ライフサイエンスコーパス: circuitry

1 y node in the brain's valuation and decision circuitry.

2 known about the maturation of mPFC-amygdala circuitry.

3 ation of grafted neurons into the host brain circuitry.

4 ays, indicating dysfunction in inner retinal circuitry.

5 newborn astrocytes for the aging hippocampal circuitry.

6 uron ablation to characterize the ciliomotor circuitry.

7 through two distinct cis elements in a gene circuitry.

8 jections determine their roles in functional circuitry.

9 or the refinement of the developing auditory circuitry.

10 ontribute to disorders with maladaptive fear circuitry.

11 ng them to both male-specific and sex-shared circuitry.

12 ), because of their central role in dopamine circuitry.

13 correct neuronal architecture and functional circuitry.

14 ementary digital devices for all-domain-wall circuitry.

15 appropriate integration into the hippocampal circuitry.

16 edonic 'hot spots' within the brain's reward circuitry.

17 of phenotypes and putatively affected neural circuitry.

18 icularly maternal bonding, depends on reward circuitry.

19 important to identify the underlying neural circuitry.

20 e functional integrity of the olfactory bulb circuitry.

21 cellular subsets are organized into distinct circuitry.

22 tained reinforcement, and activates striatal circuitry.

23 as a signature of the maturation of cortical circuitry.

24 g from developmental alterations in cortical circuitry.

25 ive motor control that rely on basal ganglia circuitry.

26 ng neurons that will participate in cortical circuitry.

27 evidence that tics engage the habit-learning circuitry.

28 te multimodal sensory information with SHELL circuitry.

29 netic experiments to map central respiratory circuitry.

30 examine the impact of DUP on corticostriatal circuitry.

31 ry signaling center within the basal ganglia circuitry.

32 e fully operated through the underlying CMOS circuitry.

33 and dysregulated prefrontal-cortex-amygdala circuitry.

34 about how new neurons interact with existing circuitry.

35 ces in excitatory and inhibitory (E/I) brain circuitry.

36 k, but it is not known where they fit in the circuitry.

37 ol to study the development of basal ganglia circuitry.

38 ible homology, between hippocampal and DD/DL circuitry.

39 al levels may be used to study brain arousal circuitry.

40 s and provide dendritic inhibition to the DG circuitry.

41 tered pattern of activation within the motor circuitry.

42 eedforward, as well as signaling interaction circuitry.

43 itecture of dendritic spines, in mouse brain circuitry.

44 feature that is controlled by central neural circuitry.

45 c strength in the mesocorticolimbic dopamine circuitry.

46 n be readily adapted for use with other gene circuitry.

47 s that control reproduction, using GABAergic circuitry.

48 ntial gut microbiota impacts on brain reward circuitry.

49 e typically excluded from models of striatal circuitry.

50 hidden alteration to the animals' patterning circuitry.

51 V1, and that output targets dictate local V1 circuitry.

52 ic genome innovations by rewiring regulatory circuitries.

53 electrically induced LTP recorded in intact circuitries.

54 r axonal tiling and assembly of serotonergic circuitries.

55 ise during the protracted maturation of this circuitry across childhood and adolescence.

56 In plants, this means how the genetic circuitry affects the cell wall.

57 neurons attain appropriate morphologies and circuitry after such tissue-disrupting lesions has not b

58 ssibly reflecting top-down engagement of the circuitry alongside altered reward processing in pain co

59 sed with SZ and thus might contribute to the circuitry alterations underlying cognitive dysfunction i

60 l tiling and global assembly of serotonergic circuitries and results in depression-like behaviors.

61 ammation and altered DAergic corticostriatal circuitry and behavior in patients with major depressive

62 ells, makes critical contributions to neural circuitry and brain function in both healthy and disease

63 ntal cell population, thereby defining novel circuitry and cellular actions for D3 receptors in PFC.S

64 These results define unique circuitry and cellular actions for D3 receptors in regul

65 potential causal links between DUP, striatal circuitry and clinical outcomes.

