ライフサイエンスコーパス: brain function

1 ined synapses is essential for understanding brain function.

2 processes are critically required for normal brain function.

3 o individualize faces is a fundamental human brain function.

4 tone for instructing computational models of brain function.

5 ontrols the Neurexin2 AS4 exon important for brain function.

6 ed to support both segregated and integrated brain function.

7 s it is meaningful to first study unimpaired brain function.

8 nd to play a role in normal and pathological brain function.

9 is thought to underlie flexible and optimal brain function.

10 ses implicit in mathematical descriptions of brain function.

11 sponses, but in ageing can negatively affect brain function.

12 connectomics in understanding principles of brain function.

13 quire a phenotype that may negatively affect brain function.

14 that the lack of Nrf2 has a global effect on brain function.

15 he neural architectures that support optimal brain function.

16 f an interaction that is crucial for optimal brain function.

17 ophic factor (BDNF) are highly convergent on brain function.

18 or brain development and neural networks for brain function.

19 currently dedicated to the understanding of brain function.

20 f neurotransmitters in normal and pathologic brain function.

21 ckness behaviors, which arise via changes in brain function.

22 he brain and networks of neurons that encode brain function.

23 mical targets to study normal and pathologic brain function.

24 nnectivity is essential toward understanding brain function.

25 s to earlier occurring widespread changes in brain function.

26 nd axons by oligodendrocytes are crucial for brain function.

27 ual neurons and neuronal networks for proper brain function.

28 rs of synapses that are essential for normal brain function.

29 y, making them a useful species for studying brain function.

30 n regulating innate immunity and influencing brain function.

31 signaling specifies normal and pathological brain function.

32 port an essential role for the BCAA in human brain function.

33 neocortical areas is essential for mammalian brain function.

34 ransition between these alternative modes of brain function.

35 resting-state measurements for understanding brain function.

36 otransmitter release are critical for proper brain function.

37 ative and potentially interactive effects on brain function.

38 status (SES) predict changes in risk-related brain function.

39 them are fundamental steps for understanding brain function.

40 rmine whether oxidized KCNB1 channels affect brain function.

41 ly sensory experience in permanently shaping brain function.

42 s that could experimentally manipulate human brain function.

43 lipid levels, which may independently affect brain function.

44 hnique, developed to non-invasively modulate brain function.

45 ogy is whether ApoE is necessary for healthy brain function.

46 Cdk5 signing, which is crucial for postnatal brain function.

47 of neuronal oscillations in the emergence of brain function.

48 acemaker ion channels critical for heart and brain function.

49 eurons and neuronal networks to allow proper brain function.

50 specificity of knowledge obtained regarding brain function.

51 ptive changes in neural circuits that impair brain function.

52 res are prerequisites for studying mammalian brain function.

53 of neural population activity gives rise to brain function.

54 arious neuronal processes that contribute to brain function.

55 orphology and density is critical for normal brain function.

56 intrinsic and task-evoked characteristics of brain function.

57 ver much physiology relevant to the study of brain function.

58 king for a complex impact of season on human brain function.

59 optical imaging is critical to understanding brain function.

60 evidence that ZC3H14 is essential for proper brain function.

61 transcription of genes that are critical for brain function.

62 ildhood violence victimization have impaired brain function.

63 ating, via optogenetics, the fundamentals of brain function.

64 o contribute to the remarkable plasticity of brain function.

65 ion in spike timing actually plays a role in brain function.

66 ion of cellular DISC1 in neurons is vital to brain function.

67 e potential to result in permanent damage to brain function.

68 populous glial subtype and are critical for brain function.

69 volume in other brain pathologies and normal brain function.

70 anding of how environmental toxicants affect brain function.

71 Cholesterol is important for normal brain function.

72 are necessary for studying the mechanisms of brain function.

73 ervous system and are critically involved in brain function.

74 of fine-tuned presynaptic control in normal brain function.

75 asingly important role in maintaining normal brain function.

76 izing NO play major roles in many aspects of brain function.

77 distributed activity patterns that underlie brain function.

78 defined cells that participate in a specific brain function.

