ライフサイエンスコーパス: genomic information

1 cs, which are critical for the processing of genomic information.

2 and cope with the ever-increasing amount of genomic information.

3 haracterize and manipulate the regulation of genomic information.

4 iruses in the sample, and may provide useful genomic information.

5 ents and by difficulties in sharing personal genomic information.

6 features, ignoring other representations of genomic information.

7 ntation provides an indexed database of core genomic information.

8 wed us to characterize increasing amounts of genomic information.

9 lly by histopathology and currently based on genomic information.

10 eate the boundary of a genus on the basis of genomic information.

11 led to exponential increase in the amount of genomic information.

12 and gap filling largely without considering genomic information.

13 e of approaches to the ethical management of genomic information.

14 ks, allowing us to integrate microscopic and genomic information.

15 e browser is a powerful aggregator of varied genomic information.

16 of a size that has the potential to transfer genomic information.

17 d escaping it requires the use of additional genomic information.

18 Base is a database of Drosophila genetic and genomic information.

19 alysis of nonmodel plants with less complete genomic information.

20 es, gene expression profiles and comparative genomic information.

21 reviously used for describing phenotypes and genomic information.

22 seriously handicapped by a lack of adequate genomic information.

23 scribed as the largest untapped reservoir of genomic information.

24 des directly from tissue extract without any genomic information.

25 tion which allows timely access to important genomic information.

26 merases that ensure accurate transmission of genomic information.

27 be reconstructed and optimized in vitro from genomic information.

28 UTO, designed to apply clustering methods to genomic information.

29 the next logical step beyond storing purely genomic information.

30 ist in the deliberative analytical review of genomic information.

31 ism that provide phenotypic predictions from genomic information.

32 nd evolution of the organism since they lack genomic information.

33 rator in predicting external phenotypes from genomic information.

34 actors come together to faithfully propagate genomic information.

35 that VOCs can be accurately predicted using genomic information.

36 mber of individuals with access to their own genomic information.

37 of how to efficiently integrate all current genomic information.

38 updated to keep pace with the rapid rise in genomic information.

39 erse and carry varying copy numbers of their genomic information.

40 ints within nuclei and to regulate access to genomic information.

41 osome is important for the interpretation of genomic information.

42 tations with the extensive ENCODE functional genomics information.

43 t improves the efficiency of the analysis of genomics information.

44 g is an important problem in the analysis of genomics information.

45 es that faithfully and efficiently replicate genomic information.1-3 The mechanism of nucleotide inco

46 Despite a wealth of genomic information, a comprehensive alternative splicin

47 These include detailed genomic information, a wealth of genetic models, and gen

48 We increased genomic information about a shark species for ecological

49 The amount of genomic information about leukemia cells currently far e

50 tabase (CGD) is a new database that contains genomic information about the opportunistic fungal patho

51 is an international database for genetic and genomic information about Triticeae species (wheat [Trit

52 ypic differences between archaic groups from genomic information alone.

53 nned by an exponential increase in available genomic information and a proliferation of advanced DNA

54 not require, but benefits from, comparative genomic information and achieves accuracy comparable to

55 DNA evidence, thus limiting the value of the genomic information and also leaving unanswered certain

56 A paucity of biological, molecular, and genomic information and an absence of data from rigorous

57 abase (CGD) contains a curated collection of genomic information and community resources for research

58 scuss these data in the context of available genomic information and debates on whether the common ch

59 ves multiple approaches, including obtaining genomic information and examining the interspecies inter

60 S reveals it to be a nebulous description of genomic information and its relationship to disease, sym

61 logy of this disease, drawing from expanding genomic information and lessons from development and gen

62 e ways that such data can be complemented by genomic information and linked back to extant communitie

63 ng the variant calling process that contains genomic information and locations of variants in a group

64 Third, we discuss the merging of genomic information and physiological observations, reve

65 sents an important historical source of host genomic information and potentially of infecting viruses

66 h the increasing diversity and complexity of genomic information and public ontologies, making sense

67 Despite their importance, a lack of genomic information and resources has hindered the funct

68 This influx of genomic information and resources is also beneficial to

69 Using genomic information and the consensus AlgU promoter sequ

70 a pivotal role in both the accessibility of genomic information and the dynamics of replication.