66 current work focuses on clarification of the circuitry and connectivity involved in this unique modul

67 timodal sensory feedback with vocal-learning circuitry and coordinate bilateral vocal behavior.

68 As time elapses after trauma, fear circuitry and dysphoric PTSD symptoms appear to emerge a

69 assay exploiting nucleic acid self-assembly circuitry and enzyme exonuclease III (Exo III) for the d

70 ion is a key component of the cone precursor circuitry and is thought to inactivate p53-mediated tumo

71 cubation of food craving alters brain reward circuitry and macronutrient composition specifically ind

72 the regulation of cognition, but the neural circuitry and molecular mechanisms underlying KOR-mediat

73 s can reflect different mechanisms of neural circuitry and neurodegeneration in normal and injured br

74 provide the foundation for modern integrated circuitry and novel materials discovery.

75 at dual targeting of the dopaminergic reward circuitry and pain pathways with a multifunctional opioi

76 tow et al. uncover cell-type-specific neural circuitry and pharmacology for appetite control within t

77 sly illuminates nigrostriatal and mesolimbic circuitry and shows no overlap, demonstrating that PRV t

78 SIGNIFICANCE STATEMENT: The neuronal circuitry and the biochemical pathways that control loca

79 ization of the organization of intrastriatal circuitry and their cortical and thalamic inputs.

80 up a multitude of applications in biomimetic circuitry and ultra-broadband imaging but polycrystallin

81 y regarded as controlled by different neural circuitry, and alternating between invoking them is thou

82 development and maintenance of proper brain circuitry, and has been implicated in neurodevelopmental

83 matergic signaling within the brain's reward circuitry, and support the hypothesis that regulators of

84 system, but its contributions to neural cell circuitry are largely uncharted.

85 lutamate signaling within the brain's reward circuitry are observed following withdrawal from several

86 RAB11a and RAB27b and their trafficking circuitry are simultaneously involved in UPEC expulsion.

87 rate that specific projections of the reward circuitry are uniquely susceptible to the effects of tol

88 Furthermore, they highlight this circuitry as a platform for therapeutic investigation in

89 so identified unique prefrontal and striatal circuitry as a putative marker of successful treatment a

90 s in a comparable general IOC-retina-TeO-IOC circuitry as the neognathous ION.

91 cannot be entirely attributed to subcortical circuitry as V1 lesions alter the fraction of responses

92 emaker activity that controls basal ganglia, circuitry associated with habitual and compulsive drug u

93 fective symptoms, BMI, and changes in neural circuitry at 12 months after surgery.

94 ed fixation circuitry interacts with pursuit circuitry at a subconscious level to inhibit pursuit.SIG

95 n line with the disturbed development of LSO circuitry, auditory processing was also affected in adul

96 , and the excitation-inhibition (E/I) neural circuitry balance.

97 ted, show an extensive overlap of regulatory circuitry between cell types including a network centere

98 e top-down input from cortical-basal ganglia circuitry biases this representation to enable context-s

99 at might involve dysfunction of brain reward circuitry (Body-Mass Index, Obesity) or dlPFC (Bipolar d

100 ing data, has yielded new insight into brain circuitry, bringing functional and effective networks in

101 ence of experience on genetically determined circuitry, but little is known about how experience and

102 rs hold great promise in the study of neural circuitry, but realizing their full potential depends on

103 ve led to a detailed diagram of V1 intrinsic circuitry, but this diagram lacks information about the

104 advantages in demonstrating scalable complex circuitry by a simply integrated weaving technology.

105 The presumptive added modulation of DLPFC circuitry by the thalamus in human may contribute to spe

106 integrated to produce the desired electronic circuitry by using an empty nozzle (in vacuum-on mode) t

107 Notably, this functional circuitry can be disrupted by the small-molecule kinase

108 These data show how prefrontal circuitry can dynamically control reward-seeking behavio

109 We hypothesize that DD/DL circuitry can implement the same pattern separation and

110 Therefore, we examined circuitry changes within this structure following nicoti

111 s that have characterized the core molecular circuitry, circuit design and spatiotemporal dynamics.

