neurons bearing

170 and recognition of conspecifics that rely on olfaction in most species.

171 Olfaction in particular depends strongly on active sensi

172 rogress has been made in the field of insect olfaction in recent years.

173 Olfaction in rodents provides an excellent modality for

174 erceptual boundaries through evolution, from olfaction in rodents to visual memory in humans.

175 ystem scaling in vertebrates, the primacy of olfaction in spatial navigation, even in visual speciali

176 lecular and cellular mechanisms underpinning olfaction in teleosts and mammals are similar despite 43

177 l variation and indicate the significance of olfaction in the regulation of reproductive decline duri

178 little is known about the cellular basis of olfaction in tsetse.

179 advantage in ordinary, non-body-odor-related olfaction in uRPL.

180 significance of this feedback mechanism for olfaction in vivo, we genetically mutated serine(1076) o

181 provided evidence for roles of the OT beyond olfaction, including in learning, motivated behaviors, a

182 s thought to play several important roles in olfaction, including maintaining the sparseness of respo

183 We find that major components of olfaction, including olfactory receptors (ORs), olfactor

184 itional, action-based perspective focuses on olfaction instead of on vision and is descriptive (descr

185 Here, we test the hypothesis that taste and olfaction interact in the nucleus of the solitary tract

186 emotional disorders, as exaggerated emotion-olfaction interaction in negative mood states turns inno

187 rs as the largest family of GPCRs catapulted olfaction into mainstream neurobiology.

188 Peripheral events in olfaction involve odorant binding proteins (OBPs) whose

189 often, indicating that increased reliance on olfaction is a behavioural strategy that mitigates decre

190 Olfaction is a key component of the multimodal approach

191 Olfaction is a key insect adaptation to a wide range of

192 ponents of odorant mixtures, suggesting that olfaction is a synthetic sense in which mixtures are per

193 The target article's emphasis on olfaction is a welcome reminder of the multimodal nature

194 Olfaction is an integral part of feeding providing predi

195 Poor olfaction is associated with higher long-term mortality

196 Phylogenetically the most ancient sense, olfaction is characterized by a unique intimacy with the

197 Poor olfaction is common among older adults and has been link

198 Olfaction is considered a distance sense; hence, aquatic

199 Olfaction is critical for survival in neonatal mammals.

200 Retronasal olfaction is crucial for the perception of food flavor i

201 Olfaction is crucial for the reproductive success of par

202 s in Chd7 deficient mice, suggesting reduced olfaction is due to a dysfunctional olfactory epithelium

203 Overall, OR-mediated olfaction is essential for foraging and pollination beha

204 Olfaction is fundamentally distinct from other sensory m

205 An intriguing question in the field of olfaction is how animals distinguish among structurally

206 Because olfaction is linked with ingestive behavior to guide foo

207 Olfaction is mediated by the binding of odorant molecule

208 nformation inherent in the olfactory signal, olfaction is more involved in interpreting space and tim

209 Whether olfaction is most suitable as a model system to study co

210 If instead the primary function of olfaction is navigation, i.e., predicting odorant distri

211 derive from assuming the primary function of olfaction is odorant discrimination and acuity.

212 The role of insulin pathways in olfaction is of significant interest with the widespread

213 completely overlooked, despite the fact that olfaction is one of the first sensory modalities to deve

214 Olfaction is one of the most crucial senses for vertebra

215 nitive and memory functions, but its role in olfaction is poorly understood.

216 taxa with short nonfeeding adults, in which olfaction is redundant.

217 The current consensus model in mammalian olfaction is that the detection of millions of odorants

218 For many insects, including mosquitoes, olfaction is the dominant modality regulating their beha

219 considered a distance sense; hence, aquatic olfaction is thought to be mediated only by molecules di

220 Olfaction is thought to play an important role in the ho

221 important goal in researching the biology of olfaction is to link the perception of smells to the che

222 It is well established that Drosophila olfaction is under circadian control, yet the mechanisms

223 g ability but it is unknown what the role of olfaction is when birds navigate freely without their se

224 In olfaction, just a few studies have addressed the issue o

225 The results imply that olfaction, like all other sensory modalities, requires a

226 processes spanning neural communication and olfaction, lipolysis, rest-activity cycles, and kinase p

227 espite the critical role of granule cells in olfaction, little is known about how sensory input recru

228 receptors (GPCRs), as well as the canonical olfaction machinery (Golf and AC3) in the smooth muscle

229 f substrate-enzyme interactions), but rather olfaction makes use of pattern recognition of the combin

230 , spatial orientation, memory retrieval, and olfaction may explain some of the common disturbances in

231 s in defining the basic mechanisms of insect olfaction may lead to means of disrupting host-seeking a

232 In addition, the unique percepts of olfaction may organize odorant information in a parallel

233 Thus, olfaction may serve as a useful biomarker to both follow

234 Finally, we show that olfaction mediates the efficient recognition of yeast as

235 anding our knowledge of the role of Kv1.3 in olfaction, metabolism, and axon targeting.