71 required to accommodate this large volume of genomic information and to facilitate the transfer of pr

72 ever increasing wealth of publicly available genomic information and to utilize the tremendous progre

73 rchers to predict origins of metabolites via genomic information and to visualize potential host:micr

74 The method does not use any genomic information and unlike targeted methods, no prio

75 combining the multiple sources of functional genomics information and testing associations between th

76 d because of phylogenetic ambiguity, lack of genomic information, and their close associations with h

77 pedigrees, which includes both pedigree and genomic information, and where mutually dependent geneti

78 long as damage is present to prevent loss of genomic information; and after the arrest, cells must re

79 om genetic mutations and, therefore, loss of genomic information appears necessary for carcinogenesis

80 ing robust predictors of drug responses from genomic information are of great practical importance.

81 omic medicine, or the use of an individual's genomic information as part of their clinical care, is i

82 onality, list management tools and access to genomic information associated with the TFs.

83 ngo, we explored the real-time generation of genomic information at the start of the 2018 Ebola virus

84 of mouse models because of the high level of genomic information available and the many well-develope

85 was used to design new primers using current genomic information available from the National Center f

86 crobial samples and simultaneously accessing genomic information based on WGA.

87 Similar strategies to integrate diverse genomic information can be applied likewise to other dis

88 es, akin to the way in which newly generated genomic information can be compared to data from public

89 dition, studies increasingly demonstrate how genomic information can be effectively used in clinical

90 otion an avalanche of research exploring how genomic information can be optimally applied to identify

91 Genomic information can be used to increase genetic gain

92 Our studies show how genomic information can be used to uncover on a global s

93 demonstrates how integration of genetic and genomic information can define molecular mechanisms thro

94 evelopment, and then we will analyze how the genomic information can help further our understanding o

95 Integration of these two types of genomic information can improve the prediction of TF bin

96 ture and growth conditions do not affect the genomic information carried by EV secretion.

97 atory factors that control the expression of genomic information come in a variety of flavors, with t

98 me sequences described herein provide useful genomic information concerning millipede groups that had

99 a thorough consideration of the genetic and genomic information concerning the animals used as model

100 impact of somatic mutations, we leverage the genomic information contained in the transcriptome to un

101 Here we show that the theoretical limit on genomic information content may increase substantially a

102 roenvironmental selection pressures preserve genomic information controlling properties that confer s

103 prone compared to DNA, suggesting that total genomic information could increase after the transition

104 The genomic information demonstrated that the EVD outbreak i

105 In principle, genomic information derived from tumors should illuminat

106 the airway field of injury and of using the genomic information derived to begin to answer some of t

107 eny and colinearity) and in the extension of genomic information directly from one grass species to a

108 ion genomics of nonhuman primates and expand genomic information directly relevant to primate models

109 e, 0.4 mL ocean sample, which indicates that genomic information disperses effectively across the glo

110 n by neurosurgical procedures performed, and genomic information (e.g. apolipoprotein E and haptoglob

111 method called Enhancer Detection using only Genomic Information (EDGI), which integrates a tradition

112 This novel genomic information enables the search for polymorphisms

113 -fate transitions involve the integration of genomic information encoded by regulatory elements, such

114 atistical power is to incorporate functional genomics information, especially gene expression network

115 Because little genomic information existed for this species, we used 45

116 nal transcript sequences where limited prior genomic information existed, this work created part of t

117 t point to the glycome as a direct output of genomic information flow.

118 Ensembl integrates genomic information for a comprehensive set of chordate

119 lated to long non-coding RNAs (lncRNAs): (i) Genomic information for a large number of lncRNAs collec

120 urnish anatomic, physiologic, molecular, and genomic information for accurate disease diagnosis, pred

121 Despite their significance, genomic information for AM fungi and their MRE are relat

122 ents an in silico model largely derived from genomic information for an organism for which there is s

123 accuracy, utility and acceptability of using genomic information for clinical care.

124 These findings provide critical functional genomic information for drug discovery.

125 the utilization of functional and structural genomic information for genomic prediction and estimatio

126 roach to integrate functional and structural genomic information for genomic selection.