79 in, and mutations in AKT are known to affect brain function.

80 bolic diseases, such as diabetes and altered brain function.

81 rs (GPCRs) play critical roles in regulating brain function.

82 bcortical structures play a critical role in brain function.

83 including these cell types for investigating brain functions.

84 endrocytes which is crucial for the powerful brain functions.

85 on-invasive tool to study and modulate human brain functions.

86 crucial for neuronal development and complex brain functions.

87 ms for understanding basic as well as higher brain functions.

88 oduced by glial cells in the CNS to regulate brain functions.

89 e profound influence of stress in regulating brain functions.

90 1A receptors which are implicated in various brain functions.

91 ying neurobiological basis shared with other brain functions.

92 stral raphe, which participate in high-order brain functions.

93 increasingly recognized as major players in brain functions.

94 TA) are involved in a variety of fundamental brain functions.

95 lationships between well-defined neurons and brain functions.

96 gy metabolism may resultantly regulate major brain functions.

97 many brain areas and attributed to numerous brain functions.

98 is involved in many behavioral responses and brain functions.

99 gy flux in the execution of demanding higher brain functions.

100 tatory channels that play essential roles in brain functions.

101 of postsynaptic proteins in localization of brain functions.

102 owledge remains in relation to their role in brain functioning.

103 as a potential therapeutic target to protect brain function after injury.

104 The authors assessed changes in brain function after prolonged exposure therapy across t

105 of the functional connection between stress, brain function and adrenal has been further expanded by

106 How does cortical tissue change as brain function and behavior improve from childhood to ad

107 ogenetics offers great potential for linking brain function and behavior in nonhuman primates, taking

108 e data suggest a new model by which emergent brain function and behavior result from cortical tissue

109 tes to broader variability in socioemotional brain function and behavior, with implications for under

110 rcuits, autonomic function, and higher-order brain function and behavior.

111 ucose transporter-1 (Glut1) protein, disrupt brain function and cause the neurodevelopmental disorder

112 elopment and ageing are essential for normal brain function and closely linked to brain disorders inc

113 ial experience can have divergent effects on brain function and cocaine self-administration.

114 However, besides prior wakefulness, brain function and cognition are also affected by circad

115 However, age effects on brain function and cognition differ across individuals.

116 factors for Alzheimer's disease (AD) affect brain function and cognition in healthy adult samples ma

117 principles and mechanisms underlying complex brain function and cognition remains incomplete.

118 excitability, which is essential for proper brain function and cognition.

119 to elucidate how PNN abnormalities influence brain function and contribute to the pathogenesis of neu

120 s predicted cotwin differences in adolescent brain function and coping.

121 olyunsaturated fatty acids are important for brain function and development.

122 role of amyloid precursor protein in normal brain function and development.

123 n across multiple levels, with relevance for brain function and disease.

124 tional models to inform our understanding of brain function and dysfunction.

125 aving fundamental and sophisticated roles in brain function and dysfunction.

126 en new avenues for using tRNS to investigate brain function and enhance the behavior of healthy indiv

127 MK2B and their auto-phosphorylation in human brain function and expand the phenotypic spectrum of the

128 ther exploration of the relationship between brain function and G4C2 repeat length.

129 ers in humans, operate in organ development, brain function and govern immunological responses.

130 atory/inhibitory (E/I) is crucial for normal brain function and is altered in psychiatric disorders s

131 en new vistas for investigating human infant brain function and its energy metabolism.

132 ls could explain how CSF flow contributes to brain function and may help in the diagnosis and prevent

133 mines and neuropeptides, is also critical to brain function and occurs primarily outside the synaptic

134 d as a novel therapeutic strategy to restore brain function and prevent trauma-associated maladaptive

135 ce treatment (MMT) can induce impairments in brain function and structure, despite its clinical effec

136 se release into the circulation is vital for brain function and survival during periods of fasting an

137 through the skull would aid in understanding brain function and the development of neurological disea

138 normal development followed by regression of brain function and the emergence of autistic behaviors.

