ライフサイエンスコーパス: molecular genetics

1 he roles of specific residues were probed by molecular genetics.

2 become an increasingly powerful strategy in molecular genetics.

3 amenable to manipulation using classical and molecular genetics.

4 rmined is consequently a pressing problem in molecular genetics.

5 s, and alcohol in animal models and in human molecular genetics.

6 translation-prevention research and in basic molecular genetics.

7 foundational experimental systems for modern molecular genetics.

8 ty of technical skills in both classical and molecular genetics.

9 chanisms was transformed by the new tools of molecular genetics.

10 genomes are among the current challenges in molecular genetics.

11 sult of the advances in, and application of, molecular genetics.

12 tudies that cover both clinical features and molecular genetics.

13 me by the use of recombinant DNA methods and molecular genetics.

14 ories into schistosome molecular biology and molecular genetics.

15 pidemiology, 3) gene finding methods, and 4) molecular genetics.

16 ions such as intracellular visualization and molecular genetics.

17 dvances in both brain imaging technology and molecular genetics.

18 can complex by using the power of Drosophila molecular genetics.

19 a combination of classical biochemistry and molecular genetics.

20 of the major landmarks of late 20th century molecular genetics.

21 have broad applications to gene therapy and molecular genetics.

22 relationships between imaging phenotypes and molecular genetics.

23 Molecular genetics along with optogenetic and pharmacoge

24 Recent molecular genetics analyses of mutants defective in auto

25 Molecular genetics analyses revealed the insertion of a

26 In this report, using molecular genetics, analytical chemistry, and mass spect

27 teaching, I co-authored several textbooks on molecular genetics and a biography of George Beadle.

28 Using molecular genetics and an experimental model of the tick

29 Molecular genetics and biochemical approaches reveal tha

30 Here, using molecular genetics and biochemical approaches, a series

31 This study uses the combined power of molecular genetics and biochemistry to highlight the rol

32 id dominant plant, is fast becoming a useful molecular genetics and bioinformatics tool due to its ke

33 utophagy in eukaryotes and allows the use of molecular genetics and biology in different model system

34 The site is currently focused on the molecular genetics and biology of T1D susceptibility and

35 However, recent advances in molecular genetics and brain imaging implicate dopaminer

36 Developments in molecular genetics and brain imaging may clarify how bra

37 ng the paradigm of what is possible in wheat molecular genetics and breeding.

38 Here we combine a proteomic study with a molecular genetics and cell biology approach to determin

39 avenues of research including epidemiology, molecular genetics and cell biology have identified link

40 Here, we explore the molecular genetics and cell biology that govern jaw join

41 olved scientific questions pertaining to the molecular genetics and cellular biology of these tumors.

42 resolution, we show through a combination of molecular genetics and chemical perturbations that direc

43 An international team has used molecular genetics and chemical tagging to trace how bab

44 an example of the powerful interplay between molecular genetics and clinical care.

45 and Festuca pratensis by using classical and molecular genetics and comparative genomics.

46 l species to crop species has revolutionized molecular genetics and crop improvement strategies.

47 manipulation, land-use and habitat surveys, molecular genetics and demographic and spatial modelling

48 of their biology is needed, with emphasis on molecular genetics and disease modeling.

49 rphological features, but recent progress in molecular genetics and embryology has revealed deep simi

50 ple regression analysis, we have studied the molecular genetics and evolution of short wavelength-sen

51 y interesting regions of the genome for both molecular genetics and evolutionary studies; yet, for mo

52 ing specific targets for characterization by molecular genetics and functional genomics.

53 gy are fundamental to state-of-the-art plant molecular genetics and GM crop improvement.

54 Molecular genetics and heterologous expression implicate

55 ade gliomas is still unknown but advances in molecular genetics and imaging are improving our ability

56 Recent advances in molecular genetics and imaging technologies have begun t

57 By contrasting the biology, molecular genetics and immunology of these two unusual c

58 Here we used molecular genetics and in vivo calcium imaging to invest

59 Molecular genetics and in vivo imaging of cell behaviors

60 Improving our understanding of molecular genetics and leukemic transformation holds pro

61 rom the application to the nervous system of molecular genetics and molecular cell biology.

62 rative resection, and further studies of the molecular genetics and natural history of these unusual

63 Moreover, the use of molecular genetics and new experimental strategies has b

64 Molecular genetics and observational case studies of 2 f

65 m1054 mutant a useful model for studying the molecular genetics and pathogenesis of PCD.

