ライフサイエンスコーパス: geneticist

1 ocess with the assistance of domain experts (geneticists).

2 helped engender a unique and valuable plant geneticist.

3 lymorphisms is a powerful tool for the plant geneticist.

4 en 2015 and 2020 were referred to a clinical geneticist.

5 uires dialogue between the clinician and the geneticist.

6 which cases should prompt an evaluation by a geneticist.

7 s to a renal genetic counselor or a clinical geneticist.

8 netic testing after counseling by a clinical geneticist.

9 to the diagnostic armamentarium of clinical geneticists.

10 recent developments proposed by quantitative geneticists.

11 r sick, an observation that has puzzled many geneticists.

12 hese findings into useful tools for clinical geneticists.

13 el by behavioral ecologists and quantitative geneticists.

14 is a common goal to both plant breeders and geneticists.

15 ial concern to both evolutionary and medical geneticists.

16 ny of the quantitative traits of interest to geneticists.

17 s largely unknown among insect developmental geneticists.

18 cottonseed has been a long-standing goal of geneticists.

19 ention of developmental biologists and human geneticists.

20 listic data meets a long-standing need among geneticists.

21 e continues to be a formidable challenge for geneticists.

22 other affliction visited by statisticians on geneticists.

23 ding its effects is an important task facing geneticists.

24 pes, has long been of interest to population geneticists.

25 terials, and information from other academic geneticists.

26 y become tarnished in the view of many human geneticists.

27 analysis by historians, anthropologists, and geneticists.

28 of unique germplasm among plant breeders and geneticists.

29 nd physiological phenotypes studied by human geneticists.

30 n phenotypes is a major goal of contemporary geneticists.

31 on has long been a fascinating phenotype for geneticists.

32 on of intense interest to human evolutionary geneticists.

33 efficient, accessible solution for clinical geneticists.

34 ino acids, that were previously invisible to geneticists.

35 siderable attention from neuroscientists and geneticists.

36 of ophthalmic oncologists, pathologists, and geneticists.

37 f previous and current generations of lambda geneticists.

38 ldren with undiagnosed syndromes to clinical geneticists.

39 lready brought insights to human and medical geneticists.

40 d weaknesses, including those of established geneticists.

41 e study of epistasis is of great interest to geneticists.

42 ges in their gene dosage has long fascinated geneticists.

43 athologists, hematologists, oncologists, and geneticists.

44 " was published by four prominent Drosophila geneticists.

45 ese genes, and ratings from 24 schizophrenia geneticists.

46 netic methods has long been a goal of vector geneticists.

47 es a grand and unprecedented opportunity for geneticists.

48 ve the skills of evolutionary biologists and geneticists.

49 radiologists, pathologists, oncologists and geneticists.

50 of the 20th century by a consortium of yeast geneticists.

51 e, making the diallel unapproachable to many geneticists.

52 What does a Bayesian framework have to offer geneticists?

53 (35 of 53 respondents [66.0%]), followed by geneticists (28 [52.8%]) and genetic counselors (24 [45.

54 s(2) that are highly informative to clinical geneticists(3-5).

55 dents were physician geneticist (41%), Ph.D. geneticist (30%), and genetic counselor (18%); 72% of th

56 jor categories of respondents were physician geneticist (41%), Ph.D. geneticist (30%), and genetic co

57 hose answering yes included 44% of physician geneticists, 53% of Ph.D. geneticists, and 31% of geneti

58 May 1 through November 30, 2015, by clinical geneticists after referral from general and subspecialis

59 Molecular biologists and geneticists alike now acknowledge that most common human

60 to be revisited by ecologists and population geneticists alike.

61 gists, 1 pediatric cardiologist, 1 molecular geneticist, along with a 25-member expert panel who had

62 The tool offers geneticists an easy-to-use and scalable analysis for lar

63 logist, a pediatric hematologist, a clinical geneticist, an obstetrician-perinatologist, and an anest

64 variants classified by a clinical laboratory geneticist and adherence to a healthy lifestyle based on

65 the premise put forth by another preeminent geneticist and evolutionary biologist, Theodosius Dobzha

66 Fred Sherman was a prominent yeast geneticist and my mentor in graduate school.

67 Barbara McClintock, geneticist and recipient of the 1983 Nobel Prize in Phys

68 alled for, referral can be made to a medical geneticist and/or a medical genetics clinic.

