ライフサイエンスコーパス: neuroscientist

1 rom EyeWire, an online community of 'citizen neuroscientists'.

2 ) was the UK's first eminent neurologist and neuroscientist.

3 an important focus of investigation for the neuroscientist.

4 s stymied progress on the disease, alleges a neuroscientist.

5 and also as effective tools for reductionist neuroscientists.

6 delivery to the distal axon has long puzzled neuroscientists.

7 avored by physiologists, pharmacologists and neuroscientists.

8 rging capabilities of particular interest to neuroscientists.

9 state-of-the-art of RNAi and its utility to neuroscientists.

10 n are of major interest to a wide variety of neuroscientists.

11 e it will promote better communication among neuroscientists.

12 learning and memory is a major challenge for neuroscientists.

13 s have yielded crystal structures so dear to neuroscientists.

14 ) recognizing theoretical neuroscientists as neuroscientists.

15 l-time is an important tool for experimental neuroscientists.

16 visual consciousness--continues to challenge neuroscientists.

17 the attention of both molecular and systems neuroscientists.

18 tions between experimental and computational neuroscientists.

19 plate to help with the development of future neuroscientists.

20 he underlying mathematics more accessible to neuroscientists.

21 s and nomenclature, creating confusion among neuroscientists.

22 uting professionals rather than experimental neuroscientists.

23 ebral cortex is a topic of great interest to neuroscientists.

24 ysiologists, psychologists and computational neuroscientists.

25 tes and has been traditionally overlooked by neuroscientists.

26 laboration between geneticists and cognitive neuroscientists, 2) the likelihood of genetic heterogene

27 l-difference (TD) learning models afford the neuroscientist a theory-driven roadmap in the quest for

28 rge ensembles of cells, yet most of the data neuroscientists accumulate is at the level of individual

29 at sheds light on task performance and helps neuroscientists accurately capture correlations between

30 Neuroscientists across Europe have been busy finding or

31 t the only drivers of data-sharing needs, as neuroscientists across the full spectrum of research gra

32 What are neuroscientists actually interested in?

33 Neuroscientists additionally evaluate DNNs as models of

34 ce understanding.SIGNIFICANCE STATEMENT Most neuroscientists agree on the eminent importance of predi

35 ' has--for both mainstream immunologists and neuroscientists alike--often seemed more a realm of anec

36 As neuroscientists analyze data from both sexes, it is beco

37 matologist, engineer, skeptic, statistician, neuroscientist and conflict management expert.

38 As these paired Commentaries discuss, neuroscientists and architects are just beginning to col

39 tlines the pros and cons of data sharing for neuroscientists and argues that continued progress in th

40 nsidering a complete neuromechanical system, neuroscientists and biomechanicians together can provide

41 vents, yielding a widely applicable tool for neuroscientists and biomedical engineers.

42 Hodgkin and Huxley, multiple generations of neuroscientists and biophysicists have built upon their

43 This review is intended as a guideline for neuroscientists and clinicians interested in translating

44 Collaboration with experimental neuroscientists and clinicians is essential for the deve

45 Neuroscientists and cognitive scientists will both contr

46 eory will result from collaborations between neuroscientists and economists and will benefit from inp

47 s attracts wide attention from computational neuroscientists and experimentalists.

48 relationships provide a convenient tool for neuroscientists and experimenters to complete experiment

49 r, they became a workhorse for developmental neuroscientists and for studies on brain plasticity and

50 ism has received considerable attention from neuroscientists and geneticists.

51 dysfunction and therefore will be useful to neuroscientists and neurologists alike.

52 es that were performed in collaboration with neuroscientists and neurosurgeons using simulated and re

53 w, we aim to inform practising neurologists, neuroscientists and other clinicians about recent advanc

54 se of this review is to assist neurologists, neuroscientists and other interested readers in followin

55 edients of successful communications between neuroscientists and other stakeholders are different fro

56 breathing in vitro as well as in vivo, many neuroscientists and physiologists are surprised that res

57 breathing in vitro as well as in vivo, many neuroscientists and physiologists are surprised that res

58 the brain was studied almost exclusively by neuroscientists and the immune system by immunologists,

59 help inform ethologists, sensory ecologists, neuroscientists, and engineers designing soft robotic ap

60 sources to help train the next generation of neuroscientists, and has fostered and grown an engaged c

61 as been an important subject of interest for neuroscientists, and there are multiple studies about th

62 individual-focused dataset as a resource for neuroscientists, and we propose precision individual con