66 ause of advances in the understanding of the molecular genetics and pathogenesis of the disease, inco

67 Recent advances in molecular genetics and phylogenetic reconstruction have

68 d by the gap between cellular immunology and molecular genetics and profited from the advances of the

69 en studied at levels of cellular physiology, molecular genetics and protein biochemistry.

70 Most studies of human molecular genetics and social environment interactions o

71 However, recent advances in molecular genetics and structural biology are helping to

72 Advances in molecular genetics and structural biology indicate stron

73 Here, molecular genetics and structure-activity analyses show

74 Combining molecular genetics and surname analysis illuminates popu

75 Using molecular genetics and the annotated Drosophila melanoga

76 taneous disorders in the wake of advances in molecular genetics and the development of mouse models o

77 Technological advancements in fields such as molecular genetics and the human microbiome have resulte

78 Advances in molecular genetics and the pathogenesis of ARVC could af

79 is to document recent advances in hypovirus molecular genetics and to provide examples of how that p

80 the tools of disease physiology, single-gene molecular genetics, and genomics.

81 eams with skills in clinical diagnostics and molecular genetics, and hard work by scores of trainees

82 tz crystal microbalance, circular dichroism, molecular genetics, and immunofluorescence to study spec

83 ances in experimental pathology, immunology, molecular genetics, and neuroimaging, as well as the dis

84 Advances in magnetic resonance imaging, molecular genetics, and neuroimmunology have increased o

85 plication of modern chemistry, biochemistry, molecular genetics, and optical physics to these old str

86 isciplinary approach combining biochemistry, molecular genetics, and structural biology, that meningo

87 od, including the precise cell(s) of origin, molecular genetics, and the mechanisms responsible for t

88 an integrated genomics, bioinformatics, and molecular genetics approach to dissect regulatory networ

89 Using a complementary molecular genetics approach to enhance cell-cell interac

90 Here we explore a molecular genetics approach to restrict the assimilation

91 Using a molecular genetics approach, we investigated the mechani

92 The utilization of molecular genetics approaches in examination of panic di

93 Molecular genetics approaches in zebrafish research are

94 Improved understanding of the molecular genetics associated with these lesions will li

95 Taking advantage of the robust molecular genetics available in S. cerevisiae, we identi

96 The aim of this study was to use a mouse molecular genetics-based approach to test whether the le

97 Recently, the use of a molecular genetics-based approach using messenger RNA (m

98 Examining 20 730 individuals, we report a molecular genetics-based heritability estimate (h(2)SNP)

99 There are significant differences in molecular genetics between pancreatic and extrapancreati

100 We use molecular genetics, biochemical analyses, and experiment

101 truction (cryo-reconstruction) combined with molecular genetics, biochemistry, and in vivo approaches

102 owever, little is known about the underlying molecular genetics, biochemistry, or physiology of L. he

103 s, which has many of the advantages of yeast molecular genetics but uses long-range microtubule-based

104 y through the ongoing extinction crisis, and molecular genetics can assist in park design by helping

105 Advances in molecular genetics challenge the hepatology community to

106 , clinical trials, psychiatric epidemiology, molecular genetics, children, and other cultures are dis

107 With better appreciation of molecular genetics, classifications can be based on unde

108 -girdle muscular dystrophy with attention to molecular genetics, clinical features, inheritance, and

109 otyping that should prove useful in clinical molecular genetics diagnostics and pharmacogenetic resea

110 rrent classification system, histopathology, molecular genetics, electrophysiology, and transcriptome

111 stry, molecular biology, molecular virology, molecular genetics, epigenetics, genomics, proteomics, a

112 stry, molecular biology, molecular virology, molecular genetics, epigenetics, genomics, proteomics, a

113 el player in Plasmodium motility and provide molecular genetics evidence for a critical role of a sma

114 poson vector for chromosomal engineering and molecular genetics experiments in zebrafish.

115 le-stranded components is necessary for many molecular genetics experiments.