69 w is designed as a handbook for the nonmouse geneticist and/or junior investigator to permit the succ

70 Although geneticists and archaeologists continue to make progress

71 ant data is no longer limited to clinicians, geneticists and bioinformaticians, however; ongoing comm

72 equire close collaboration among clinicians, geneticists and bioinformaticians.

73 ansformed the way that molecular biologists, geneticists and bioinformaticists analyze genomic data.

74 m collections is a long-standing problem for geneticists and breeders.

75 open web service, COPLA will help bacterial geneticists and clinical microbiologists to quickly clas

76 All mutations were evaluated by molecular geneticists and clinicians in the context of the patient

77 for interdisciplinary collaboration between geneticists and cognitive neuroscientists, 2) the likeli

78 lso be of great utility for medical/clinical geneticists and collectively many genetic variants can r

79 and close collaborations between clinicians, geneticists and developmental biologists.

80 continues to present a challenge to clinical geneticists and diagnostic laboratories.

81 res of genetic medicine and >/=1600 clinical geneticists and diagnostic laboratory scientists.

82 Geneticists and epidemiologists often observe that certa

83 ditional (ie, a regional service by clinical geneticists and genetic counselors), and non-VA care (ie

84 evelopmental biologists to engage with human geneticists and genetic resources to advance the study o

85 d selected children for referral to clinical geneticists and genetic testing.

86 After adjustment, geneticists and gynecologists were less likely than medi

87 omic analysis will become a standard tool of geneticists and has the potential to revolutionize the f

88 analyzed a subsample of 1240 self-identified geneticists and made a limited number of comparisons wit

89 More recently geneticists and molecular biologists trying to better un

90 most useful to two kinds of readers: fungal geneticists and molecular biologists who are interested

91 studies, and the pioneering efforts of mouse geneticists and neuroscientists to identify and clone ge

92 With this framework, both geneticists and non-geneticist clinicians can optimize t

93 apps will be important tools for biologists, geneticists and physicians to review content while parti

94 genes, have also become a focus of study to geneticists and reproductive biologists interested in fe

95 For >40 years, geneticists and science historians have appealed to the

96 h attention from the media, and referrals to geneticists and surgeons, and requests for genetic testi

97 and being used by soybean breeders and geneticists and the list of SNPs in the assay is an idea

98 In 1939, English mathematician, geneticist, and psychiatrist Lionel Sharples Penrose hyp

99 d 44% of physician geneticists, 53% of Ph.D. geneticists, and 31% of genetic counselors; answers were

100 resource, a working group of nephrologists, geneticists, and a genetic counselor provide a pragmatic

101 pe correlation is essential if pathologists, geneticists, and clinicians are to interpret the growing

102 flects a consensus among hematopathologists, geneticists, and clinicians regarding both updates to cu

103 se we created as a resource for researchers, geneticists, and clinicians.

104 discuss views of genetic counselors, medical geneticists, and counselees on specific issues, and docu

105 on biologists, bioinformaticians, population geneticists, and ecologists together with conservation a

106 at interest to human geneticists, population geneticists, and evolutionists, but remains incompletely

107 bers of the GI oncology community, molecular geneticists, and genetic counselors.

108 een neonatologists, cardiologists, surgeons, geneticists, and genetic counselors.

109 es, active collaboration of neurologists and geneticists, and investigation of affected families), bu

110 vorite tool of biochemists, epidemiologists, geneticists, and molecular biologists as well as clinici

111 l/clinical investigators, bioinformaticians, geneticists, and physicians from multiple specialties) m

112 d fruitful collaboration between clinicians, geneticists, and physiologists.

113 The collaboration of clinicians, geneticists, and renal physiologists has enabled us to b

114 Here we share our diverse perspectives as geneticists, anthropologists, archaeologists, museum cur

115 The human geneticist Archibald Garrod noted in 1931 that, "It is,

116 surveys of population structure, population geneticists are able to select loci to use in population

117 reasingly clear to the statistics community; geneticists are also finding this framework useful and a

118 Molecular geneticists are developing the third-generation human ge

119 dopt the approach of whole-genome screening, geneticists are faced with the challenge of having to in

120 ine scale, evolutionary biologists and human geneticists are increasingly exploiting linkage disequil

121 Most geneticists are taught classical statistics, which inclu

122 Human geneticists are well placed to coordinate a systematic e

123 te since the early 20(th) century, such that geneticists argue both for and against polygenic inherit

124 ar biology has brought many new tools to the geneticist as well as an exponentially expanding databas

125 Although pioneered by human geneticists as a potential solution to the challenging p

126 abase is intended to support both population geneticists as well as clinicians undertaking the task t

127 designs are in common use among evolutionary geneticists, as well as among plant and animal breeders.