112 experimentally verified core gene regulatory circuitry, composed of a small set of important elements

113 Our data demonstrate that the circuitry containing VLS D2-MSNs control motivated behav

114 rgic neurons is a key signaling event in the circuitry controlling goal-directed behavior.

115 Cone precursor-specific circuitry cooperates with pRB loss to initiate this proc

116 The mesolimbic dopamine (DA) circuitry determines which behaviors are positively rein

117 Thus, the transcriptional circuitry directing IL-17 expression inhibits cytotoxic

118 macological manipulations of RA's inhibitory circuitry drove large shifts in learned vocal features,

119 d optical intervention for dissecting neural circuitry during behavior.

120 y plays a critical role in the refinement of circuitry during postnatal development and may be disrup

121 LPFC/BA25 linking affective and motivational circuitry dysfunction in MDD.

122 Primary motor circuitry encodes a core syllable representation that co

123 esponses in humans and contrasted the neural circuitry engaged by these two processes.

124 Overall, its extensive circuitry-especially the reciprocal connectivity with ot

125 e that an HP1gamma/miR-451a/c-Myc regulatory circuitry exists in PCa cells and this circuit has a cru

126 therapies may alleviate deficits in the same circuitry for certain mental computations but not for ot

127 Focusing on a priori selected circuitry for RSFC analyses, increased RSFC was observed

128 t nucleic acid nanostructure-based molecular circuitry for synthetic biology.

129 nserved role in mediating a phosphoregulated circuitry for the control of recombinational DNA repair.

130 s protected synaptic plasticity and neuronal circuitry from the effects of stress via a modulation of

131 ies, baseline differences in corticothalamic circuitry function were associated with mediated IC and

132 rity with cell cycle regulation, and uncover circuitry governing antifungal drug resistance.Cas5 is a

133 s, a thorough understanding of the molecular circuitry governing cardiac myocyte cell cycle regulatio

134 ite its clear clinical relevance, the neural circuitry governing the maladaptive persistence of anxie

135 However, the function of this circuitry has not yet been explored in humans with chron

136 in vivo insights into noradrenergic arousal circuitry have been constrained by the fundamental inacc

137 ting D2 (but not D1) modulation of PFC-->BLA circuitry impaired adjustments in decision biases in res

138 that would allow normalization of prefrontal circuitry in addiction.

139 , activated brain regions involved in reward circuitry in both control and CES groups.

140 balance of axodendritic and dendrodendritic circuitry in external tufted cells and mitral cells, res

141 to the ventral lateral PFC (vlPFC) and local circuitry in MDD.

142 strong synaptic depression, dendrodendritic circuitry in mitral cells produces robust amplification

143 NA hydroxymethylation, in the brain's reward circuitry in modulating stress responses in mice.

144 ciated with altered brain function in reward circuitry in neurotypical adults and may increase risk f

145 exert a powerful influence over spinal cord circuitry in pathological pain likely via modulation of

146 re, we examined the role of amygdala-related circuitry in the amplification and narrowing of motivati

147 Neural circuitry in the lumbar spinal cord governs two principa

148 Cell number plasticity is coupled to circuitry in the nervous system, adjusting cell mass to

149 Coordinated activity of neural circuitry in the primate dorsolateral prefrontal cortex

150 How the local circuitry in this region facilitates odor-specific outpu

151 trolled by a highly interconnected molecular circuitry in which the virulence machinery directly sens

152 al regulation of most of the core signalling circuitry including Shh, Wnt, Hippo, PI3K and MAPK pathw

153 ry impairments, depend on distributed neural circuitry including the dorsolateral prefrontal cortex (

154 neurons play an important role in prefrontal circuitry, integrating inputs from both lower brain regi

155 a translational tool to study complex brain circuitry interactions and their pathology due to neurol

156 he results suggest that potentiated fixation circuitry interacts with pursuit circuitry at a subconsc

157 or representations are transformed by bulbar circuitry into secondary representations based on princi

158 riangular sensory-prefrontal-cortex-amygdala circuitry: intrinsic sensory hyperactivity and disinhibi