139 (Cdk5), which plays diverse roles in normal brain function and the pathogenesis of many neurological

140 n-activated protein kinases (MAPKs) regulate brain function and their dysfunction is implicated in a

141 veral pathways that are important for proper brain function and thus sheds light onto which pathways

142 g cytokine overactivity that act directly on brain function and/or treatment in early-stage psychosis

143 ocial environmental conditions that handicap brain functioning and support the use of physical aggres

144 ptor-mediated neurotransmission affect adult brain functions and behavior.

145 ransmitters, plays an important role in many brain functions and behavioral responses.

146 ion clusters involved in processes affecting brain functions and circuitry, including lipid metabolis

147 to neurobiological changes that affect adult brain functions and increase the risk of cannabis use di

148 amine, 5-HT) system modulates many important brain functions and is critically involved in many neuro

149 Given the key role of glycogen metabolism in brain functions and neurodegeneration, impairment of the

150 mportance of histone deacetylation in normal brain functions and pathological conditions is unquestio

151 BDNF is involved in many brain functions and plays key roles in the repair proces

152 are important for identifying hypotheses on brain functions and testing their consistency and plausi

153 se homeostatic plasticity to maintain normal brain functions and to prevent abnormal activity.

154 faxine disrupts early development, including brain function, and compromises larval behavior, suggest

155 sed by surgical resection) with postsurgical brain function, and found that the damage score negative

156 inhibitory synapses is essential for higher brain function, and impairment in this development is as

157 Adequate blood flow is essential to brain function, and its disruption is an early indicator

158 hat would have major implications for normal brain function, and suggested that these events preferen

159 e understanding of fundamental principles of brain function, and their translation into treatments fo

160 ity of neuronal connectivity is critical for brain functions, and morphological perturbations are ass

161 ion and its role in neuronal development and brain function are poorly understood.

162 ng imaging enables key insights into how our brains function, are shaped by genes and environment, an

163 various etiologies, yet its role in altering brain function as a consequence of neuroinfectious disea

164 of individual differences in reward-related brain function as a potential biomarker of relative risk

165 2 potassium channels are critical for normal brain function, as both loss-of-function and gain-of-fun

166 s are critical for the development of normal brain function, as KCNQ2 variants could lead to epilepti

167 regulatory regions, also acts to shape human brain function associated with risk for mental illness.

168 Understanding brain function at the cell and circuit level requires re

169 We note that the brain functions at multiple scales and that causal depen

170 iling how and why physical activity improves brain function based on an energy-minimizing strategy.

171 portant tool for understanding and modifying brain functions because associations are fundamental and

172 mushroom-like shape, which is essential for brain functions, because aberrant spine morphology is as

173 between genetic and epigenetic effects shape brain function, behavior, and the risk for mental illnes

174 licated in supporting wakefulness and higher brain function, but has been difficult to selectively ma

175 l connectivity imposes strong constraints on brain function, but there is no general agreement about

176 and circadian rhythmicity both contribute to brain function, but whether this contribution differs be

177 olic risk factors and/or consistently boosts brain function by inducing structural and neurochemical

178 the fetal PT in developmental programming of brain function by maternal melatonin and establish TSH s

179 ished and empirically testable frameworks of brain functioning by thinking of art reception as an emb

180 The proposed capacity to augment recovery of brain function, by promoting learning and facilitating p

181 g the neuronal circuitry required for normal brain function can be achieved by increasing sensory, mo

182 eoretical study shows that intelligence-like brain functions can emerge from simple neural circuits,

183 SIGNIFICANCE STATEMENT: How does brain functioning change in arousing or stressful situat

184 Modern conceptions of brain function consider the brain as a "predictive organ

185 e embodied paradigm, according to which body-brain functions contribute to a holistic approach to con

186 events in the periphery can remotely affect brain function, contributing to neurodegenerative proces

187 In particular, brain function critically depends on the uptake of the s

188 terized by NMDA receptor-hypofunction.Proper brain function depends on the correct assembly of excita

189 Normal brain function depends on the interaction between highly

190 Comprehensive analysis of brain function depends on understanding the dynamics of

191 However, understanding brain function, development, and disease will require li

192 arietal connectivity, and (C) accompanied by brain function differences driven by these effects.

