ライフサイエンスコーパス: microarray technology

1 ttern of gene expression was evaluated using microarray technology.

2 ve method for STR analysis that utilizes DNA microarray technology.

3 lity to initiate gene transcription by using microarray technology.

4 FLSPC) versus AL by complementary DNA (cDNA) microarray technology.

5 sion profiling was performed with Affymetrix microarray technology.

6 onous blood-stage P. falciparum parasites by microarray technology.

7 markers measured by a novel high-throughput microarray technology.

8 nnotate, analyze and share data generated by microarray technology.

9 d glucose-6-phosphatase was determined using microarray technology.

10 on profiles were generated by analyses using microarray technology.

11 gene expression was examined with using cDNA microarray technology.

12 ed rabbits were determined by the use of DNA microarray technology.

13 transcriptome of ovarian cancer cells using microarray technology.

14 ip arrays are currently the most widely used microarray technology.

15 rect genomic assay would extend the reach of microarray technology.

16 ls and fertilized control embryos using cDNA microarray technology.

17 ed in murine bone marrow-derived HSCs, using microarray technology.

18 and the results paralleled those found with microarray technology.

19 an monocytes infected with C. albicans using microarray technology.

20 ainst 40 other Salmonella isolates using DNA microarray technology.

21 th glycan structural information from glycan microarray technology.

22 amount could expand the applicability of DNA microarray technology.

23 nes the advantages of mass spectrometry with microarray technology.

24 em and the random factors resulting from the microarray technology.

25 eruginosa biofilms were studied by using DNA microarray technology.

26 ing clinical applications of gene expression microarray technology.

27 as labeling for gene profiling based on DNA microarray technology.

28 er p 21, and rDer p 23) by means of allergen microarray technology.

29 ransfer and Affymetrix oligonucleotide-based microarray technology.

30 nts and 40 healthy individuals using protein microarray technology.

31 severity using a ferret model and our lectin microarray technology.

32 ence of the food allergens in breast milk by microarray technology.

33 nalyzed using the reversely transfected cell microarray technology.

34 ofiling of splenocytes using high throughput microarray technology.

35 yonic fibroblasts with or without Pak1 using microarray technology.

36 xanthine oxidase) was performed using SNPlex microarray technology.

37 alysis was performed in triplicate using RNA microarray technology.

38 ript abundances not previously observed with microarray technology.

39 r interaction screen) assay by using protein microarray technology.

40 velopment of highly sensitive biosensors and microarray technology.

41 multiple mutation detections offered by the microarray technology.

42 s in green) was investigated by using glycan microarray technology.

43 ites could be mapped by combining DamID with microarray technology.

44 put gene expression data generated mostly by microarray technology.

45 es targeted by protein kinases using protein microarray technology.

46 ridization is currently a major concern with microarray technology.

47 fordetecting spatial artefacts than do other microarray technologies.

48 ing and quality control different from other microarray technologies.

49 int of breast cancer in Lebanese women using microarray technologies.

50 of messenger RNA (mRNA), genome-wide, using microarray technologies.

51 specific protein capture reagents in protein microarray technologies.

52 Using microarray technology, adipose mitochondrial gene transc

53 ith polycythemia vera, using oligonucleotide microarray technology after correcting for potential con

54 To test the inferences of spotted microarray technology against a biochemically well-studi

55 n of whole-genome sequencing and genome-wide microarray technologies, allowing the investigation of a

56 DNA microarray technology allows for the measurement of geno

57 The microarray technology allows for the simultaneous monito

58 Current microarray technology allows researchers to genotype a l

59 The development of microarray technology allows the simultaneous measuremen

60 assessed plasma IgE and IgG reactivity using microarray technology among Ugandans from rural Schistos

61 The tool handles most current microarray technologies and is amenable to use in automa

62 objectives of expression profiling using DNA microarray technologies and it requires the development

63 o influenza virus pathogenesis by using cDNA microarray technology and a reverse genetics approach.

64 The fundamentals of microarray technology and analysis have been extensively

65 shear-mediated chondrocyte apoptosis by cDNA microarray technology and bioinformatics.