159 ntity of the specific MePD neurons or neural circuitry involved in Meth-induced increases in procepti

160 hanges through modulation of corticostriatal circuitry involved in reinforcement learning and motivat

161 Addictive substances elicit changes in brain circuitry involved in reward, cognition, and emotional s

162 To delineate the circuitry involved in the two types of orienting behavio

163 ulin production is orchestrated by a complex circuitry involving intracellular elements including cyc

164 ally interconnected network of reinforcement circuitry is emerging: it includes afferents to the vent

165 may drive changes in DAergic corticostriatal circuitry is inflammation.

166 nt preparation, when gamma activity in motor circuitry is known to increase.

167 characterized, the top-down control of this circuitry is less well understood.

168 This slow remodeling of corticostriatal iSPN circuitry is likely to play a role in mediating the dela

169 rons implicates that OT regulation of reward circuitry is more complex than a direct action on DA neu

170 These results imply that local circuitry is not a major contributor to gamma oscillatio

171 The results suggest that the neural fixation circuitry is potentiated by engaging stationary objects,

172 The underlying circuitry is useful for understanding important topics s

173 dopamine, a key component of reward-related circuitry, is also implicated in effort learning.

174 area (VTA), a key node of the brain's reward circuitry, is necessary to elicit social reward.

175 (GM), a key primordium for the brain reward circuitry, is unique among brain regions for its distinc

176 activate and modulate the limb-moving lumbar circuitry, it is important to clarify the functional org

177 ly, introducing upstream PTBP1 sites to this circuitry leads to a potent splicing repression accompan

178 s that at a behavioral and underlying neural circuitry level these deficits exist on a continuum (as

179 These differences in inhibitory circuitry likely underlie the distinctive network dynami

180 nabled high-precision interrogation of brain circuitry linked with REM sleep control, in turn reveali

181 Here we decipher the ascending circuitry linking adrenoceptor-activated sacral CPGs and

182 w, descriptions of how light-adapted retinal circuitry maintains a preponderance of signal over the n

183 tionary conservation of the vestibulo-ocular circuitry makes it likely that a similar motoneuronal or

184 Understanding the underlying neural circuitry may help to develop therapies for those suffer

185 s indicate that variation in corticostriatal circuitry may play a role in the relationship between lo

186 after surgery, as well as changes in neural circuitry (measured with PET imaging of cerebral glucose

187 survival that is leveraged by an interclonal circuitry mechanism established by intratumoral mutation

188 We demonstrate that the circuitry mediating "simple" associative learning can al

189 thy humans, we then characterized the neural circuitry mediating these effects.

190 An olfactory circuitry model suggests that cortical feedback on OB in

191 The neural circuitry necessary for context-driven salt-seeking beha

192 in infralimbic cortex-medial dorsal thalamus circuitry observed after stress reflect a compensatory m

193 he example of social behavior and the neural circuitry of aggression.

194 thin different sites of the vestibulo-spinal circuitry of behaving macaque monkeys during temporally

195 dependent IDH3) contribute to regulating the circuitry of central metabolism.

196 Human-specific regulatory circuitry of DLX5 might help explain certain aspects of

197 isofrequency axes) is reflected in the local circuitry of excitatory inputs to Layer 3 pyramidal neur

198 ala, a key brain area involved in the neural circuitry of fear and anxiety.

199 e heterogeneity and the post-transcriptional circuitry of gene expression.

200 ry are processed somewhat differently in the circuitry of hippocampal subregions but become fully int

201 tely only half as many synapses to the local circuitry of L4 in M1 compared with S1.

202 tructural basis for understanding the neural circuitry of larval vision.

203 acetylcholine receptors (nAChRs) within the circuitry of the auditory thalamus (medial geniculate bo

204 The circuitry of the brain is characterized by cell heteroge

205 Instead, the circuitry of the claustrum suggests an integration of co

206 that loss of TDP-43 can disrupt the central circuitry of the CNS, opening up identification of alter

207 urons, suggest that principal neurons in the circuitry of the medial prefrontal cortex are altered in

208 lant connectivity is largely dictated by the circuitry of the target region and depict rabies-based t

209 The precise underlying circuitry of this cholinergic input to the main olfactor

210 unctional repertoire of AKT, and the complex circuitry of this dynamically branching and looping sign

211 s in the main olfactory bulb but the precise circuitry of this input is not known.