193 The two posit different areas of atypical brain function, different pathogenic models of disabilit

194 The goal of the current study was to examine brain function during emotional face processing as a pre

195 , taurine is known to play critical roles in brain function during health and disease and is proposed

196 Here we examined brain function during inferences about context change fr

197 Here we examine whether brain function during response inhibition early after a

198 g transcranial magnetic stimulation to alter brain function during retrieval revealed that this early

199 biome regulates host immunity and influences brain function; findings that have ramifications for neu

200 otential mechanisms for sustained changes in brain function following primary bTBI and therapeutic st

201 been used to identify properties of dynamic brain function from fMRI data, but the majority of analy

202 rns of neuronal electrical activity underlie brain function, from sensory representations to decision

203 ments provide insights about a wide range of brain functions, from sensorimotor integration to cognit

204 Brain functions governing treatment outcome are not well

205 A general theory of brain function has to be able to explain local and non-l

206 ternal mechanical force that disrupts normal brain function, has been linked to the development of ne

207 t the cerebellum contributes a basic role in brain functions, helping to shape the complexity of brai

208 ing ways one of the most basic principles of brain function - how the brain constructs a subjective r

209 cts of lesions allow causal inferences about brain function; however, naturally occurring lesions in

210 etal resting-state functional MRI to measure brain function in 32 human fetuses in utero and found th

211 that, among other things, we should capture brain function in a multidimensional manner, develop a n

212 tly increases brain DHA content and improves brain function in adult mammals, thus providing a novel

213 ns (7777 allelic combinations) was tested on brain function in an independently defined region of the

214 itical contributions to neural circuitry and brain function in both healthy and disease states.

215 We examined whole-brain function in European Starlings (Sturnus vulgaris),

216 factor for cortical excitability, and basic brain function in general, is the balance between circad

217 gly appreciated as important contributors to brain function in health and disease, but techniques to

218 particular direction, that characterize the brain function in individuals with ASD.

219 Sleep is essential for proper brain function in mammals and insects.

220 Chloride regulation affects brain function in many ways, for instance, by dictating

221 ptor gene (OXTR) are associated with altered brain function in reward circuitry in neurotypical adult

222 The efficacy of estrogen in modulating brain function in schizophrenia has to be balanced again

223 in addiction involves reestablishing normal brain function in target regions in an effort to dampen

224 s also suggest that MT dynamics in the adult brain function in the essential process of learning and

225 multiple reports of possible alterations in brain function in the first year of life, overt behavior

226 deeper understanding of the role of complex brain function in the high-level processing of informati

227 unctional MRI (fMRI) is widely used to study brain function in the neurosciences.

228 unknown how variation in the OXTR relates to brain functioning in individuals with ASD, and, critical

229 ptamine; 5-HT) is implicated in a variety of brain functions including not only the regulation of moo

230 lutamate and are essential to all aspects of brain function, including learning and memory formation.

231 l forebrain (BF) plays key roles in multiple brain functions, including sleep-wake regulation, attent

232 l roles in the regulation of a wide range of brain functions, including voluntary movement and behavi

233 dbrain dopaminergic neurons regulate diverse brain functions, including voluntary movement and cognit

234 prehensive survey of adult and developmental brain functions influenced by imprinted genes, from neur

235 Brain function involves the activity of neuronal populat

236 Brain function is governed by precise regulation of gene

237 sed perspective on how psychotherapy affects brain function is lacking.

238 A localized brain function is likely a result of such common computa

239 we review recent findings that suggest that brain function is most appropriately categorized accordi

240 How these glycans influence brain function is only now beginning to be elucidated.

241 How such mutations affect brain function is poorly understood.

242 ectivity, our understanding of their role in brain function is still in its infancy.

243 A fundamental property of brain function is that the spiking activity of cortical

244 rprising that one of the hallmarks of normal brain function is the tight coupling between cerebral bl

245 Brain function is thought to become less specialized wit

246 though precisely how they dysregulate normal brain function is unknown.