66 ual genes using high-density oligonucleotide microarray technology and by performing biological assay

67 Advances in DNA microarray technology and computational methods have unl

68 We used microarray technology and functional assays to character

69 Although only in its infancy, microarray technology and gene arrays have led to substa

70 It also describes microarray technology and gene expression profiling as m

71 nt insights into the molecular mechanisms of microarray technology and have implications for microarr

72 his area suggests potential opportunities in microarray technology and high-throughput drug screening

73 ces for many human pathogens, development of microarray technology and high-throughput proteomics, an

74 used reverse-phase signaling pathway protein microarray technology and identified three signaling pro

75 al biotechnology, just as they are improving microarray technology and imaging in biology and medicin

76 Here we use protein microarray technology and proteome-wide glycosylation pr

77 Advances in genome sequencing, microarray technology and proteomic analysis, in combina

78 Gene microarray technology and proteomics have provided much

79 The present study used DNA microarray technology and RNA from microdissected pure e

80 The advent of DNA microarray technology and the sequencing of multiple ver

81 en determined by using the widely accessible microarray technology and the simple single-base extensi

82 e and 2 normal skeletal muscle tissues using microarray technology and/or small RNA cloning approache

83 tions, messenger RNA abundances, measured by microarray technology, and more recently by deep sequenc

84 roaches combining transposon mutagenesis and microarray technology, and through the expression of lib

85 thesis using a high throughput, SNP-specific microarray technology applied to seed trichomes (cotton)

86 immunoprecipitation assay coupled to genomic microarray technology approach, we identified numerous p

87 ere to (i) establish high-throughput protein microarray technology as a method to investigate traditi

88 Microarray technology, as well as other functional genom

89 robes on microarray slides, there is another microarray technology based on bundles of optical fibers

90 and may, in at least several applications of microarray technology, be inappropriate.

91 ng, quantitative real time PCR (qRT-PCR) and microarray technology besides novel techniques based on

92 In this review of recent applications of DNA microarray technology by developmental biologists, we su

93 her show this methodology is compatible with microarray technology by printing rhodamine-oxyamine in

94 Global expression profiling using microarray technologies can help to describe and define

95 Microarray technology can be used to assess simultaneous

96 High-throughput microarray technology can be used to examine thousands o

97 r show how combined use of cell cultures and microarray technology can guide future in vivo work on d

98 th chromatin immunoprecipitation (ChIP) with microarray technology (ChIP-chip) assays for specific ch

99 nd it can be applied on a genomic scale with microarray technology (ChIP-chip).

100 looked by chromatin immunoprecipitation with microarray technology (ChIP-on-chip) for histone modific

101 It also notes progress in the use of microarray technology, classification of chronic pancrea

102 Our results demonstrate that protein microarray technology, combined with the target validati

103 As the number of users of microarray technology continues to grow, so does the imp

104 oreover, we found that deoxyribonucleic acid microarray technology could distinguish, in a blind mann

105 Using microarray technology coupled with cross-linking immunop

106 allow further development of the label-free microarray technology demonstrated previously for gene e

107 tein TLS, and compared the result to current microarray technology, demonstrating the ability of MAPS

108 argets for chemotherapy-induced HF damage by microarray technology (eg, interleukin-8, fibroblast gro

109 Suspension microarray technology eliminates the technical issues as

110 This microarray technology enables comprehensive investigatio

111 The use of microarray technology enables definition of complex gene

112 This work opens the avenue of applying microarray technologies for conducting IHC on intact tis

113 the potential of integrated microfluidic and microarray technology for multiple virus detection.

