ライフサイエンスコーパス: functional analysis

1 ive reverse transcription-PCR (qRT-PCR), and functional analysis.

2 in this bacterium has limited their further functional analysis.

3 s widely adopted in integrated pipelines for functional analysis.

4 ort was followed at different timepoints for functional analysis.

5 rther taxonomic profiling and down-streaming functional analysis.

6 at have been validated with fine-mapping and functional analysis.

7 pecific transcriptional coregulator Fog2 for functional analysis.

8 c, and epigenetic studies, and complementary functional analysis.

9 ration or selection has been a challenge for functional analysis.

10 development of methods for isoform-centered functional analysis.

11 ian randomization, polygenic risk score, and functional analysis.

12 hem to genotype, transcriptome, and in vitro functional analysis.

13 f differential gene detection and downstream functional analysis.

14 l release of the isolated EVs for downstream functional analysis.

15 using next generation sequencing followed by functional analysis.

16 Functional analysis also confirmed efficient miRNA-155 i

17 Functional analysis also revealed some terms related to

18 e novel methods provide ideal approaches for functional analysis and biomarker discovery of ECs- and

19 LV functional analysis and feature-tracking strain analyses

20 Functional analysis and in vitro experiments confirmed g

21 of human NOA/SO and pave the way for further functional analysis and molecular diagnosis of male infe

22 proteins(6-9), which has limited attempts at functional analysis and prevented explanation of the ori

23 ential for lipid and sugar production, using functional analysis and single-particle electron microsc

24 docking preparations, use of RD as guide in functional analysis and study of structural changes caus

25 assignments, residual dipolar coupling data, functional analysis, and a structural model of GCAP1 mut

26 simulations to be aggregated for downstream functional analysis, and facilitates comparing various s

27 tion, evolutionary reconstruction, community functional analysis, and metabolic engineering.

28 itative real-time polymerase chain reaction, functional analysis, and RNA microarrays.

29 HUS, illustrate the importance of performing functional analysis, and support the use of complementar

30 e both structural analysis by MS, as well as functional analysis by microarray printing and screening

31 Structural and functional analysis characterized core enzymes and ident

32 Functional analysis confirmed inactivating CYLD mutation

33 significantly associated with fertility and functional analysis confirmed that sperm from bulls poss

34 Additional functional analysis demonstrated increased total carbon

35 Functional analysis demonstrated that Ca(2+)-binding aff

36 Functional analysis demonstrated that EBV peptides can b

37 In line with the biophysical data, functional analysis demonstrated that HBx amino acids 45

38 Functional analysis demonstrated that IL-10DC-related so

39 Functional analysis demonstrated that this variant cause

40 Functional analysis demonstrates that an erythroid-speci

41 However, a functional analysis, especially of very young protein-co

42 Functional analysis finds overlap of results with previo

43 However, a systematic and functional analysis for an entire family of KMT or KDM e

44 multivariate statistical analyses, advanced functional analysis for biological interpretation, to a

45 mology search is still a significant step in functional analysis for genomic data.

46 Functional analysis found ABTs were enriched in motifs f

47 Functional analysis found that the RNA structure in MYB3

48 Functional analysis further implicates a critical role o

49 In vitro functional analysis further revealed multiple prometasta

50 ntial gene expression, alternative splicing, functional analysis, gene fusion detection and eQTL mapp

51 Structural and functional analysis have allowed us to suggest a mechani

52 Functional analysis highlighted biological processes str

53 Functional analysis highlighted the roles of interferon

54 As demonstrated by functional analysis, hPFCs harbor the clonogenic capacit

55 tion study combined with genetic mapping and functional analysis identified a gene encoding a novel c

56 Functional analysis identified interferon-related pathwa

57 Predictive functional analysis identified NOTCH, WNT, and G-protein

58 Informatic, biochemical, and functional analysis implicate lectins as FAMK-1 substrat

59 Functional analysis in a responding patient demonstrated

60 Functional analysis in a zebrafish model revealed that c

61 At this time point, functional analysis in astrocytes revealed a decrease in

62 elet development for gene identification and functional analysis in barley (Hordeum vulgare).

