ライフサイエンスコーパス: DNA array

1 riers in the spacer regions of the ribosomal DNA array.

2 ted from the microbe Escherichia coli onto a DNA array.

3 protein array can be obtained from a single DNA array.

4 rm within a two-dimensional (2D) crystalline DNA array.

5 o form a randomized multiplexed high-density DNA array.

6 ic behavior of every gene represented on the DNA array.

7 performed to confirm the results of protein-DNA array.

8 bind the 2.6-kb promoter fragment by protein/DNA array.

9 or increased sensitivity of DNA detection on DNA arrays.

10 rces on coated glass slides with and without DNA arrays.

11 tures representing steps towards multiplexed DNA arrays.

12 analyzed bacterial gene transcription using DNA arrays.

13 towards all-electrical multiplexed graphene DNA arrays.

14 germline to form multicopy extrachromosomal DNA arrays.

15 l crosslinker, permitting the preparation of DNA arrays.

16 nterstitial space in spontaneously condensed DNA arrays.

17 bution of Rap1 monomers on defined telomeric DNA arrays.

18 lso contribute to the integrity of ribosomal DNA arrays.

19 t-directed synthetic methods for fabricating DNA arrays.

20 he standard substrate for the preparation of DNA arrays.

21 ediated signaling pathways and complementary DNA arrays.

22 NAPI and enforces the stability of ribosomal DNA arrays.

23 scope slides were used as substrates for MEF DNA arrays.

24 igonucleotide arrays to double-stranded (ds) DNA arrays.

25 of long genome sequences, e.g. obtained from DNA arrays.

26 tone octamer and linker histone onto the 601 DNA arrays.

27 meres, interspersed in centromeric satellite DNA arrays [4,5].

28 By equilibrating condensed DNA arrays against reservoirs of known osmotic stress an

29 We show that human gamma-satellite DNA arrays allow a transcriptionally permissive chromati

30 oach, but also to investigate the utility of DNA array alternatives.

31 H. pylori DNA array analyses and transcriptional reporter assays i

32 DNA array analyses identified genes that may inhibit res

33 Subsequently, protein/DNA array analyses identified numerous other transcripti

34 rved from uPAR-ChIP, TF protein, and protein/DNA array analyses that uPAR associates with activating

35 Here we show, using DNA array analyses, that nicotinamide N-methyltransferas

36 Although DNA array analysis can monitor large numbers of genes, t

37 Recent studies using DNA array analysis challenge this hypothesis and suggest

38 MEFs; yet, host cell reactivation assays and DNA array analysis indicate that the nucleotide excision

39 A critical step for DNA array analysis is data filtration, which can reduce

40 DNA array analysis of 205 apoptosis-related genes indica

41 Complementary DNA array analysis of Lyn-deficient DT40 cells shows tha

42 ed at least 15,000 unique cDNAs, as shown by DNA array analysis of PCR-amplified cDNA inserts, repres

43 ownstream target gene of DeltaFosB by use of DNA array analysis of striatal material from inducible t

44 Furthermore, DNA array analysis showed that infection with a pp65-def

45 DNA array analysis showed that of 114 genes regulated by

46 DNA array analysis showed that unlike the A. niger oah g

47 spotted with genomic DNA fragments (genomic DNA array analysis).

48 In the protein-DNA array analysis, 12 transcription factors were up-reg

49 re subjected to transcription factor protein-DNA array analysis.

50 f differences and/or ratios), should improve DNA array analysis.

51 DNA-array analysis also identified known markers of card

52 Results of DNA-array analysis of over 6,000 genes from hearts expre

53 ies: genotyping high-density oligonucleotide DNA array and denaturing high-performance liquid chromat

54 for both spatial resolution of the patterned DNA array and optimization of detection through DNA-medi

55 ols examined are excluded from the condensed DNA array and strongly affect the osmotic stress force c

56 New technologies, including DNA arrays and automated sequencing, have improved detec

57 DNA arrays and chips are powerful new tools for gene exp

58 DNA arrays and chips will be key in understanding how ge

59 st promising gains have come in the areas of DNA arrays and mass spectrometry, where differential seq

60 ology and show promise for future electronic DNA arrays and rapid characterization of nucleic acid sa

61 erences between stable clones as revealed by DNA arrays and sequencing.