128 Of 402 Chinese geneticists asked to participate, 255 (63%) returned by

129 To help interested geneticists avoid duplicating efforts and make use of ex

130 s importance in development, T has intrigued geneticists because of its association with the mouse t-

131 sions have been of long-standing interest to geneticists because they are capable of suppressing reco

132 r likely pathogenic by a clinical laboratory geneticist blinded to case status.

133 am members also serve the community of maize geneticists by lending technical support for community a

134 With them, geneticists can elucidate how evolution built a new trai

135 ture has changed the types of studies canine geneticists can undertake.

136 Results were reported by clinical molecular geneticists certified by the American Board of Medical G

137 niques, and resources available to the Ciona geneticist, citing examples of studies that employed suc

138 ith this framework, both geneticists and non-geneticist clinicians can optimize their ability to dete

139 Evolutionary geneticists commonly try to explain this paradox with me

140 in most human populations, the ways in which geneticists conceptualize the relationship between racia

141 Yet despite this belief, many statistical geneticists continue applying, in slightly new and diffe

142 Developmental geneticists' contribution to the study of the evolution

143 orphology is of interest to anthropologists, geneticists, dermatologists and forensic scientists, but

144 through computer simulation, may help cancer geneticists design efficient experiments and formulate h

145 ious meetings, brought together biochemists, geneticists, developmental and tissue biologists interes

146 mapping has been a major challenge for plant geneticists due to the lack of techniques that are widel

147 plex traits poses a particular challenge for geneticists due to the large sample sizes and large numb

148 falciparum present a challenge to population geneticists due to their extreme diversity, which is gen

149 ntroversies that have preoccupied population geneticists during this time (and were often hotly debat

150 Collaboration among molecular geneticists, ecologists and bioinformaticians promises t

151 iminary diagnosis to an experienced clinical geneticist even before a clinical examination and genoty

152 erscores the desirability of evaluation by a geneticist for all individuals with anophthalmia and mic

153 Sardinia has been of particular interest to geneticists for decades.

154 fts to inbreeding has intrigued evolutionary geneticists for decades.

155 lity on a congenic B6 background has puzzled geneticists for decades.

156 x trait, has been of fundamental interest to geneticists for decades.

157 itative traits has been of great interest to geneticists for many decades, and many statistical metho

158 tive evolution, which satisfied quantitative geneticists for over 50 years, has been modified in the

159 ill provide an important resource to soybean geneticists for quantitative trait locus discovery and m

160 Adult and pediatric nephrologists and geneticists from four continents whose clinical practice

161 tium of paediatric neurologists and clinical geneticists from nine countries (Canada, Cyprus, Czechia

162 ts, (paediatric) urologists, biochemists and geneticists from OxalEurope and the European Rare Kidney

163 ve ophthalmic oncologists, pathologists, and geneticists from retinoblastoma referral centers located

164 ly conserved membrane traffic pathway, yeast geneticists generated tools for microbiologists and immu

165 As clinicians, laboratory geneticists, genetic counselors, and researchers, we des

166 ematologists-oncologists (PHOs) but included geneticists, genetic counselors, clinic administrators,

167 ncluding oncologists, pathologists, clinical geneticists, genetic researchers, and patient advocates)

168 were seen by pediatric otolaryngologists and geneticists had the highest odds of receiving workup and

169 Skeptics among both epidemiologists and geneticists have argued that genomic research adds littl

170 Quantitative geneticists have become interested in the heritability o

171 Geneticists have been interested in inbreeding and inbre

172 he post-genomics era, molecular evolutionary geneticists have come to possess the molecular, statisti

173 Classically cancer geneticists have concentrated on genomic changes and hav

174 Evolutionary geneticists have expended tremendous effort to estimate

175 Although geneticists have extensively debated the mode by which a

176 logy in the early 20th century, evolutionary geneticists have for the most part treated genes and mut

177 Here we discuss how neuroimagers and geneticists have formed alliances to discover how geneti

178 Geneticists have found that more than one clinical syndr

179 Breeders and evolutionary geneticists have grappled with the complexity of the 'ge

180 Geneticists have had for many years a protocol to identi

181 Evolutionary geneticists have increasingly used sequence variation in

182 Moreover, although quantitative geneticists have long known that adaptive variation is h

183 Geneticists have long sought the ability to manipulate v

184 Population geneticists have long sought to estimate the distributio

185 Geneticists have long sought to identify the genetic cha

186 e tasks common to statistical and population geneticists have not been created yet.