114 We have developed a new microarray technology for quantitative gene-expression p

115 tive, high-throughput, and convenient glycan microarray technology for the simultaneous determination

116 We have designed a chip-based assay, using microarray technology, for determining the relative bind

117 ines genomic mismatch scanning (GMS) and DNA microarray technology, for mapping regions shared IBD be

118 The second extended standard microarray technology from fly heads to dissected fly br

119 The recent development of microarray technologies has enabled biologists to quanti

120 This is an interesting case study in how DNA microarray technology has advanced the molecular underst

121 Microarray technology has become a standard molecular bi

122 Glycan microarray technology has become a successful tool for s

123 Microarray technology has become extremely useful in exp

124 Microarray technology has become very popular for global

125 Microarray technology has been applied extensively for t

126 A novel microarray technology has been developed called 'library

127 Microarray technology has been explored exhaustively in

128 The DNA microarray technology has been increasingly used in canc

129 DNA microarray technology has been successfully used to iden

130 DNA microarray technology has been used to identify the glob

131 Thus far, microarray technology has been useful only for measuring

132 Microarray technology has been widely applied in biologi

133 Resequencing Pathogen Microarray technology has demonstrated potential for dif

134 ds to millions of features at the same time, microarray technology has fundamentally changed how biol

135 The development of microarray technology has greatly enhanced our ability t

136 Over the last decade, the introduction of microarray technology has had a profound impact on gene

137 increasing availability and maturity of DNA microarray technology has led to an explosion of cancer

138 DNA microarray technology has offered the potential for the

139 Microarray technology has produced massive expression da

140 While microarray technology has provided remarkable insights i

141 Microarray technology has recently been used to define a

142 e increasing availability of gene expression microarray technology has resulted in the publication of

143 The advent of microarray technology has revolutionized the search for

144 Microarray technology has shown great potential for vari

145 of gene expression in postmortem brain using microarray technology has the potential to elucidate mol

146 next-generation sequencing and phylogenetic microarray technologies have identified diverse, niche-s

147 Recent advances in microarray technologies have made it feasible to interro

148 Microarray technologies have made it possible to measure

149 Microarray technologies have provided the ability to mon

150 Advances in microarray technology have allowed for greater resolutio

151 The latest studies using microarray technology have demonstrated that as much as

152 dern approaches such as reverse genetics and microarray technology have revealed novel receptors for

153 ed old-fashioned genetics versus new-fangled microarray technology, have now identified the same tran

154 f the confluence of low-cost DNA sequencing, microarray technology, high-throughput proteomics, and e

155 Antibody microarray technology identified Nup88 (nucleoporin 88)

156 Using whole-genome cDNA microarray technology (Illumina), we examined GE in nont

157 ng the potential diagnostic added value of a microarray technology (ImmunoCAP ISAC, Phadia AB [at pre

158 ers can all contribute to make better use of microarray technologies in research and medical practice

159 nstrates the applicability of custom-focused microarray technology in addressing hypothesis-driven qu

160 lizing bead array cytokine determination and microarray technology in an effort to determine the immu

161 Using cDNA microarray technology in combination with an approach de

162 The most common application of microarray technology in disease research is to identify

163 We examined gene expression by using microarray technology in laser-dissected lateral vestibu

164 Following the advent of microarray technology in recent years, the challenge for

165 icle will review the current applications of microarray technology in the field of organ transplantat

166 ression analysis, which was dominated by the microarray technology in the past decade.

167 Glycan microarray technology, in which multiple glycan structur

168 s, the rapid development and expanded use of microarray technologies, including oligonucleotide array

169 Various aspects of microarray technology, including probe development, arra

170 Moreover, the use of microarray technology increases the potential informatio

171 The increasing use of microarray technologies is generating large amounts of d

172 Microarray technology is a powerful approach for genomic

173 Microarray technology is a powerful high-throughput tool

174 Microarray technology is a powerful tool for measuring R

175 This microarray technology is applicable for all eukaryotic c

176 Furthermore, three-color microarray technology is currently available at a reason

177 Microarray technology is currently being used extensivel

178 Microarray technology is currently one of the most widel

179 With these results, high-density peptide microarray technology is for the first time introduced i

180 Gene microarray technology is highly effective in screening f

181 of the critical problems in the short oligo microarray technology is how to deal with cross-hybridiz

182 Microarray technology is now routinely used to monitor g

183 Microarray technology is often used to identify the gene

184 Microarray technology is one of the key developments in

185 ng tabulated by the various genome projects, microarray technology is setting the stage for the task