62 kes possible the construction of genome-wide DNA arrays and the study of this organism on a global sc

63 In budding yeast, telomeres, the ribosomal DNA array, and HM loci are transcriptionally silenced by

64 ination along chromosomes carrying ribosomal DNA arrays, and (iii) an inversely proportional relation

65 chemical analysis, custom-made complementary DNA arrays, and quantitative real-time reverse transcrip

66 such as transcription factors in randomized DNA arrays; and computer-generated physical trajectories

67 ially well suited for multiplexed electronic DNA array applications, since its large two-dimensional

68 Heterochromatinized repetitive DNA arrays are abundant in most eukaryotic genomes.

69 the ion contents and DNA-DNA spacings of the DNA arrays are determined by atomic emission spectroscop

70 DNA arrays are fabricated by high-speed robotics on glas

71 nd of glycerol with condensed spermidine(3+)-DNA arrays are investigated with direct force measuremen

72 Of further relevance, the DNA arrays are of tunable dimensions, and fabricated on

73 ntified genetic instability of the ribosomal DNA array as the first known cause of aging in yeast cel

74 ntal measurements on the osmotic pressure of DNA array as well as the results from the computer simul

75 iments, we measured the internal pressure of DNA arrays as a function of the DNA-DNA distance, showin

76 urface immobilization of oligonucleotides in DNA arrays as well as a route for the coupling of nuclei

77 zed the orientational correlations of DNA in DNA arrays as well as diffusive motion of DNA and cation

78 ologic and pathophysiologic conditions using DNA arrays, as well as the development and use of robust

79 X-ray scattering on highly ordered DNA arrays at high density and with the helical axis ori

80 Preliminary whole-genome DNA arrays at various time points within 1 h of incubati

81 Algorithms designed for analysis of DNA array autoradiographs incorporate 3-D peak fitting o

82 DNA array based screening approaches permit detection of

83 on of datasets generated with single-channel DNA arrays based on principal component analysis.

84 e employed an inducible cell culture system, DNA array-based and in silico transcript profiling, and

85 w tool for saponin pathway gene discovery by DNA array-based approaches.

86 In contrast to DNA array-based methods, reporter gene technology has be

87 A comparison of their respective DNA array-based transcriptional profiles identified gene

88 DNA arrays can be used as periodic templates to create,

89 DNA arrays can be used for many different purposes, most

90 sion of nested GBATM primers on miniaturized DNA arrays can be used to effectively scan targeted sequ

91 We report a multiplexed high-density DNA array capable of rapid, sensitive, and reliable iden

92 DNA array-cell surface interactions were visualized by f

93 in mu-total analysis systems (mu-TAS) and in DNA-array chips utilized for environmental monitoring of

94 nd evaluate the stabilities of the resultant DNA arrays compared to those fabricated on silanized gla

95 on of bpDNA oligomers into a two-dimensional DNA array comprised of tiles containing double crossover

96 ptotic effects of TRO, we screened a limited DNA array containing 23 genes involved in regulating eit

97 ected with wild type and a mutant virus to a DNA array containing probes for 588 human genes represen

98 Glass DNA arrays containing a selected set of 1,019 genes (inc

99 analysis of MHV-68 gene expression, we made DNA arrays containing nearly all of the known and predic

100 DNA arrays containing up to 135,000 probes complementary

101 The MB-based DNA array could be used for DNA detection with high sens

102 Non-redundant DNA arrays could be constructed for any group of closely

103 We have constructed a DNA array covering 121 kb surrounding the DHFR locus, to

104 to reduce the multidimensional complexity of DNA array data and attempt to extract some meaningful in

105 The zone-specific DNA array data obtained from human tissue were compared

106 timates of transcript abundance suggest that DNA array data serve as adequate predictors of translati

107 oaches were used in the analysis of a sample DNA array data set derived from genome-wide gene express

108 DNA array data show that three blyA homologs were upregu

109 s (ICA) method for reducing high dimensional DNA array data to a smaller set of latent variables, eac

110 To complement DNA array data, cost-efficient high-throughput technolog

111 A DNA array detection method is reported in which the bind

112 greater potential to impact diagnostics than DNA arrays due to their potential for direct sample meas

113 Non-denatured double-stranded DNA array elements were shown to hybridize to single-str

114 F can be used to increase the sensitivity of DNA arrays, especially for far red emitting fluorophores

115 entration of Mg(2+), the Co(3+)Hex-condensed DNA array expands and eventually redissolves as a result

116 ombines bioinformatics analysis and in vitro DNA array experimentation.