187 For many years geneticists have relied on conditional activation to stu

188 Although geneticists have shown that populations tend to stratify

189 olonized from the Americas (Heyerdahl 1950), geneticists have sought--but have not found--any evidenc

190 Drosophila geneticists have uncovered roles for microRNAs in the co

191 Geneticists have usually approached this problem by tryi

192 m the very beginning of my work as a Medical Geneticist I have composed personal "algorithms" to piec

193 on of maize has been developed to help plant geneticists identify sequence variants affecting importa

194 The combined efforts of clinicians, geneticists, immunologists and cell biologists are produ

195 utions to the increased number of population geneticists in several European countries).

196 ms of interventionalists, cardiologists, and geneticists in tertiary centers with expertise in managi

197 recognized as the greatest challenge facing geneticists in the twenty-first century.

198 It explores how geneticists in the United States accommodated these disr

199 andidate genes to be considered could assist geneticists in their hunt for disease genes, particularl

200 tions with plant physiologists and molecular geneticists in Wageningen and the wider scientific commu

201 healthcare providers who are not trained as geneticists, in particular primary care physicians.

202 l subpopulations are less precise than most (geneticists included) expect, because that is usually ba

203 Geneticists increasingly study tobacco use as a model fo

204 l practices of ophthalmologists and clinical geneticists internationally.

205 The past decade has been a fruitful one for geneticists involved in Parkinson's disease (PD) researc

206 One of the greatest challenges facing human geneticists is the identification and characterization o

207 ches completion, the challenge for mammalian geneticists is to develop approaches for the systematic

208 The "NPD ratio," widely used by yeast geneticists, is of limited applicability and is prone to

209 For human geneticists, it is expected that Drosophila studies will

210 introduced into the literature by the German geneticist Ludwig Plate in 1910, 100 years ago.

211 oes so by focusing on the career and life of geneticist Masuo Kodani, who, as a Japanese American, fo

212 Clinical geneticists may be more likely to identify these conditi

213 thin quantitative trait loci, while clinical geneticists may use CE to help connect causative variant

214 that can combine the expertise of population geneticists, multispecialty oncologists, molecular epide

215 Geneticists need new user-friendly computer programs tha

216 Geneticists need to appreciate that some deaf persons ma

217 ilability of ethics training and support for geneticists, nurses, and counsellors.

218 nary/organismal biologists and developmental geneticists often preclude an effective merging of disci

219 quired to use these cutting-edge techniques, geneticists often revert to simpler, less powerful metho

220 o were assisted by genetic counselors, nurse geneticists, or others (v counseling by themselves), tho

221 Consequently, collaboration between geneticists, palaeoecologists, palaeoclimatologists, and

222 Thirty years ago, a group of population geneticists performed a series of mark-and-recapture exp

223 mental scientists with molecular biologists, geneticists, physiologists and physician scientists are

224 SNP) variation is of great interest to human geneticists, population geneticists, and evolutionists,

225 However, molecular geneticists propose an aging process that is programmed

226 ad a major influence on the statistician and geneticist R. A.Fisher at the time he was a mathematics

227 ished with an experienced team consisting of geneticists, radiologists, endocrinologists, pathologist

228 Geneticists rated PCP management of 8 MDR results (73% [

229 A panel of clinician-geneticists rated the appropriateness of how PCPs manage

230 Today, cancer geneticists recognize seven clinically distinct, inherit

231 Initially, worm geneticists relied exclusively on a classical genetics a

232 Population geneticists remain unsure of the forces driving the evol

233 ause they were denied access to data, 28% of geneticists reported that they had been unable to confir

234 Biochemists and geneticists, represented by Doug and Bill in classic ess

235 elatively short period of time, the clinical geneticist's "toolbox" has been expanded by machine-lear

236 appa = 0.70; correlation = 0.77) between the geneticist's breast cancer risk assessments based on com

237 Redundancy can also be dubbed 'a geneticist's nightmare': It hinders the predictability o

238 and age at diagnosis of cancers; and cancer geneticist's risk assessment were compared for 120 pairs

239 One of the top things on a geneticist's wish list has to be a set of mutants for ev

240 Thirty-five percent of geneticists said that sharing had decreased during the l

241 loci has been shown to be a useful tool for geneticists searching for disease genes.