63 nge in the conceptual framework within which neuroscientists approach the study of learning mechanism

64 Neuroscientists are beginning to advance explanations of

65 Neuroscientists are beginning to understand the brain me

66 Neuroscientists are increasingly embracing mice as a mea

67 Neuroscientists are increasingly using advanced neuroima

68 e of collecting large neuroimaging datasets, neuroscientists are now working to archive these studies

69 However, neuroscientists are often reluctant to incorporate narra

70 ct of pathological states on brain networks, neuroscientists are often required to evaluate experimen

71 l-time assessment of [Na(+)]i and [Ca(2+)]i, neuroscientists are poised to expand the understanding o

72 Some neuroscientists argue that detailed maps of synaptic con

73 ere can be used by behavioral scientists and neuroscientists as an aid for behavioral and neural data

74 (IEG) expression has been routinely used by neuroscientists as an index of neuronal activation.

75 neuroscience and (4) recognizing theoretical neuroscientists as neuroscientists.

76 opportunities for a bright future for young neuroscientists as they assume the role of vanguard of t

77 Conotoxins are of interest to neuroscientists as well as drug developers due to their

78 eve it is an extremely exciting time to be a neuroscientist, as we have an opportunity to grow as a f

79 Although neuroscientists assume that frontal areas are central to

80 Most computational neuroscientists assume that nervous systems compute and

81 In neuroscientists' attempts to understand the long-term st

82 tex (dACC) has attracted great interest from neuroscientists because it is associated with so many im

83 enflurane are of interest to clinicians and neuroscientists because of their ability to preferential

84 are formed has long fascinated developmental neuroscientists, because the formation of new cortical a

85 WT) of consciousness originated by cognitive neuroscientist Bernard Baars and further developed by hi

86 development and our recommendations to help neuroscientists better communicate the benefits of their

87 and learning testing by a trained cognitive neuroscientist blinded to MR results.

88 n have become emerging areas of interest for neuroscientists but are still not well understood.

89 that has so far received less attention from neuroscientists but that may have profound neuroscientif

90 nality of this technique for wider uptake by neuroscientists by using fast three-dimensional laser be

91 Neuroscientists can choose to use a variety of procedure

92 Neuroscientists can empower individuals with information

93 Neuroscientists can identify the site of seizure genesis

94 signer receptors have revolutionized the way neuroscientists can interrogate neural circuits.

95 to support this extra brain work and indeed neuroscientists can now put together a rather plausible

96 Perceptual neuroscientists captivated by optimal explanations of se

97 A more modest focus of many neuroscientists, central pattern generators, are more tr

98 Hosting neuroscientists, computer scientists, AI researchers, an

99 s from network activity in much the same way neuroscientists decode information from neural recording

100 s captured the imagination of generations of neuroscientists, developmental biologists and evolutiona

101 ers interested in cellular pathways, such as neuroscientists, developmental biologists and immunologi

102 Until recently, most neuroscientists did not regard consciousness as a suitab

103 Still, many neuroscientists do not understand the difference between

104 urotransmission, should to be of interest to neuroscientists, drug industry and the general public al

105 global health, with particular relevance to neuroscientists, due to associated newborn and adult neu

106 To analyse neuron data at scale, neuroscientists expend substantial effort reading docume

107 Psychologists and neuroscientists extensively rely on computational models

108 hitecture is among the major challenges that neuroscientists face.

109 e closes the door on her time in academia, a neuroscientist faces unexpected grief.

110 Some neuroscientists fear that implementing the 3Rs will proh

111 This question continues to vex neuroscientists focused on linking physiological results

112 emic training programs as they prepare young neuroscientists for a more complex, competitive, and div

113 and function in the human brain have engaged neuroscientists for centuries in a debate that continues

114 An issue that has puzzled neuroscientists for decades is what role, if any, tempor

115 tic plasticity has been the primary focus of neuroscientists for decades, it is inherently limited.

116 choose one action over another has intrigued neuroscientists for decades.

117 been a goal of experimental and theoretical neuroscientists for decades.

118 Phencyclidine has attracted the attention of neuroscientists for many years because of its ability to

119 entricles has captured the attention of many neuroscientists for over 2 decades, yielding key insight

120 lishment of synaptic specificity has engaged neuroscientists for the best part of a century.