127 The availability of genomic information for hundreds of species enables the

128 LIS provides access to genetic and genomic information for major crop and model legumes.

129 f ancient duplications improve leveraging of genomic information for model organisms in the study of

130 In silica analysis of genomic information for P. fluorescens, P. putida, and P

131 hrough the logarithmically expanding seas of genomic information for polyketide compound discovery an

132 Although genomic information for S. moellendorffii is starting to

133 not be readily linked with the proteomic and genomic information for studies in systems biology and m

134 s been updated to provide more comprehensive genomic information for the red flour beetle Tribolium c

135 as well as matched and standardized sets of genomic information for the sequenced aspergilli.

136 s a scientific database of gene, protein and genomic information for the yeast Saccharomyces cerevisi

137 (iii) it provides comprehensive comparative genomics information for comparing alternative splicing

138 nto a hierarchy and integrated it with other genomic information (for example, microRNA regulation),

139 Here, we use extensive pedigree and genomic information from a long-studied natural populati

140 g approach and intelligence for interpreting genomic information from an individual case.

141 endly online research environment to explore genomic information from different plants.

142 It provides access to genomic information from extant species, as well as ance

143 lso establish a method to amplify and screen genomic information from extinct species, and place Biso

144 However, genomic information from field isolates is limited and a

145 the hypothesis that systematic knowledge of genomic information from individual tumors can improve c

146 to the development of AI diagnostics include genomic information from isolated bacteria, metagenomic

147 ImaGene enables genomic information from multiple individuals to be repr

148 The large amount of genomic information from recent sequencing efforts provi

149 Base is a system of databases focused on the genomic information from sea urchins and related echinod

150 Leveraging genomic information from sequenced to nonsequenced speci

151 In addition, we use genomic information from several species to draw inferen

152 n (WGA) make it difficult to derive accurate genomic information from single-cell genomes and require

153 r the reconstruction of TRMs that integrates genomic information from TF binding, cell type-specific

154 Our method rTRM predicts TRMs by integrating genomic information from TF ChIP-seq data, cell type-spe

155 The genomic information from the rumen microbiome of an indi

156 nomics (SCG) are promising tools to retrieve genomic information from these uncultured organisms.

157 Genomic information from this study provides a valuable

158 Here, we increase the recovery of genomic information from two MAST-4 lineages by co-assem

159 SCG) appeared as a powerful technique to get genomic information from uncultured organisms.

160 esent models for the application in crops of genomic information gained in Arabidopsis and provide an

161 Genomic information gathered from across the biosphere,

162 s essential for the cell as the integrity of genomic information guaranties reproduction of a whole o

163 biology and the wealth of publicly available genomic information guiding the identification of potent

164 Genomic information has already been applied to prokaryo

165 Host genomic information has also yielded insights into bacte

166 The amount of functional genomic information has been growing rapidly but remains

167 se in the amount and rate of accumulation of genomic information has created new challenges for the p

168 The cost of genomic information has fallen steeply, but the clinical

169 Although the raw genomic information has limitations, its availability of

170 demonstrate the unique promise of exploiting genomic information held within museum samples for conse

171 rospective trials testing whether the use of genomic information improves clinical care are underway.

172 By including additional genomic information in a multiple-threshold framework, w

173 Despite the wealth of genomic information in Arabidopsis and several crop plan

174 nologies now provide unprecedented access to genomic information in archival formalin-fixed paraffin-

175 ill greatly benefit clinical applications of genomic information in diagnosis, prognosis and therapeu

176 The transcription of genomic information in eukaryotes is regulated in large

177 ere has not been widespread practical use of genomic information in everyday practice, there are many

178 and resequencing herald a rapid expansion of genomic information in heart failure.

179 and the value of comparative and functional genomic information in meeting that challenge.

180 cuss clinical research on the application of genomic information in oncology.

181 me has initiated the development of detailed genomic information in other birds including turkey, an

182 s essential for maintaining the integrity of genomic information in prokaryotes and eukaryotes.