247 To understand brain function, it is essential that we discover how cel

248 lecule that plays several important roles in brain function: it is generated in cellular respiration,

249 Despite FMRP importance for proper brain function, its overall expression pattern in the ma

250 ally, seizures are accompanied by changes in brain function leading to uncontrolled nerve activity ca

251 g research demonstrating that reward-related brain function may be a useful biomarker of relative ris

252 t principle was used to examine how baseline brain function moderated the effect of treatment on PTSD

253 is that highly overlapping networks underlie brain functions (neural reuse) is decisively supported b

254 In order to maintain brain function, neural activity needs to be tightly coor

255 ts that chemical pollutants could impair the brain function of larval fishes during a critical life-h

256 ether predictions signalling is an automatic brain function or depends on task demands.

257 rks or "connectomes" can inform the study of brain function organization.

258 Reward-related brain function, particularly the activity of the ventral

259 erstanding their role in normal and diseased brain function poses experimental challenges.

260 Predictive coding models of brain function propose that top-down cortical signals pr

261 terases (PDE) mediate fundamental aspects of brain function relevant to learning, memory, and higher

262 Brain function relies on fast and precisely timed synapt

263 Brain function relies on the ability of neural networks

264 Normal brain function relies on the careful balance of these op

265 Higher brain function relies upon the ability to flexibly integ

266 cerebellum is involved in this wide range of brain functions remains poorly understood.

267 Brain function requires connecting neuronal networks to

268 Normal brain function requires interactions between spatially s

269 explore novel means whereby CREB impinges on brain functions requiring adaptive, long-lasting changes

270 important for understanding and influencing brain functions, sleep and metabolic cycles, and many ot

271 which the cerebellum contributes to multiple brain functions: specific cerebellar subregions control

272 en metabolism plays a critical role in major brain functions such as learning or memory consolidation

273 veral aspects of human physiology, including brain functions such as mood and cognition, and influenc

274 tegmental area (VTA) are involved in various brain functions, such as movement initiation and goal di

275 Ethological views of brain functioning suggest that sound representations and

276 pulvinar in current theories of integrative brain functions supporting cognition and goal-directed b

277 r system is involved in predictive timing, a brain function that aligns temporal fluctuations of atte

278 cess-specific seasonality in human cognitive brain function that could contribute to intraindividual

279 the regulation of synaptic transmission and brain function that involves a pseudokinase.

280 se to environmental stimuli is a fundamental brain function that is controlled by specific neural cir

281 and hemodynamic responses, is a fundamental brain function that underlies hemodynamic-based function

282 n in dyslexia and may reveal a difference in brain functions that ultimately results in a specific re

283 Structured activities to stimulate brain function-that is, cognitive training exercises-are

284 Although critical for brain function, the physiological values of cerebral oxy

285 of pathological conditions as well as normal brain function, therefore, hinges on elucidating the mol

286 plasticity and have crucial roles in myriad brain functions, this study reveals a potential underlyi

287 isorders in peripheral tissues can impact on brain functions through metabolic, hormonal and inflamma

288 ency in patients with MS, shifting patients' brain function towards the healthy situation.

289 ent and aging, as well as interpretations of brain function underlying behavioral changes across the

290 To decipher neural circuits underlying brain functions, viral tracers are widely applied to map

291 Reward-related brain function was assessed with blood oxygen level depe

292 paradigms) characterizing diverse aspects of brain function was collected on individuals with schizop

293 Brain function was tested using the reward prediction er

294 oplasma infection (LTI) may adversely impact brain function, we investigated its impact on neurocogni

295 Rats in the control group showed no sign of brain function whereas rats in the DHA-treated group had

296 in serotonin metabolism; and alterations in brain function, which could be primary or secondary fact

297 rough which adversity contributes to altered brain function, which in turn moderates the emergence of

298 n development have long-term consequences on brain function, which range from learning disabilities t

299 Iron is essential for brain function, with loss of iron homeostasis in the bra

300 neuronal compartments that are critical for brain function, with synaptic dysfunction being an early