63 Functional analysis in cultured cells overexpressing FLA

64 sing CRISPR/Cas9 system to facilitate direct functional analysis in F0.

65 In contrast, functional analysis in live bacteria using a riboswitch-

66 zation of soybean WRKY gene family and their functional analysis in resistance to soybean cyst nemato

67 e expression, biochemical, morphological and functional analysis in Ric(EKO) and control mice.

68 Functional analysis in the developing zebrafish embryo d

69 Functional analysis in vitro reveals that all six varian

70 Functional analysis in vivo in a subclinical infection m

71 Functional analysis in zebrafish revealed a role for tme

72 Functional analysis indicated a whole system response du

73 Functional analysis indicated considerably reduced contr

74 However, functional analysis indicated that a number of pathways

75 Functional analysis indicates that genes associated with

76 Functional analysis integrating miRNA-protein-metabolite

77 is conserved in the fungus Sordaria However, functional analysis of 13 mer2 mutants and successive lo

78 Functional analysis of 4 variants in transmembrane domai

79 NA-based system for the semi high-throughput functional analysis of 48 VUS in human PALB2.

80 Here we report the identification and functional analysis of a Dorsal homologue (MsDorsal) and

81 Using functional analysis of a mutagenesis scan, biochemistry,

82 Here we describe the identification and functional analysis of a novel PCNA interacting protein

83 Functional analysis of ALG6 variants identified a cataly

84 Here, functional analysis of aminophenyl-1,3,5-triazine analog

85 Functional analysis of an indel variant (c.3607+3_6del)

86 n 2 of the 3 patient alleles was observed by functional analysis of ANGPT1 variants in a combined in

87 comprehensive and improved morphological and functional analysis of any visualized duct system.

88 across sample cohorts is a prerequisite for functional analysis of biological processes.

89 synthesis in Brassica oleracea, and perform functional analysis of BoMYB29 gene.

90 lelic series and intermediate phenotypes for functional analysis of candidate genes and/or the develo

91 Network and functional analysis of candidate regulators suggest that

92 The functional analysis of CD133(+) and CD133(-) cells in vi

93 monocytes and prompt further ontogenetic and functional analysis of CD14(+) CD1c(+) and LPS-activated

94 Modeling and functional analysis of CD37 missense mutations revealed

95 Functional analysis of CDSs specific of the different su

96 le expression systems are powerful tools for functional analysis of changes to the pattern, level or

97 A functional analysis of ChoA identified 2 amino acids tha

98 Functional analysis of cMASCs was tested by co-implantin

99 Functional analysis of concatemeric channels, which perm

100 able system for the rapid identification and functional analysis of conserved genes underlying mechan

101 Functional analysis of CRC metagenomes revealed enriched

102 In this study, we used comparative structure/functional analysis of CYP51 orthologs from different bi

103 Functional analysis of DEmiR targets revealed an enrichm

104 d with the objective of obtaining not only a functional analysis of different organs but also differe

105 NA-Seq) is a powerful and versatile tool for functional analysis of different types of RNA molecules,

106 Functional analysis of differentially expressed miRNAs v

107 Functional analysis of differentially methylated CpG sit

108 Here we report functional analysis of Drosophila Ataxin 2-binding prote

109 We used cross-species functional analysis of Drosophila Labial and its mouse H

110 Functional analysis of ECONEXIN in glioma cell lines, U8

111 2.0 will facilitate users to perform useful functional analysis of enhancers in various genomes.

112 tion, focusing on recent developments in the functional analysis of Foxl1-positive telocytes in the i

113 sms of class F receptors from structural and functional analysis of Frizzled and Smoothened, we aim t

114 Furthermore, co-expression network-based functional analysis of gene expression data in the hippo

115 A functional analysis of gene expression on these tumors r

116 -distal cis-regulatory elements (CREs), yet functional analysis of gene-distal CREs such as enhancer

117 we describe a strategy for facile and rapid functional analysis of genes using an approach based on

118 Our unbiased discovery and functional analysis of genes with regional expression in

119 yogenesis, to serve as a resource for future functional analysis of genes, and as a basis for compara

120 Functional analysis of genetic subtype models highlights

121 NA sequences for protein engineering and the functional analysis of genetic variants in reverse genet

122 ariety of important applications such as the functional analysis of genetic variants.