116 Advances in molecular genetics extend our ability to recognize and t

117 netheless, there is increasing evidence that molecular genetics, focused -omic (proteomic, metabolomi

118 ocusing on clinical and laboratory features, molecular genetics, genotype-phenotype correlation, and

119 This article will review von Hippel-Lindau molecular genetics, genotype-phenotype correlations and

120 Cell type-specific molecular genetics has allowed a new level of examinatio

121 Molecular genetics has been key in allowing developmenta

122 Molecular genetics has clearly differentiated the genus

123 combination of neurobehavioural studies and molecular genetics has determined behavioural difference

124 Progress in molecular genetics has enabled the dissection of several

125 As the scope of assays used in molecular genetics has expanded to capture systems-level

126 The development of molecular genetics has greatly enhanced the study of the

127 Molecular genetics has had a major influence on our unde

128 Modern molecular genetics has had a profound effect on our unde

129 In recent years, the advent of molecular genetics has heightened awareness of familial

130 Molecular genetics has identified dozens of genes that r

131 nt research using methodological advances in molecular genetics has improved our understanding of the

132 The advent of molecular genetics has in the past several years aided c

133 The field of molecular genetics has many roles in biodiversity assess

134 The technology of molecular genetics has profoundly altered the conduct of

135 Molecular genetics has revealed a precise stereotypy in

136 Molecular genetics has revealed the identities of severa

137 transposon, the workhorse of D. melanogaster molecular genetics, has a pronounced nonrandom insertion

138 Advances in immunology and molecular genetics have accelerated our understanding of

139 contributions to insights in population and molecular genetics have been fueled by advances in compu

140 s in neuroimaging, developmental biology and molecular genetics have increased the understanding of d

141 ology, physiology, and biochemistry, but its molecular genetics have not been explored.

142 Advances in cell type-specific molecular genetics have now helped to elucidate several

143 The last 50 years of molecular genetics have produced an abundance of new dis

144 Recent advances in molecular genetics have produced many novel strategies f

145 actorial and complex, but recent advances in molecular genetics have provided additional information

146 Major advances and developments in corneal molecular genetics have revolutionized our fundamental u

147 More recently, advances in molecular genetics have suggested important mechanistic

148 Advances in molecular genetics have vastly improved our understandin

149 Recent advances in bacterial molecular genetics, immunology, and human genetics have

150 Recent studies using molecular genetics in mice and dogs, as well as histopat

151 To evaluate the role of molecular genetics in the routine clinic, we investigate

152 ggesting these cells' utility to dissect T2D molecular genetics in these regions.

153 Molecular genetics, in vitro assays, and expression data

154 as opportunities presented by incorporating molecular genetics into these efforts.

155 , the involvement of experts from outside of molecular genetics is hampered by the specialist literat

156 Molecular genetics is playing an increasing role in the

157 PURPOSE OF REVIEW: Molecular genetics is revolutionizing the diagnosis and

158 sibships, with 243 markers typed by the Utah Molecular Genetics Laboratory (UMGL) and (b) 3,027 subje

159 cts from 256 sibships (243 markers, the Utah Molecular Genetics Laboratory).

160 By analyzing tumors at a molecular genetics level rather than traditional histolo

161 The potential of molecular genetics, like all technology, must be evaluat

162 ration and sperm storage as well as powerful molecular genetics make it an excellent model organism f

163 able data on the epidemiology, risk factors, molecular genetics, management options, and outcomes of

164 esh cellular material for flow cytometry and molecular genetics microsatellite polymerase chain react

165 f the mouse for glaucoma research, including molecular genetics, molecular pharmacology, and the sear

166 titioners for the changes likely to occur as molecular genetics moves from the laboratory to clinic.

167 Recent findings from molecular genetics now make it possible to test directly

168 nces in our understanding of the biology and molecular genetics of acute leukemia that are clinically

169 we provide a state-of-the-art review of the molecular genetics of ADHD incorporating evidence from c

170 Unraveling the molecular genetics of AF might provide new insights into

171 Recent advances in our knowledge of the molecular genetics of AML have significantly improved ou

172 Several advances in the molecular genetics of aortic valve formation and calcifi

173 investigations into the pathophysiology and molecular genetics of ARH.

174 resulted in a detailed understanding of the molecular genetics of benign and malignant tumors affect

175 An understanding of the molecular genetics of carcinoma of the pancreas is impor

176 We focus on the molecular genetics of cardiac hypertrophy in various con

177 tly, data has become available regarding the molecular genetics of children affected with juvenile de

178 These advancements in the molecular genetics of CLL have important implications fo

179 Investigators conducting studies of the molecular genetics of complex traits in humans often nee

180 chanisms controlling DUOX expression and the molecular genetics of congenital hypothyroidism.

181 must become more adept at understanding the molecular genetics of corneal dystrophies as genetics is

182 ariants, and they may give insights into the molecular genetics of facial development.