117 Three independent DNA array experiments confirmed these results and showed

118 Replicate DNA array experiments identified 52 genes differentially

119 These methods differ from traditional DNA array experiments in that the readout is a direct me

120 PCR analysis of genes selected based on DNA array experiments revealed that estimation of the ra

121 DNA array experiments showed that, among other proteins,

122 sion in genome sequencing, and in subsequent DNA array experiments, has provided extensive informatio

123 otal sample volume is 500 microL; in the 2-D DNA array experiments, this volume is reduced to 1 micro

124 DNA arrays fabricated on these carbon-metal substrates a

125 gene expression with the use of high-density DNA array filters spotted with genomic DNA fragments (ge

126 application of this multiplexed high-density DNA array for parallel identification of target BWAs in

127 or stability enables the use of high-density DNA arrays for applications involving high temperatures,

128 a target and evaluated the use of stem-loop DNA arrays for detecting p53 mutations in the deletion s

129 gene fusions are an important alternative to DNA arrays for genomewide transcriptional analyses.

130 uce protein arrays for chip-based assays and DNA arrays for genotyping or genome sequencing.

131 The stem-loop DNA array format is simple, robust and flexible in desig

132 enotyping technology can be multiplexed in a DNA array format, permitting the parallel analysis of a

133 We report a novel method of DNA array formation that is electrochemically formed and

134 A construct with an alphoid DNA array from chromosome 22 with no detectable CENP-B m

135 New technologies using DNA arrays genotyping for a million or more SNPs promise

136 g of fluorescently tagged proteins to tandem DNA arrays has been instrumental in understanding nuclea

137 The introduction of oligonucleotide DNA arrays has resulted in much debate concerning approp

138 abases, expressed sequence tag databases and DNA arrays have been applied to find candidate genes for

139 Among these new technologies, DNA arrays have provided an important experimental appro

140 Through the use of more natural tandem DNA arrays, Hu et al. gain new insights into chromatin o

141 plication for thousands of genes in a single DNA array hybridization experiment.

142 Protein/DNA arrays identified E2F1, but not beta-catenin/Tcf, as

143 taking place upon DNA hybridization in dense DNA arrays immobilized on a layer of Au nano-particles d

144 To test the value of complement DNA arrays in identifying pathways involved in organ tra

145 try and can be applied to different types of DNA arrays, including custom arrays.

146 Studies using complementary DNA arrays indicated that the ADAM (A disintegrin and me

147 by CLOCK and/or circadian rhythms, we used a DNA array interrogating the mouse protein-encoding trans

148 By converting only part of the DNA array into a protein array, simultaneous detections

149 A high-density DNA array is fabricated by standard photolithographic me

150 ovel wireless electrochemiluminescence (ECL) DNA array is introduced for the visualized genotyping of

151 utility of these microfluidic arrays, a 2-D DNA array is used to detect a 20-fmol sample of in vitro

152 Gene expression profiling using DNA arrays is rapidly becoming an essential tool for res

153 The DNA-array is firstly converted into antibody-array using

154 Using a series of DNA array membranes, we identified a group of hypoxia-in

155 to determine spot heterogeneity in identical DNA array microspots comprising varied ratios of unlabel

156 However, realizing single-DNA arrays must tackle the challenge of capturing struct

157 Using a DNA array of 2059 genes, we analyzed cellular responses

158 n, we have constructed a partial C. albicans DNA array of 7,000 genes and used it to study the gene e

159 We used DNA arrays of 16,580 human cDNAs to identify 728 known g

160 osition to specific parts of the chromosome, DNA arrays of Salmonella enterica were used to quantitat

161 DNA arrays of the entire set of Escherichia coli genes w

162 Using these MB probes, we have developed a DNA array on avidin-coated cover slips and have improved

163 nsible for the evolution of large repetitive DNA arrays on all chromosomes.