123 on of targeted genes and will facilitate the functional analysis of growth-promoting lncRNAs.

124 biophysical analyses of recombinant HBx and functional analysis of HBx mutants in HBV-infected prima

125 Previous functional analysis of HCN channels has suggested a dire

126 Functional analysis of high-priority variants shows the

127 Functional analysis of HOXA1-HOXB1 chimeric proteins unc

128 efficient procedure that permits large-scale functional analysis of human disease-linked mutations es

129 on of human SMARCD2 deficiency and the first functional analysis of human primary SMARCD2-deficient c

130 Functional analysis of isolated renal macrophages showed

131 Conclusion: Transcriptomic and functional analysis of KRT7(+) cells indicate that DR ha

132 a wide range of applications, including the functional analysis of linked cis-elements creating dise

133 study now provides the basis for a detailed functional analysis of malignant transformation of matur

134 multiplexed CRISPR-mediated gene editing for functional analysis of multigene clusters, and it provid

135 Through transcriptional and functional analysis of murine Kras(G12D) -p53(null) , -p

136 the efficient selection, identification, and functional analysis of mutant lines directly in the firs

137 Functional analysis of mutant proteins with missense sub

138 Here, we have used functional analysis of mutant transporters combined with

139 Functional analysis of mutations in these genes showed a

140 pipeline, called NATpare, for prediction and functional analysis of nat-siRNAs using sRNA and degrado

141 Functional analysis of NCKX4-deficient mouse cones revea

142 recently enabled saturation mutagenesis and functional analysis of nearly all possible variants of r

143 ring locus T-10 (ft-10)) lines were used for functional analysis of nematode infective and reproducti

144 his dataset provides a framework for further functional analysis of newly identified IL-4-regulated p

145 Functional analysis of Nfatc1 reveals its requirement du

146 Functional analysis of NK cells shows a significant impa

147 Functional analysis of non-CAD-associated loci implicate

148 Functional analysis of osteoclast progenitors isolated f

149 During our genetic functional analysis of oxidase-encoding genes in the eve

150 We further performed a functional analysis of p.Tyr64Cys in CDC42 through CRISP

151 conducted global mutagenesis and comparative functional analysis of P0 encoded by Brassica yellows vi

152 results from a global circRNA expression and functional analysis of patients with hepatocellular carc

153 Functional analysis of PNTs revealed their widespread ro

154 We support this model through functional analysis of point mutants in both AimB and Mr

155 relevant to protein structure prediction and functional analysis of protein structure and may be key

156 ts represent the most complete computational functional analysis of proteins comprising the Prx super

157 he developed tools should greatly facilitate functional analysis of proteins in their native environm

158 Functional analysis of PSD and non-PSD interactomes illu

159 ressed in Escherichia coli to facilitate the functional analysis of recombinant protein.

160 Functional analysis of recurrent mutants E98K and D140A

161 utational pipeline to perform reanalysis and functional analysis of relevant transcriptomic data sets

162 ISPR)-Cas9 platform for in situ high-content functional analysis of RREs.

163 In vitro functional analysis of selected co-occupied elements ver

164 were found on IAV-encoded proteins, and the functional analysis of selected phosphorylation sites sh

165 Functional analysis of selected transcription factors re

166 platform to apply molecular simulation based functional analysis of sequence variation in the protein

167 cDNA cloning, molecular characterization and functional analysis of SfPER, a novel PM peritrophin A p

168 Functional analysis of significantly regulated features

169 ve screening approach for GI mapping and the functional analysis of sizable genomic regions, such as

170 e explored this question in a structural and functional analysis of soluble human P4H-TM.

171 Functional analysis of some novel missense NOTCH1 and DL

172 Moreover, ProteoModlR enables functional analysis of sparsely sampled quantitative mas

173 larization assays, as well as phenotypic and functional analysis of STAT1-mutated patient cells.