121 l compounds have become of great interest to neuroscientists for their unique neuroprotective and neu

122 Neuroscientists frequently represent these wiring diagra

123 alike.SIGNIFICANCE STATEMENT Clinicians and neuroscientists frequently use cross-sectional anatomy o

124 Neuroscientists from across the country gathered at the

125 Mentoring the next generation of neuroscientists from historically excluded backgrounds b

126 The NINDS-funded BRAINS Program for neuroscientists from underrepresented and marginalized g

127 anisms are much more sophisticated than many neuroscientists give them credit for.

128 rch on human navigation by psychologists and neuroscientists has come mainly from a limited range of

129 As the number of technologies available for neuroscientists has increased, the corresponding cranial

130 Today, neuroscientists have access to a host of advanced techni

131 pressed through body movement, but cognitive neuroscientists have almost exclusively considered isola

132 Neuroscientists have become used to a number of "facts"

133 For more than a century, neuroscientists have been fascinated by how shape is imp

134 Neuroscientists have been looking for good examples link

135 Neuroscientists have begun to understand how the maturat

136 logists, gerontologists, and, more recently, neuroscientists have considered the possibility of succe

137 Neuroscientists have debated for centuries whether some

138 For over a century neuroscientists have debated the dynamics by which human

139 lmost 200 years, artists, psychologists, and neuroscientists have debated whether this type of illusi

140 Recently, computational neuroscientists have developed models that can emulate c

141 Visual neuroscientists have discovered fundamental properties o

142 In recent years, translational neuroscientists have earmarked microtubules as a promisi

143 For more than a century, neuroscientists have gained insight into brain function

144 Over the past two decades, neuroscientists have increasingly turned their attention

145 Neuroscientists have invested considerable effort in att

146 For many years, neuroscientists have investigated the behavioural, compu

147 l plasticity in the vocal production system, neuroscientists have largely ignored the neural mechanis

148 Neuroscientists have long appreciated that the amygdala

149 Neuroscientists have long been interested in how this co

150 Neuroscientists have long characterized the properties a

151 Neuroscientists have long debated whether focal brain re

152 Neuroscientists have long sought to elucidate the molecu

153 Neuroscientists have long studied species with convenien

154 However, neuroscientists have never before examined how shape and

155 Neuroscientists have often described cognition and emoti

156 studying memory, but neuropsychologists and neuroscientists have paid relatively little attention to

157 Neuroscientists have provided insights into the role of

158 For more than 50 years, psychologists and neuroscientists have recognized the importance of a work

159 e decision making in a foraging environment, neuroscientists have reported single-cell activities in

160 More recently, neuroscientists have resorted to robots for testing hypo

161 In recent years, neuroscientists have shown an increasing interest in mag

162 For nearly a century, neuroscientists have sought to restore neurological func

163 l in the late 19th and early 20th centuries, neuroscientists have speculated that a complete understa

164 Computational neuroscientists have started to shed light on how these

165 Although philosophers and cognitive neuroscientists have struggled to define human conscious

166 Traditionally, neuroscientists have studied these interactions using pu

167 For several decades, Drosophila neuroscientists have taken advantage of a vast toolkit o

168 r considers the various levels of commitment neuroscientists have to the neuronal process theories th

169 Neuroscientists have tried to define the functions of do

170 Neuroscientists have typically used tools such as high-s

171 he discovery of ocular dominance plasticity, neuroscientists have understood that changes in visual e

172 Neuroscientists have used the converse of this dictum to

173 Most neuroscientists have yet to embrace a culture of data sh

174 y by David Burr and Simon Laughlin of visual neuroscientist Horace Barlow, whose contributions to the

175 rvous system creates unique problems for the neuroscientist in the design and implementation of funct

176 ur study should generate broad interest from neuroscientists in fields such as epilepsy, addiction, a

177 etic approaches have been rapidly adopted by neuroscientists in order to control the activity of neur

178 become an important technique for cognitive neuroscientists in recent years; however, the relationsh

179 what 'representation' does and should do for neuroscientists in terms of three key aspects of represe

180 d enormously to fostering the development of neuroscientists in the past 60 years and has left a reco

181 VID-19 pandemic has had a profound impact on neuroscientists, including those involved in translation

182 Neuroscientists increasingly analyze the joint activity

183 test research by psychologists and cognitive neuroscientists increasingly reveals the complex multise

184 interview with Pawan Sinha, a computational neuroscientist interested in vision, particularly visual

185 to a broader audience of sensory and systems neuroscientists interested in the thalamocortical system