236 Here, we show that olfaction modulates reproductive timing and senescence t

237 ses were confirmed to result from retronasal olfaction: monitoring respiration revealed that exhalati

238 ur findings identify a role for the TAARs in olfaction, namely, in the high-sensitivity detection of

239 pid scramblases and ion channels involved in olfaction, nociception, and blood coagulation.

240 We investigated olfaction-nutrition associations in these participants a

241 rstanding of olfactory impairment and of the olfaction-nutrition axis in patients with kidney disease

242 We aimed to investigate the changes of olfaction of major depressive disorder (MDD) before and

243 We propose that, in addition to its role in olfaction, Olfr78 acts as a hypoxia sensor in the breath

244 The dependence of olfaction on inhalation also allows for profound modulat

245 the basis for the perceptual differences in olfaction or whether disease-specific or other entities,

246 ng in the Azores indicated a crucial role of olfaction over the open ocean, but left open the questio

247 ns (OBPs) are thought to involve in insects' olfaction perception.

248 s, communication at a distance by vision and olfaction, photosymbiosis, chemosymbiosis, suspension fe

249 important for transepithelial ion transport, olfaction, phototransduction, smooth muscle contraction,

250 nd physiology suggests that ortho-retronasal olfaction played a critical role at three stages of mamm

251 In insects, olfaction plays a crucial role in many behavioral contex

252 Olfaction plays a dominant role in the mate-finding and

253 therefore organized the crowd-sourced DREAM Olfaction Prediction Challenge.

254 phase analyte is produced through a reactive olfaction process, which is determined to include electr

255 Both ortho- and retronasal olfaction produce highly salient percepts, but the two p

256 generative diseases; yet how mechanistically olfaction regulates metabolic homeostasis remains unclea

257 le in alpaca feature fleece characteristics, olfaction-related and hypoxia adaptation traits.

258 iated genomic regions are highly enriched in olfaction-related genes, indicating a role of nuclear or

259 Olfaction relies on brain structures that are involved i

260 ate, their physiological functions in insect olfaction remain largely controversial in comparison to

261 et its effects on olfactory neurogenesis and olfaction remain unknown.

262 Nonetheless, its role in olfaction remains unclear.

263 the influence of taste (gustation) on odor (olfaction) remains essentially unknown.

264 iple measures of social interactions, social olfaction, repetitive behaviors, anxiety-related behavio

265 Olfaction requires both ligands for signaling and sensor

266 criminate odors in one breath, and mammalian olfaction research has thus focused on the first breath.

267 ients had reduced CSF amyloid Ass1-42, lower olfaction scores, higher depression scores and increased

268 d 10 distinct communication behaviours, with olfaction, scraping, and cheek rubbing the most frequent

269 In olfaction, sensory input activity is initially processed

270 r of the five major sensory systems (vision, olfaction, somatosensation, and audition) are thought to

271 n pangolins, reflecting their well-developed olfaction system.

272 tionnaires, quantitative sensory testing and olfaction testing during the in-clinic phase of the stud

273 Olfaction testing using the Sniffin'T test did not demon

274 vor is produced by the integration of taste, olfaction, texture, and temperature, currently thought t

275 In olfaction, the main question is whether habituation work

276 bility of genomic and genetic tools to study olfaction-the sense of smell-has brought important new i

277 pment was driven in part by ortho-retronasal olfaction; the bauplan for neocortex had higher-level as

278 Compared with participants with good olfaction, those with poor olfaction had a 46% higher cu

279 including locomotion, aversive learning and olfaction through at least four different 5-HT receptors

280 s in the nasal mucus, and they contribute to olfaction through various mechanisms.

281 ing a complete switch of calyx modality from olfaction to vision.

282 elective constraints on the thermoregulatory-olfaction trade-off in amphibious species.

283 re contains contradictory claims that insect olfaction uses cAMP, cGMP, or IP3 as second messengers;

284 tegration of at least three sensory systems: olfaction, vision and taste.

285 ion/translation, metabolism, detoxification, olfaction, vision, cuticle regulation, and immunity, and

286 of inputs from different sensory modalities (olfaction, vision, thermosensation), we conclude that th

287 n analyses of cause-specific mortality, poor olfaction was associated with higher mortality from neur

288 Olfaction was tested for all subjects in upright and 6 d

289 ive biochemistry and molecular mechanisms of olfaction, we have developed a mammalian expression syst

290 the relationship between gene expression and olfaction, we have performed cohort comparisons of anten

291 ons, relative-reinforcing value of food, and olfaction were measured at days 1 and 4.

292 ls to smell others' mouths and determine via olfaction what foods their conspecifics had chosen.

293 cilia, the essential signaling platform for olfaction, which alters the uniformity of responses in p

294 st to mammalian chemosensation or Drosophila olfaction, which are initiated by receptors composed of

295 ate disparate modalities, such as vision and olfaction, which are neither related by spatiotemporal s

296 verse resource allocation between vision and olfaction, which we consistently observe at the peripher

297 ce and worms leads to profound impairment in olfaction, while similar mutations in the fly show more

298 hose exhaustion contributes to the waning of olfaction with age.

299 xploit the unique functional neuroanatomy of olfaction with its ipsilateral stimulus processing to pe

300 trasonic vocalizations, but displayed normal olfaction, working and reference memory, motor abilities