174 Functional analysis of T-cell responses in HIV-infected

175 ied out a system review and have performed a functional analysis of the 34 unique reported HS-linked

176 We report here an in-depth structural and functional analysis of the anophelin family member cE5,

177 Previous phenome-based functional analysis of the C. neoformans TF mutant libra

178 esources, compounded with genome complexity, functional analysis of the candidate genes are challengi

179 Here, we present a detailed structural and functional analysis of the Catenulisporales acidiphilia

180 Functional analysis of the cleavable RTKs indicated that

181 Functional analysis of the complex via mutational analys

182 Functional analysis of the data indicates that there was

183 Functional analysis of the differentially expressed tran

184 Functional analysis of the DNA sequencing data set was a

185 Functional analysis of the fusion complexes confirmed th

186 re was maintained to the level of class, and functional analysis of the genes present also displayed

187 Functional analysis of the HSF2BP-S167L variant in mouse

188 Functional analysis of the ligands, named ipglycermides,

189 Functional analysis of the module genes revealed four ge

190 In the present study, functional analysis of the mouse cauda epididymis perfus

191 Functional analysis of the mutations in MYCN, PTPN14 and

192 Here, we have conducted a functional analysis of the PCSK6 locus combining further

193 lies in non-flowering plants, we performed a functional analysis of the PEBP gene AcMFT of the MFT cl

194 Here, we present a systematic functional analysis of the phosphatases in Cryptococcus

195 Functional analysis of the phosphate exporter xenotropic

196 We carried out a functional analysis of the Plasmodium falciparum homolog

197 Functional analysis of the PPI-responsive, upregulated g

198 Functional analysis of the predicted mRNA targets of der

199 Functional analysis of the R390Q substitution revealed t

200 Functional analysis of the recombinant metagenome-derive

201 Furthermore, our functional analysis of the role of Brachyury is supporti

202 We therefore undertook a structural and functional analysis of the role of reactive cysteine res

203 Functional analysis of the shared proteins predicts sign

204 This approach provides a model for functional analysis of the single subunits within a mult

205 Functional analysis of the three missense mutations show

206 Detailed functional analysis of the top candidate splicing factor

207 Functional analysis of the transient changes in middle a

208 e set of genes and repeat structures for the functional analysis of these cell surface proteins.

209 This study will facilitate the functional analysis of these genes and provide new resou

210 Functional analysis of these genes showed that loss of f

211 isomiRs from public NGS data and to provide functional analysis of these isomiRs is available to dat

212 Functional analysis of these lncRNAs by several hybrid m

213 Through functional analysis of these miRNA targets, 12 immune-re

214 Further functional analysis of these mutations confirmed that th

215 Functional analysis of these novel ERK targets identifie

216 The functional analysis of these processes ideally would be

217 etic tools facilitate the identification and functional analysis of thirst neurons and vasopressin-pr

218 Functional analysis of this variant by creating a CRISPR

219 Functional analysis of three representative BGCs was car

220 ed large-scale expression, localization, and functional analysis of tobacco (Nicotiana tabacum) EXO70

221 Functional analysis of transgenic lines expressing eithe

222 Functional analysis of tumor cells was successfully used

223 A detailed functional analysis of two maize (Zea mays) homologs of

224 Functional analysis of VirChR1 shows that it is a highly

225 nscripts into 22 non-overlapping groups, the functional analysis of which showed enrichment of stress

226 Functional analysis of Xenopus laevis oocytes injected w

227 Functional analysis on these genes further revealed the

228 The available functional analysis pipelines lack several key features:

229 Functional analysis proposed plausible underlying diseas

230 In particular, the precise functional analysis provided here serves as a reference

231 ants with potential disease association, but functional analysis remains a challenge.