212 We found that the dopaminergic reward circuitry of zebra finches can simultaneously promote so

213 Similar local circuitry operates in the olfactory, visual, and auditor

214 errant amplification of type I IFN signaling circuitry, otherwise triggered by its own product.

215 ayers are fabricated on top of silicon logic circuitry, our nanosystem is compatible with existing in

216 confused applications: inferring neuron type circuitry, predicting synaptic contacts among individual

217 ciated to AD-RSB interaction; and with brain circuitries previously implicated in the inhibition of r

218 ells (GCs) are fundamental to retinal neural circuitry, processing photoreceptor signals for transmis

219 ion, in concert with recurrent intracortical circuitry, produces tactile suppression.

220 In the well-mapped Drosophila olfactory circuitry, projection neurons (PNs) relay peripheral sen

221 re, optogenetic stimulation of mPOA(Nts)-VTA circuitry promotes rewarding phenotypes, social approach

222 cally determined properties of mushroom body circuitry (random connectivity [7], sparse coding [8], a

223 vel insights into mechanisms by which sacral circuitry recruits lumbar flexors, and enhances the moto

224 on transplants integrate within the existing circuitry, reduce hippocampal hyperactivity and normaliz

225 logically removing horizontal cells from the circuitry reduced the sensitivity of the cone signal to

226 Determining lineage-circuitry relationships is essential for deciphering the

227 depends on structured changes to inhibitory circuitry remains unclear.

228 P activity and NgR1 shedding could stimulate circuitry remodeling in the adult brain and enhance func

229 However, while the subcortical circuitry responsible for processing and expression of f

230 The underlying circuitry responsible for the response properties of sim

231 ll examine the organization of intrastriatal circuitry, review recent findings in this area, and disc

232 A recent study of olfactory neural circuitry shows that decreased lateral inhibition onto p

233 s part of the general performance-monitoring circuitry.SIGNIFICANCE STATEMENT Contrary to traditional

234 ay of sensory and motor signals processed in circuitry similar to that of the cerebellum.

235 Synthetic silicon-based circuitry similarly relies on spatial constraints to pro

236 To examine associations between IC neural circuitry structure and function and lapse/relapse vulne

237 In particular, the neural circuitry substrate for working memory in primates invol

238 apable of restoring complex morphologies and circuitry, suggesting that complex visual functions may

239 ortioxetine has direct effects on the neural circuitry supporting cognitive function that can be diss

240 ns for the neural locus of the cone-specific circuitry supporting color vision.

241 structural alterations in corticocerebellar circuitry supporting core functions related to the basic

242 riminately, implying that the cone-selective circuitry supporting red-green color vision emerges afte

243 two reciprocally connected key nodes in the circuitry supporting such outcome-guided behaviors.

244 lt during which maladaptation of hippocampal circuitries takes place.

245 the Gfi1-Foxo1 axis and the transcriptional circuitry that actively maintain DP identity and shape t

246 rs to deliver new types of RNA-based genetic circuitry that allow for sophisticated and temporal cont

247 rated by cells to induce the transcriptional circuitry that controls morphogenesis.

248 subtle alterations in the underlying retinal circuitry that could help identify disease before irreve

249 (SNc) dopamine neurons are a key node in the circuitry that drives addiction and relapse, yet cocaine

250 Here we define circuitry that enables the fungal pathogen Candida albic

251 some information is known about the afferent circuitry that endogenously drives this neural activity

252 However, the molecular signaling circuitry that enforces this hyporesponsiveness is undef

253 t working memory depends, in part, on neural circuitry that includes pyramidal cells in layer 3 (L3)

254 tion can be achieved through simple neuronal circuitry that is biologically plausible and can easily

255 The precise neural circuitry that mediates arousal during sleep apnea is no

256 unctional connectivity of cone inputs to the circuitry that mediates lateral inhibition is not cone-t

257 ard's impact on vision is mediated by unique circuitry that modulates sensory processing, selectively

258 that familiarity signals through unique IPN circuitry that opposes novelty seeking to control NP.