183 through the pathways to favor protection of genomic information in regions of actively transcribed c

184 n, and discuss several key barriers in using genomic information in routine clinical practice.

185 To facilitate the use of genomic information in such studies, a new modeling pers

186 or maintaining and enhancing the use of this genomic information in the post-genomic era.

187 alysis and storage of annotated clinical and genomic information in unconnected silos will stall the

188 Genomic information including target genes, nearby genes

189 Inheritance of genomic information independent of the DNA sequence, the

190 he novel features of the system include: (a) genomic information integrated with other biological dat

191 ian to make a clinical decision based on the genomic information integrated with other clinical featu

192 ve been accumulated in the public domain and genomic information integration and meta-analysis have b

193 to translate the deluge of microbiome-based genomic information into a catalog of microbial traits.

194 from research to the clinic and to transform genomic information into better diagnosis and outcomes f

195 t diversity matrices from the phenotypic and genomic information into distinct groups varied with the

196 pathy and provide a roadmap for implementing genomic information into future patient management.

197 cine (IM), which aims to incorporate genetic/genomic information into medicine.

198 uracy and efficiency with which tRNA decodes genomic information into proteins require posttranscript

199 here has been increasing interest to include genomic information into risk models.

200 f detecting such signals rely on compressing genomic information into summary statistics, resulting i

201 to discuss challenges related to translating genomic information into the clinic, and we present one

202 Predicting the best treatment strategy from genomic information is a core goal of precision medicine

203 A wealth of genomic information is available in public and private d

204 Genomic information is becoming more abundant for many o

205 agnosis than to fetal treatment, genetic and genomic information is beginning to influence pregnancy

206 vioral features of cancer cells and how this genomic information is being exploited to improve diagno

207 conomic importance of Coffea species, little genomic information is currently available.

208 However, genomic information is dramatically lacking in this genu

209 Genomic information is encoded on a wide range of distan

210 NA duplication and separation, ensuring that genomic information is faithfully and perpetually mainta

211 should help clarify this point further once genomic information is gathered for other taxa of the fa

212 g new knowledge from the wealth of available genomic information is hindered, in part, by the difficu

213 Genomic information is increasingly being used in diagno

214 However, obtaining bacterial genomic information is not always trivial: the target ba

215 This wealth of genomic information is not available anywhere else.

216 other lineage, is difficult to study because genomic information is often absent for long-extinct rel

217 ies, further basic mutational and functional genomic information is required.

218 We found that complementary genomic information is retrieved from different SAGs, ge

219 To gain insight into how genomic information is translated into cellular and deve

220 only a very limited amount of plant trichome genomics information is available in scattered databases

221 e expression data, as one example of complex genomic information, is often under-appreciated as many

222 Beyond emerging genomic information, little is known about the molecular

223 etermine whether and how comprehensive tumor genomic information may become incorporated into the rou

224 This powerful combination of genomic information, molecular tools, and immunological

225 ase, a single sample may not contain all the genomic information necessary for treatment.

226 of microbial pathogens, but the increase in genomic information necessitates significant investment

227 We recently introduced the genomic information network (GIN) method for systematica

228 es, taking full advantage of the plethora of genomic information now available.

229 to maximize what we learn from the wealth of genomic information now available.

230 The amount of genetic and genomic information obtainable from the human fetus duri

231 Using genomic information of human breast cancer, we have disc

232 t sequences ('reads') is critical to extract genomic information of interest for further evaluation,

233 The genomic information of microbes is a major determinant o

234 ty draft genomes, it allows accessing to the genomic information of microbes that would otherwise rem

235 d without the need of any prior knowledge of genomic information of the living organism being studied

236 Analysis of the overall genomic information of the Moroccan individuals to indiv

237 ieval, and data analysis, indexed around the genomic information of the organism of interest.

238 d in their attitudes about the disclosure of genomic information of uncertain significance.

239 trait locus (QTL) mapping, relatively little genomic information on M. spretus exists, and most of th

240 Finally, the accumulating datasets of genomic information on pregnant women and their fetuses

241 ence of Lassa fever cases in the region, but genomic information on the circulating strains is scarce

242 ding database and web portal for genetic and genomic information on the fruit fly Drosophila melanoga

243 proteomic screen that can be correlated with genomic information on the same individuals.