232 In situ molar occlusion and a functional analysis reveal a new mode of dental occlusio

233 Functional analysis revealed a reduced proliferative cap

234 Our functional analysis revealed a statistically significant

235 Functional analysis revealed defective IL-2 and TNF prod

236 Functional analysis revealed diminished choline transpor

237 Functional analysis revealed increased migration, invasi

238 The functional analysis revealed significant phosphorylation

239 Functional analysis revealed that LCE3 proteins, and LCE

240 Functional analysis revealed that restored expression of

241 Functional analysis revealed that some key canonical pat

242 Further functional analysis revealed that STAT4 overexpression i

243 Functional analysis revealed that the altered proline-ri

244 Remarkably, phylogenetic and functional analysis revealed that the ancestral species

245 Functional analysis revealed that these regions are link

246 Functional analysis revealed that these variants did not

247 Functional analysis revealed that this short variant of

248 Functional analysis revealed that UNC-13L's C2A promotes

249 Furthermore, genetic and functional analysis revealed the IL6/IL6R/CEBP gene modu

250 Functional analysis reveals enhanced autocatalytic cleav

251 Functional analysis reveals these mutations ablate canon

252 Our comprehensive functional analysis reveals two hotspots for potentially

253 Structural and functional analysis show that 2'-O methylation at N2, an

254 Functional analysis showed enrichment for antigen proces

255 fferent from HC and pre-UC samples; however, functional analysis showed increased fecal proteolytic a

256 Functional analysis showed that an implicated variant in

257 Functional analysis showed that Hippo members mutations

258 Extensive functional analysis showed that intrinsic cell parameter

259 Functional analysis showed that patients with cirrhosis

260 Functional analysis showed that such a reduced respirato

261 In vitro and in vivo functional analysis showed that the riboswitch, termed W

262 Further functional analysis showed that the type I ZmMC1 and ZmM

263 Functional analysis showed that this HLA-C*06:02-present

264 Functional analysis showed that VLVs induced the express

265 Functional analysis showed upregulation in processes rel

266 diseases and functions were generated using functional analysis software.

267 ocedures, and the brief hands-on time of the functional analysis step enables high-throughput screeni

268 alysis, as well as immune cell phenotype and functional analysis, substantiated these results confirm

269 Functional analysis suggested multiple changes in struct

270 A functional analysis suggested that the abundance of prot

271 This functional analysis suggested that the mutant allele has

272 Furthermore, functional analysis suggests that altered DNA methylatio

273 Functional analysis suggests that pre-S1 loop residues H

274 variation in bovine beta-defensin genes and functional analysis supports a role for beta-defensins i

275 atics, synthetic biology and high-throughput functional analysis, that enables the rapid discovery of

276 rk of depression and metabolic disorders for functional analysis, the interactome-based system-level

277 neurodevelopment; however, without in-depth functional analysis, the Tsc2-deficient zebrafish line c

278 rch-driven workflow to enhance user mutation functional analysis through mutation cross-reference, (i

279 tation, predicted by structural modeling and functional analysis to be responsive to carbamazepine, w

280 ons in the number of samples and the lack of functional analysis to examine the effect of these haplo

281 X and X (FIX and FX) has limited its in vivo functional analysis to primate models of acquired hemoph

282 Our study provides a foundation for further functional analysis to reveal the roles that CIPKs and m

283 established directly from these results, the functional analysis together with the genetic informatio

284 valuable addition to the currently available functional analysis toolbox.

285 Many functional analysis tools have been developed to extract

286 Furthermore, we find that the performance of functional analysis tools is more sensitive to the gene

287 Our analyses suggest that bulk-based functional analysis tools that use manually curated foot

288 tic discovery in schizophrenia combined with functional analysis using induced pluripotent stem cells

289 Here, we provide a functional analysis, using CRISPR/Cas9 and fate mapping,

290 Functional analysis was performed using a Xenopus laevis

291 Using electron microscopy and functional analysis we demonstrated that C. shasta tubul

292 Through site-directed mutagenesis and functional analysis, we found that NLS2 is also monopart

293 of transcriptomics, protein expression, and functional analysis, we investigated adult muscle fiber

294 e, based on longitudinal in vivo imaging and functional analysis, we report that a large proportion o

295 The most enriched DEGs in GO functional analysis were mainly associated with cell adh

296 for classification, biomarker selection and functional analysis, while revealing the underlying netw

297 Furthermore, functional analysis with an miR-1205 mimic, an miR-1205

298 xfoliated cells through the use of edgeR and functional analysis with Ingenuity Pathway Analysis.

299 Functional analysis with miRNA mimics in cellular models

300 Functional analysis, x-ray crystallography, and molecula