186 Aergic cell type diversity, and will inspire neuroscientists interested not only in synaptic physiolo

187 Optogenetics ushered in a revolution in how neuroscientists interrogate brain function.

188 and augment the recruitment of gifted young neuroscientists into neurology; (2) foster new diversity

189 And at the behavioral level, most neuroscientists investigate either short- or long-term f

190 interest to philosophers, psychologists and neuroscientists is how the brain selects which signals e

191 The largest challenge that faces neuroscientists is the interpretation of the results of

192 A major challenge for neuroscientists is to test these ideas experimentally, a

193 A core goal for visual neuroscientists is to understand how neural circuits at

194 Every neuroscientist knows that emotions are as much to do wit

195 A group of neuroscientists, lawyers, philosophers, and jurists are

196 What can neuroscientists learn from the gigantic data set and how

197 differences among people, only recently have neuroscientists made SES a topic of research in its own

198 tific research into sexuality are great, but neuroscientists must participate in debates over the soc

199 ains are notoriously hard to understand, and neuroscientists need all the tools they can get their ha

200 : there is not a single archetype of a woman neuroscientist, nor a single path to "success." Yet, thr

201 tic engineering evolve at a rapid pace, with neuroscientists now equipped with a wide range of tools

202 This review will inform neuroscientists of recent progress in the field and help

203 hope to promote awareness, especially among neuroscientists, of the importance of this class of prot

204 The patch clamp is a fundamental tool for neuroscientists, offering insights that have shaped our

205 ation of biomarkers of PTSD by translational neuroscientists offers a promising opportunity to explor

206 For example, neuroscientists often ask, "Does a population of neurons

207 Neuroscientists often describe neural activity as a repr

208 Memory neuroscientists often measure neural activity during tas

209 etwork evolution in response to the needs of neuroscientists over time.

210 elope glycoprotein gene are useful tools for neuroscientists, permitting (1) extraordinarily high tra

211 sponding to commentaries from psychologists, neuroscientists, philosophers, and anthropologists, I cl

212 ding linguists, psychologists, philosophers, neuroscientists, primatologists, archaeologists, and pal

213 ) transgenes have become important tools for neuroscientists, providing a powerful means of dissectin

214 NCE STATEMENT A question that has fascinated neuroscientists, psychologists, and musicologists for a

215 Neuroscientists, psychologists, clinicians, and economis

216 Neuroscientists Ralph Adolphs and Lisa Feldman Barrett d

217 First, how can we as neuroscientists rapidly acquire high-dimensional data fr

218 Neuroscientists rely on distributed spatio-temporal patt

219 laborative efforts between psychologists and neuroscientists remain limited, hindering progress.

220 Visual neuroscientists require accurate control of visual stimu

221 ette's proposal to expunge "coding" from the neuroscientist's lexicon, we must consider its origins.

222 Early neuroscientists scoured the animal kingdom for the ideal

223 he dorsal vagal complex of rodents will help neuroscientists seeking to understand appetite and resea

224 assay to other gene families of interest to neuroscientists should be easy to achieve.

225 In communicating research, neuroscientists should be sensitive to the social conseq

226 al health to education and workplace equity, neuroscientists should pay greater heed to its misapprop

227 -up approach to cognitive ontology revision: Neuroscientists should revise their taxonomies of cognit

228 Neurologists and neuroscientists should understand the scope and objectiv

229 Surgeons, engineers, and neuroscientists should work together to develop effectiv

230 itutes, and NIH-funded scientists, including neuroscientists, should prioritize research topics that

231 neous small data sets produced by individual neuroscientists, so-called long-tail data.

232 Neuroscientists still are not sure what makes any two od

233 Many psychologists and neuroscientists still see executive functions as indepen

234 advocating for deeper collaboration between neuroscientists studying aesthetics and those in the art

235 Here, we (a genomicist and a cognitive neuroscientist) suggest that these techniques can help c

236 ystem must develop and grow with it to allow neuroscientists the ability to reach for new heights of

237 For almost 40 years, neuroscientists thought that epileptic seizures began ab

238 in order to unlock the potential of African neuroscientists to address regional and global mental he

239 cusses emerging technologies that may enable neuroscientists to address these crucial scientific chal

240 gress in automated spike sorting, and guides neuroscientists to an optimal choice of sorter and param

241 ion to broad technological advances allowing neuroscientists to ask new kinds of questions.