183 these data provide key new insights into the molecular genetics of form and function in the mammalian

184 The important interplay between the molecular genetics of gastrontestinal stromal tumour and

185 A more complete understanding of the molecular genetics of head and neck cancer is providing

186 ess has been made in the past two decades in molecular genetics of heritable skin diseases, and patho

187 there have been significant advances in the molecular genetics of high-grade astrocytomas, relativel

188 oming available on the molecular biology and molecular genetics of host-pathogen interactions.

189 Extraordinary progress accomplished in molecular genetics of inherited cardiomyopathies allowed

190 Studies of the molecular genetics of inherited disorders have also prov

191 een a revolution in our understanding of the molecular genetics of insecticide resistance.

192 Here, we review published studies of the molecular genetics of lung cancer in never smokers and i

193 n and translation in Escherichia coli to the molecular genetics of mammalian cells.

194 Here, I review the molecular genetics of meiotic silencing and consider the

195 associated with cardiac arrhythmias, and the molecular genetics of monogenic disorders of heart rhyth

196 s approach could also be used to clarify the molecular genetics of myelopoiesis, it was found that th

197 nderstanding the clinical manifestations and molecular genetics of myotonic syndromes, with particula

198 a major advance in our understanding of the molecular genetics of NCMD and provide insights into the

199 Recent advances in understanding the molecular genetics of nematode moulting should stimulate

200 odel has made it possible to investigate the molecular genetics of neural crest contributions to outf

201 An improved understanding of the molecular genetics of OS may yield new approaches to imp

202 ovide a valuable platform for addressing the molecular genetics of osteosarcoma and for developing no

203 ology in increasing our understanding of the molecular genetics of PAD.

204 Therefore, understanding the molecular genetics of palate development is important fr

205 we believe that an improved knowledge of the molecular genetics of pancreatic cancer will lead to the

206 The molecular genetics of panic disorder (PD) with and witho

207 adic parathyroid tumors to better define the molecular genetics of parathyroid tumors.

208 In this review we describe the molecular genetics of PD as currently understood to help

209 e developmental timing, natural history, and molecular genetics of pediatric leukemia in general.

210 ntly contributed to our understanding of the molecular genetics of photosynthesis, photoheterotrophy,

211 view summarizes current understanding of the molecular genetics of polycythemia vera and essential th

212 important recently published findings on the molecular genetics of primary gliomas.

213 stigations into the biochemical pathways and molecular genetics of reduced P metabolism in bacteria a

214 This study provides insight into the molecular genetics of SAM initiation and function in mai

215 Elucidation of the molecular genetics of sarcomeric hypertrophic cardiomyop

216 wide association study of common SNPs in the Molecular Genetics of Schizophrenia (MGS) case-control s

217 ciation study (GWAS) data set available, the Molecular Genetics of Schizophrenia (MGS) data set.

218 case subjects of European ancestry from the Molecular Genetics of Schizophrenia (MGS) sample, three

219 The Molecular Genetics of Schizophrenia (MGS2) project recru

220 Here, we review the molecular genetics of SHANK mutations in human ASD and d

221 ollowing the successful determination of the molecular genetics of single-gene disorders, attention h

222 This review first describes the molecular genetics of SMA and then focuses on newborn sc

223 Recent work on the molecular genetics of speciation has raised an altogethe

224 Recent advances in the molecular genetics of sporadic and familial GEP NET are

225 recent advances in our understanding of the molecular genetics of T-ALL.

226 ome editing] will be critical to dissect the molecular genetics of T2DM pathogenesis, to build next-g

227 The molecular genetics of the assembly pathway and high-reso

228 The present report reviews the clinical and molecular genetics of the cAMP-dependent protein kinase

229 Here, we define the molecular genetics of the human LIGHT locus, revealing i

230 we discuss the clinical characteristics and molecular genetics of the more common autosomal recessiv

231 er, much remains to be done to elucidate the molecular genetics of the risk of developing ALD and in

232 The molecular genetics of these diseases explains the differ

233 garding the etiology, molecular biology, and molecular genetics of these diseases.

234 lines recent developments in the biology and molecular genetics of these disorders, current diagnosti

235 nderpinnings, little else is known about the molecular genetics of this frequently fatal cancer.

236 in this area, as well as interesting data on molecular genetics of thyroid cancer will be discussed.

237 The molecular genetics of trichome distortion in Arabidopsis

238 Recent advances in the molecular genetics of uveal melanoma are revolutionizing

239 ing data, our findings shed new light on the molecular genetics of uveal melanoma, delineating it as

240 substantial advantages for the study of the molecular genetics of vertebrate embryogenesis.

241 his issue, we took advantage of the power of molecular genetics of yeast.