186 A central, unresolved problem of DNA microarray technology is the interpretation of different

187 An important application of microarray technology is to predict various clinical phe

188 An important application of microarray technology is to relate gene expression profi

189 DNA microarray technology is used to determine gene expressi

190 Microarray technology is widely applied to address compl

191 Combined with microarray technology, it is anticipated in the near fut

192 DNA microarray technologies make it possible to simultaneous

193 DNA microarray technology matured in the mid-1990s, and the

194 hus likely involved in disease pathogenesis; microarray technology may also be used to distinguish de

195 are not completely understood; however, cDNA microarray technology may enable rapid and accurate exam

196 With the popularity of DNA microarray technology, multiple groups of researchers ha

197 tremely low levels of aquatic pathogens, and microarray technologies offer a new dimension to multipl

198 measurements were performed using Flow-Thru microarray technology on the Ziplex System, which has po

199 Ten years ago, microarray technology opened a second front by making it

200 DNA microarray technology, originally developed to measure t

201 Microarray technology permits an examination of genetic

202 Microarray technology permits the interrogation of nearl

203 were generated using both RNA-sequencing and microarray technology platforms.

204 Advances in DNA microarray technology portend that molecular signatures

205 dising data format, content and description, microarray technologies present major challenges in mana

206 RECENT FINDINGS: Epitope studies and microarray technology promise to improve the accuracy of

207 The recent development of microarray technology provided unprecedented opportuniti

208 Microarray technology provides a powerful tool for the e

209 DNA microarray technology provides a promising approach to t

210 throughput nature of hybridization-based DNA microarray technology provides an ideal platform for suc

211 TGFbeta responses in lung fibroblasts, using microarray technology, real-time polymerase chain reacti

212 -expression measurements on a genomic scale, microarray technology remains at the forefront of post-g

213 mes by mass spectrometry (MS) and expression microarray technologies, respectively, revealed many sim

214 ssinus were tested by means of ImmunoCAP and microarray technology, respectively, in sera collected a

215 s coupled with chromatin immunoprecipitation/microarray technology revealed a putative binding site i

216 iles and on Wnt signaling pathways using DNA microarray technology, reverse transcriptase-PCR, Wester

217 With the development of DNA microarray technology, scientists can now measure the ex

218 Using microarray technology, several groups established the ge

219 -intensity relationship for various types of microarray technologies, such as single-color arrays and

220 Microarray technology, supported by pharmacy and microbi

221 iation studies are typically performed using microarray technologies that only assay a very small fra

222 asy-to-use de novo synthesis oligonucleotide microarray technology that draws on the inherent flexibi

223 Here we report a 'synapse microarray' technology that enables ultra-sensitive, hig

224 We have identified, using cDNA microarray technology, that IL-18 expression is increase

225 Furthermore, despite the advances in microarray technology, the array captures a large portio

226 With the availability of microarray technology, the expression profiles of thousa

227 Despite the enormous power of the microarray technology, there are several pitfalls that n

228 Using microarray technology, this study examined the potential

229 Using microarray technologies thousands of biomedical material

230 gle oocytes and embryos for analysis by cDNA microarray technology, thus lending credence to addition

231 A major challenge in utilizing microarray technologies to measure nucleic acid abundanc

232 We used microarray technology to analyze genes regulated by angi

233 Here we apply a microarray technology to analyze genome-wide changes in

234 Toward this end, we adapted microarray technology to analyze the change in gene expr

235 stis to a mammalian environment, we used DNA microarray technology to analyze the transcriptional res

236 Application of microarray technology to analyzing genomic DNA has been

237 We studied this disease with microarray technology to capture as much biological comp

238 on during the PPD response we have used cDNA microarray technology to carry out a large-scale analysi

239 We used microarray technology to compare mRNA decay rates of app

240 The present analysis uses Affymetrix microarray technology to compare profiles of gene expres

241 ASP can utilize microarray technology to decrease the time to optimal an

242 oma Molecular Profiling Project (LLMPP) used microarray technology to define a molecular profile for