244 Genomic information on tumors from 50 cancer types catal

245 to 99.7% of all participants' most sensitive genomic information private.

246 This genomic information provides a basis to expand understan

247 The genomic information provides insight into the diversity

248 With all genomic information recently updated to GRCh37, COSMIC i

249 a valuable resource for researchers seeking genomic information regarding the chicken and other avia

250 e technologies and the ensuing outpouring of genomic information related to cancer have accelerated t

251 enomic pilot study to evaluate the impact of genomic information related to colorectal cancer (CRC) r

252 Genomic information representing a fish lineage that div

253 astases and may provide much of the relevant genomic information required to guide treatment on recur

254 The rapid increase in genomic information requires new techniques to infer pro

255 lar changes improve outcome, indicating that genomic information should be incorporated into future t

256 The need to generate increasing amounts of genomic information should prompt health-care providers

257 Limited genomic information shows that phage genomes are mosaic,

258 The availability of genomic information significantly increases the number o

259 omes and allows users to upload self-defined genomic information so that they can visually study the

260 New developments in molecular biology, human genomic information, statistical methods, and bioinforma

261 fications and DNase I cleavage patterns with genomic information such as gene annotation and evolutio

262 sing an integrated work flow that uses other genomic information such as linkage regions, regions of

263 The analysis of large-scale genomic information (such as sequence data or expression

264 added to link the QTL data to other types of genomic information, such as radiation hybrid (RH) maps,

265 ng de novo transcriptome assemblies by using genomic information that can be partial or complete geno

266 -throughput characterization and analysis of genomic information, the discovery of the genetic elemen

267 cells intrinsically explore their available genomic information, the greater genomic landscape (GGL)

268 e dramatically increased the availability of genomic information, the growth temperatures of the sour

269 ng properties of proteins, given only simple genomics information: the chain length and the numbers o

270 tation of Driver-gene Inference by Genetical-Genomic Information Theory as an R-system package.

271 ubstantial interests have developed in using genomic information to define disease-mediating genetic

272 enome sequence, various groups have used the genomic information to identify and validate targets as

273 d additional insight into the application of genomic information to identify patients at elevated ris

274 s and plants, we demonstrate that we can use genomic information to infer microbial traits that are d

275 Here we develop an approach for applying genomic information to predict alternative functions for

276 development of algorithms that could utilize genomic information to predict phenotype could both be u

277 regarding the application of transcriptional genomic information to renal transplantation, with speci

278 st be overcome to apply rapidly accumulating genomic information to understand variable drug response

279 With this level of genomic information, together with increasing molecular

280 platforms, while remaining oblivious to the genomic information until the final alignment step.

281 Across the ~500 taxa for which genomic information was available, genomic traits were m

282 The genomic information was first used for the development o

283 Genomic information was used to assess early transmissio

284 With this additional genomic information, we are able to resolve many intra-

285 Incorporating this piece of functional genomic information, we perform association testing for

286 s metabolic, biochemical, physiological, and genomic information, we reconstructed an experiment-base

287 for analyzing this organism's metabolic and genomic information, which could lead to potential insig

288 ty, enormity, and rapidly changing nature of genomic information, which existing electronic health re

289 th marine geochemical evidence and microbial genomic information, which together suggest the existenc

290 d late-stage tumors of several cancers using genomic information while enforcing interpretability on

291 Molecular phenotyping using genetic and genomic information will allow early and more accurate p

292 als, although it remains unclear whether DTC genomic information will still be attainable.

293 et healthy and diseased states by connecting genomic information with additional dynamic omics activi

294 We also find strong evidence that combining genomic information with clinical information improved t

295 nistic understanding requires integration of genomic information with complementary functional analys

296 ng the growing body of enzyme-structural and genomic information with computational methods to rapidl

297 dicine is expected to benefit from combining genomic information with regular monitoring of physiolog

298 ion of the data, and integrating comparative genomics information with alternative splicing data.

299 fer the possibility of incorporating updated genomic information without production of a new chip.

300 olecule sequencing enabled analysis of human genomic information without the need for cloning, amplif