242 genetics, and other technologies has allowed neuroscientists to begin identifying memory engram cells

243 This would enable neuroscientists to begin to investigate more systematica

244 ta analysis, ANNs provide a new approach for neuroscientists to build models for complex behaviors, h

245 Tinbergen said for neuroscientists to claim that a behavior is understood,

246 gnitive aspects of sport will help cognitive neuroscientists to confront the application of their sci

247 principles of biointelligence discovered by neuroscientists to design efficient computational system

248 We developed a web application for neuroscientists to explore the dynamics of the mRNA or p

249 havioral models are available for behavioral neuroscientists to explore the relationship between brai

250 collaborations with developmental cognitive neuroscientists to facilitate these research goals.

251 orrelational studies, it would be useful for neuroscientists to focus on a constructive syntax to gui

252 This should motivate neuroscientists to grapple with core issues such as the

253 pioneering efforts of mouse geneticists and neuroscientists to identify and clone genes for spontane

254 chemogenetic tools are now commonly used by neuroscientists to identify the circuitry and cellular s

255 R allows both experimental and computational neuroscientists to incorporate robust statistical and gr

256 , a plethora of tools has been developed for neuroscientists to interface with the brain.

257 regions can be viewed as a network, enabling neuroscientists to investigate brain function through ne

258 ue clearing has become an essential tool for neuroscientists to investigate the neural connectome or

259 Advances in neurobiology permit neuroscientists to manipulate specific brain molecules,

260 omputing framework for data analysis enables neuroscientists to meet the computational demands of mod

261 dual- to societal-level factors would enable neuroscientists to more effectively translate sleep heal

262 n outline of how these approaches might help neuroscientists to more rapidly uncover the cellular and

263 light microscopy has remained a key tool for neuroscientists to observe cellular properties.

264 cent progress in fluorescence imaging allows neuroscientists to observe the dynamics of thousands of

265 As the techniques available to neuroscientists to probe the inner workings of the brain

266 ures are prerequisites that enable physician-neuroscientists to pursue successful and exciting career

267 We encourage neuroscientists to put emissions reductions at the cente

268 iphoton holographic optogenetics could allow neuroscientists to reveal fundamental aspects of the neu

269 monospace> is an easy-to-use environment for neuroscientists to solve complex, large-scale analysis c

270 eural cells during natural behaviours allows neuroscientists to study how the nervous system generate

271 been used by behavioral pharmacologists and neuroscientists to study learning and memory.

272 we consider the actions that can be taken by neuroscientists to tackle climate change.

273 rtical-basal-ganglia-cortical loop, enabling neuroscientists to take advantage of the specialization

274 k only against the immodest codes imputed by neuroscientists to the signals they study; they do not t

275 r neuroscience, and we suggest some ways for neuroscientists to think about incorporating sex as a va

276 Neuroscientists today can measure activity from more neu

277 question of critical importance confronting neuroscientists today is how biochemical signals initiat

278 understandably persists in the minds of many neuroscientists today.

279 A neuroscientist traces the development of the body's most

280 Beyond those to whom neuroscientists typically communicate exciting discoveri

281 ent computational implications that can help neuroscientists understand the functional role of a part

282 If so, how can neuroscientists use deep networks to model and understan

283 ical studies of various cognitive abilities, neuroscientists use mathematical models to fit behaviora

284 ucidate the cognitive structures of animals, neuroscientists use several behavioral tasks.

285 Many systems neuroscientists want to understand neurons in terms of m

286 As neuroscientists, we are taught that the brain is immune

287 ms that can be immediately understood by the neuroscientist who has little previous exposure to DTI.

288 He is one of a few neuroscientists who raised the question of the contribut

289 What is the outlook for neuroscientists who seek to characterize computations or

290 Although neuroscientists widely believe that neural synapses are

291 fMRIPrep equips neuroscientists with an easy-to-use and transparent prep

292 the scientific and personal stories of women neuroscientists with diverse backgrounds, identities, re

293 rode electrophysiological recording provides neuroscientists with huge amounts of multivariate data.

294 modeling and a purely data-driven approach, neuroscientists with limited or no experience in machine

295 ore critical manner could provide behavioral neuroscientists with tools to develop better testing met

296 ium will be of broad interest and utility to neuroscientists working in diverse areas of the field.

297 r is linear or logarithmic divides cognitive neuroscientists working on mathematical cognition.

298 essing and rather suggest that computational neuroscientists working with DNNs may need to base their

299 This is the challenge faced by cognitive neuroscientists worldwide aiming to understand the neura

300 Neuroscientists would benefit from attending to nosologi