259 photosensitive epilepsy is engagement of the circuitry that produces gamma oscillations.

260 triggering a phosphorylation-ubiquitylation circuitry that promotes ATR activation and HR.

261 ults demonstrate a CRY-BIC negative-feedback circuitry that regulates the activity of each other.

262 int to highlight the aspects of mouse visual circuitry that remain opaque and that are in need of add

263 ophrenia-associated alterations in-the DLPFC circuitry that subserves working memory could provide ne

264 adult CNS may preserve the existing neuronal circuitry that takes years to develop in higher organism

265 S is an obligatory component of the neuronal circuitry that transforms breaths into calls.

266 mygdala is a central component of the neural circuitry that underlies fear learning.

267 positive emotions for >130 years, the neural circuitry that underlies this relationship is poorly und

268 physiological alterations in limbic striatal circuitry that vary as a function of dopaminergic tone a

269 describes the assembly of electronic control circuitry, the construction of liquid-handling component

270 Injury of CNS nerve tracts remodels circuitry through dendritic spine loss and hyper-excitab

271 our findings reveal a key lncRNA epigenetic circuitry through interaction with chromatin-modifying c

272 re, we demonstrate physically reconfigurable circuitry through light-induced dielectrophoresis on lit

273 gnificance in health and disease, the neural circuitry through which mPFC regulates reward seeking re

274 ) play a fundamental role in the attentional circuitry throughout the mammalian CNS.

275 The ciliomotor circuitry thus constitutes a stop-and-go pacemaker syste

276 nd coalesce multiple subcellular trafficking circuitries to combat infections.

277 Thus, chronic pain can disrupt cortical circuitry to enhance the aversive experience in a genera

278 ls to adjust the activity of hard-wired gene circuitry to expand phytochemical diversity and alter th

279 on is that the retina and brain have evolved circuitry to extract useful spatial and spectral informa

280 g proteins are required within the OA neural circuitry to inhibit interspecies and conspecific male-m

281 ater, requiring anatomical changes in neural circuitry to support the development of coordinated acti

282 various brain injuries can predispose neural circuitry to the development of chronic inhibition defic

283 his work, the combination of simple analogue circuitry together with powerful microcontrollers and a

284 stigated the nature of disruptions in neural circuitry underlying cognitive control capacities across

285 one (SEZ) of the Drosophila brain houses the circuitry underlying feeding behavior and is involved in

286 repetition suppression to examine the neural circuitry underlying generalized group categorization-th

287 as promising models to dissect the neuronal circuitry underlying transformation-tolerant recognition

288 ependent, cell-type-specific control over BA circuitry via 5-HT and glutamate co-release to inhibit t

289 Our findings reveal that neural circuitry, via mosaic innervation of the V-SVZ, can recr

290 on the anatomy of the entorhinal-hippocampal circuitry, we constructed a model of place and grid cell

291 explicit, multiscale model of olfactory bulb circuitry, we here demonstrate that an inhibition-couple

292 he compatibility with common microelectronic circuitry, we implemented the antiferromagnetic bit cell

293 s new inhibitory granule cells into existing circuitry, we isolated the development of sensory maps f

294 Global organizing principles of this circuitry were examined with network analysis tools appl

295 blind retina by utilizing intrinsic retinal circuitry, which may be advantageous for restoring visua

296 we connected miRNAs into the transcriptional circuitry, which provides a valuable source for understa

297 the optogenetic manipulation of hippocampal circuitry with light.

298 provide pharmacological modulation of brain circuitry with remarkable precision.

299 oral precision within intact mammalian brain circuitry would enable powerful explorations of how neur

300 s a conserved modulator of vertebrate neural circuitry, yet our knowledge of its role in peripheral a