243 s work, we examined the applicability of the microarray technology to detect CPS type-specific IgGs i

244 Here, we used glycan microarray technology to determine the receptor-binding

245 In the present study, we use DNA microarray technology to determine whether differences i

246 We used microarray technology to determine whether gene expressi

247 t panel OLED display technology with protein microarray technology to enable high-density fluorescent

248 We employed oligonucleotide microarray technology to explore the effects of both sho

249 Here, we used a cellular microarray technology to identify a defined and optimize

250 In this study, we employed microarray technology to identify aberrantly expressed p

251 We used DNA microarray technology to identify common DNA sequence va

252 es, we developed and applied a novel antigen microarray technology to identify distinct serum antibod

253 In the present study, we use microarray technology to identify miRNAs induced in prim

254 In this study we use expression microarray technology to identify novel genes that consi

255 f laser-capture microdissection coupled with microarray technology to identify nucleus-specific trans

256 s of signature-tagged mutagenesis (STM) with microarray technology to identify potentially important

257 We employed microarray technology to identify SA target genes.

258 Hence we applied microarray technology to identify such molecular changes

259 In this study, we used microarray technology to identify target genes of 1,25(O

260 In this study, we used microarray technology to identify the genes regulated by

261 We previously used microarray technology to identify the immediate transcri

262 We applied whole-genome microarray technology to investigate the ability of P. a

263 We have used microarray technology to investigate the changes in glob

264 clinical manifestations, we first used cDNA microarray technology to measure METH-induced transcript

265 dy Mu transposition preferences, we used DNA microarray technology to measure the abundance of >4,000

266 recent explosion of publications that employ microarray technology to monitor genome-wide expression

267 e most recent advances in the application of microarray technology to pancreatic cancer research are

268 Array painting is a technique that uses microarray technology to rapidly map chromosome transloc

269 bacterial gene expression are shifting from microarray technology to second generation sequencing pl

270 Here, we review the use of complementary DNA microarray technology to study gene expression patterns

271 To address this issue, we used microarray technology to study the genes activated in HE

272 global scale by coupling flow cytometry with microarray technology to track the stability of individu

273 ionation methodology coupled to glycoprotein microarray technology using a multiple lectin-based, bio

274 Microarray technology was developed in the early 1990s t

275 Tissue microarray technology was used to analyze 314 breast can

276 Microarray technology was used to identify muscle-layer-

277 A genome-wide approach using cDNA microarray technology was used to profile the changes in

278 Microarray technology was used to show, for the first ti

279 le hosts, high-density oligonucleotide probe microarray technology was used.

280 emiautomatically process data from different microarray technologies, we were able to determine the m

281 Using microarray technology, we found that the expression of a

282 Using microarray technology, we have identified novel protein

283 Using human tumor and cDNA microarray technology, we have recently shown that the A

284 Further, using Affymetrix microarray technology, we identified 44 genes as candida

285 Using microarray technology, we identified several miRs that w

286 Using microarray technology, we obtained gene expression profi

287 Using focused microarray technology, we where able to define a subset

288 riations in the human genome and advances in microarray technology which together have changed the cl

289 s paper describes a new development based on microarray technology which uses ultraviolet light induc

290 s increased rapidly in recent years owing to microarray technology, which allows measurement of thous

291 Nucleotide-microarray technology, which allows the simultaneous mea

292 ghput genomic technologies is the genotyping microarray technology, which can genotype millions of si

293 It is anticipated that the application of microarray technology will continue to better our unders

294 DNA microarray technology will help identify molecular chang

295 The combination of microarray technologies with microfluidic sample deliver

296 MES combines DNA microarray technology with high-copy-number plasmid expr

297 SCC) tissues and normal mucosa samples using microarray technology with patient genomic DNA.

298 ant emerging applications of gene expression microarray technology with several molecular signatures

299 The combined use of microarray technology with the computer program for the

300 lity and reliability of data generated using microarray technology would be enhanced by use of a comm