242 esence of VEGF stimulation was combined with molecular genetics, optical imaging, and biochemistry to

243 Combined with technologies for single-cell molecular genetics or cell biology, it may significantly

244 The quest for therapies based on molecular genetics (pharmacogenomics, DNA microarrays, e

245 Using molecular genetics, plant physiology, hormone analysis a

246 In this study, the broad molecular genetics profile underlying the novel EOM phen

247 Here we applied molecular genetics, proteomics, and whole-genome sequenc

248 Recent advances in human and molecular genetics provide an unparalleled opportunity t

249 On this rich backdrop, molecular genetics provides the opportunity to play out

250 identified from NGS databases at three large molecular genetics reference laboratories.

251 The results inform molecular genetics research and transdiagnostic treatmen

252 rily based on our laboratory-based and human molecular genetics research of addictive diseases, will

253 tics, adoption of the Caenorhabditis elegans-molecular genetics resource for general nematological re

254 Recent advancements in molecular genetics resulted in the identification of gli

255 ccount the most current information on virus molecular genetics, serology, and host reactivity.

256 Molecular genetics should help match the types and/or in

257 entific disciplines (e.g. bioinformatics and molecular genetics), spawning new fields, and even chang

258 g of actin gene transcription, combined with molecular genetics, stochastic simulation and probabilis

259 hat encompasses the latest advances in viral molecular genetics, structural biology, and immunology.

260 Recent molecular genetics studies implicate neuregulin 1 (NRG1)

261 Extension of molecular genetics studies in Borrelia burgdorferi has b

262 To facilitate molecular genetics studies of this sodium-pumping enzyme

263 Molecular genetics studies of three common autoaggregati

264 large part due to a paucity of resources for molecular genetics, such as a reference genome.

265 this approach complements the current mouse molecular genetics systems and provides a powerful means

266 Molecular genetics techniques are an essential diagnosti

267 ed for structural studies and for the use of molecular genetics techniques in addressing the mechanis

268 ements in brain imaging, neuropathology, and molecular genetics that have led to different approaches

269 ause of advances in our understanding of the molecular genetics that underlie the pathogenesis of man

270 Amassing greater knowledge on the molecular genetics that underlie tree form can benefit t

271 Here we investigated, using molecular genetics, the conservation and diversification

272 fference-makers for psychiatric illness from molecular genetics through culture and review their dist

273 of gene expression mechanisms has propelled molecular genetics to a state of rapid development, a st

274 examples of pharmacogenetics, spanning from molecular genetics to clinical diagnostics for individua

275 cently, researchers have applied advances in molecular genetics to conduct candidate gene and genome-

276 We exploited Arabidopsis molecular genetics to define the mechanism and regulatio

277 moted with the aim of harnessing advances in molecular genetics to develop targeted therapies for MPN

278 Here, we employed bioinformatics and molecular genetics to identify and characterize MATE tra

279 genomics, bioinformatics, metabolomics, and molecular genetics to identify and validate molecular ne

280 a coli by applying informatics, genomics and molecular genetics to microarray data obtained by others

281 bine structure-based protein engineering and molecular genetics to restrict the activity of the poten

282 Here, we use molecular genetics to show that the moss Physcomitrella

283 h, integrating the tools of quantitative and molecular genetics to study developmental processes, and

284 loited to apply the powerful tools of modern molecular genetics to this question.

285 Around 1972, I began to use molecular genetics to understand the developmental biolo

286 brief historical perspective of the field of molecular genetics, touching on seminal research that pa

287 stituents of ripe blueberries are known, the molecular genetics underlying their biosynthesis, locali

288 The molecular genetics underlying this abnormality are not k

289 of cancer-related deaths worldwide, yet the molecular genetics underlying this malignancy are still

290 The molecular genetics underlying thyroid carcinogenesis is

291 By using a combination of molecular genetics, vital dye fate mapping, organ cultur

292 archaeal atomic structure as a guide, yeast molecular genetics was used to query the function of the

293 By combining computational modeling with molecular genetics, we show that boundary formation is d

294 Using molecular genetics, we show that the functional gene for

295 Using molecular genetics, we then mapped at which point in the

296 nity exists for integrating plant and insect molecular genetics with coevolutionary ecology.

297 The focus is likely to be on exploiting molecular genetics with respect to neuroscience.

298 sorders, and will ultimately link defects in molecular genetics with specific neuropathological targe

299 Combining molecular genetics with target-based approaches, we esta

300 Using a combination of astrocyte-specific molecular genetics, with in vivo electrophysiology and p