242 Geneticists seek out markers of domestication in the gen

243 Geneticists seeking to understand HIV-1 evolution among

244 examine forensic genetics and argue that all geneticists should anticipate the ethical and social iss

245 wide association studies are finally leading geneticists straight to the genetic susceptibility facto

246 Geneticists study the gene; however, for epigeneticists,

247 up or down regulated in cancers, expression geneticists study their function in the context of gene

248 Although the prevailing view among geneticists suggests that recombination hotspots exist u

249 new genotyping technologies, has given human geneticists the tools necessary to comprehensively, and

250 Inspired by phage and fly geneticists, Till and McCulloch irradiated mice to induc

251 The estimate is used by population geneticists to characterize population structure, by eco

252 challenging the entire lupus community, from geneticists to clinical investigators.

253 etic markers in nonmodel systems has allowed geneticists to construct linkage maps for a diversity of

254 nkage information of coupling phase have led geneticists to construct two separate but related linkag

255 the genome is sufficient to allow molecular geneticists to correctly identify promoter sequences for

256 matics resources for plant physiologists and geneticists to dissect the molecular basis of key traits

257 tly, genome-wide sampling enables population geneticists to distinguish effects that act on the whole

258 In short, MendelIHT enables geneticists to fit a single regression model that simult

259 he model and algorithm described will enable geneticists to identify and map imprinted quantitative t

260 More efficient imputation allows geneticists to locate and test effects of more DNA varia

261 ncer chromosomes are tools used by fruit fly geneticists to prevent meiotic recombination.

262 Modern DNA sequencing technologies enable geneticists to rapidly identify genetic variation among

263 Auto-SAM enables geneticists to run structured association mapping algori

264 tic methods in pedigree analysis has enabled geneticists to tackle computations intractable by standa

265 ects to these syndromes, it was possible for geneticists to take a candidate gene approach.

266 eview is to help bridge this gap by exposing geneticists to terminology, sampling methods and analysi

267 europathological features that should prompt geneticists to test for mutations in the ATP1A2 gene.

268 dy provides a useful resource for Drosophila geneticists to understand how transposons create extensi

269 We encourage landscape geneticists to utilize multiscale, replicated landscapes

270 nt a challenge-both to modelers and to human geneticists-to identify which important features are mis

271 mediately intuitive to a bioinformatician or geneticist trying to understand family structures, many

272 aditionally sought to incriminate exposures; geneticists uncover inherited susceptibility; and molecu

273 , in the past, fallen by default to clinical geneticists untrained in rheumatology.

274 ng fluctuations during the whole crop cycle, geneticists usually do not consider environmental measur

275 molecular maps and markers can alter the way geneticists utilize wild and exotic germplasm.

276 To identify Chinese geneticists' views of ethical issues in genetic testing

277 lity genes for common diseases has polarized geneticists' views on what disease models are appropriat

278 tured association mapping more accessible to geneticists, we have developed an automatic processing s

279 models computationally accessible to applied geneticists, we wrote an R package of computer software,

280 Geneticists were as likely as other life scientists to d

281 ling, and medical oncologists (v surgeons or geneticists) were more likely to discuss all six items (

282 eristics are highly informative for clinical geneticists when diagnosing genetic diseases.

283 light of one author's (J.L.) experience as a geneticist who recently had his own genome sequenced.

284 Clinical geneticists who analyze exome or genome sequencing data

285 Forty-seven percent of geneticists who asked other faculty for additional infor

286 nals, epidemiologists, basic scientists, and geneticists who provide critical clinical and mechanisti

287 Among geneticists who said they had intentionally withheld dat

288 This is a bonanza for the statistical geneticist, who can create probeset summaries with speci

289 oncologists, genetic counselors, and cancer geneticists will be required to drive the paradigm shift

290 challenge for the coming generation of human geneticists will be resolving complex polygenic and mult

291 Geneticists will become increasingly involved in profess

292 Mouse geneticists will find CE data informative in identifying

293 of genetic tools available to the Drosophila geneticist with live imaging and biophysical techniques.

294 ciplinary expert panel of radiologists and a geneticist with subject-specific expertise formulated te

295 can also cause mutant phenotypes, providing geneticists with an alternative yet powerful tool to ide

296 on being a true pathogenic result, providing geneticists with rational markers to evaluate the most r

297 utants have only been available to mammalian geneticists within the past few years.

298 pes to their molecular basis, especially for geneticists without programming experience.

299 Population geneticists work with a nonrandom sample of the human ge

300 Similarly, geneticists working largely with modern crops and their