164 DNA arrays on carbon-based substrates are substantially

165 nstrated for protein adsorption onto protein/DNA arrays on gold from aqueous solution using an SPR mi

166 tify micropatterned DNA spots within printed DNA arrays on slide surfaces and quantify DNA elements w

167 can be used directly in the construction of DNA arrays or can be cloned for a large variety of funct

168 ilver particles for increased sensitivity on DNA arrays or for DNA analysis.

169 DNA arrays permit rapid, large-scale screening for patte

170 The radioactivity labeled DNA array platform is a robust and accurate way for a hi

171 to detect specific targets in the multiplex DNA array platform.

172 DNA arrays provide a broad snapshot of the state of the

173 and/or organization of centromeric satellite DNA arrays rather than a more direct involvement in cent

174 Cross-species hybridization of a DNA array representing 1628 open reading frames (ORF) of

175 We used nylon-substrate DNA arrays representing approximately 96% of the predict

176 e body or changing the position of ribosomal DNA arrays resulted in the association of Pol III-transc

177 and MUC-1, the powerful coupling of SAGE and DNA arrays resulted in the identification of genes and p

178 Comparative genome hybridization with DNA arrays revealed strain differences in S. pneumoniae

179 ates faster then the parental strain and the DNA arrays revealed that nearly every MHV-68 ORF examine

180 We analyzed with Affymetrix DNA Arrays (Santa Clara, CA) the endothelial cell transc

181 bal gene expression analysis using an MHV-68 DNA array showed that PGE(2) increased production of mul

182 Analysis of protein/DNA array showed that TCEAL7 downregulation resulted in

183 Whole genome DNA arrays showed that at 10 muM RA839 significantly reg

184 lly affect probe-target duplex formation and DNA array signal generation.

185 Moreover, protein-DNA array studies identified two novel GSK-3-regulated t

186 DNA array studies provide a nonbiased detection of netwo

187 ole-blood gene-expression profiles by use of DNA array technology and confirmed the results by use of

188 ing this invasive cleavage assay and surface DNA array technology has been developed for potentially

189 DNA array technology is still in its infancy, but many h

190 With the advent of DNA array technology it is now possible to obtain a larg

191 Here we apply DNA array technology to examine the specificity of antis

192 We have used DNA array technology to monitor the level of approximate

193 We have developed methods for using DNA array technology to probe the entire transcriptome t

194 Among these, DNA array technology, which allows one to assay thousand

195 henotype of these cells was determined using DNA array technology.

196 g kidney organogenesis by using high-density DNA array technology.

197 RNA was eluted, amplified, and analyzed with DNA array technology.

198 of replicate protein arrays directly from a DNA array template using cell-free protein synthesis.

199 The zip code master is a DNA array that defines the location of oligonucleotides

200 can be used experimentally with high-density DNA arrays that allow complex mixtures of RNA and DNA to

201 n centromeres are defined by alpha satellite DNA arrays that are distinct and chromosome specific.

202 d by megabases of homogenous alpha-satellite DNA arrays that are packaged into specialized chromatin

203 Here we show, using DNA arrays, that expression of retinol binding protein-4

204 gely determined by a single parameter of the DNA array, the fraction of DNA charges neutralized by Co

205 We use a new multi-species complementary DNA array to compare steady-state messenger RNA levels i

206 We used the Panomics TransSignal protein/DNA array to identify changes in the levels of cellular

207 We describe a method, DNA array to protein array (DAPA), which allows the 'pri

208 of AtNHX1 (nhx1 plants) and Affymetrix ATH1 DNA arrays to assess differences in transcriptional prof

209 We used whole-genome DNA arrays to determine the system response in Escherich

210 elf and the organism from UV damage, we used DNA arrays to follow UV-caused gene expression changes i

211 ed on a proof-of-principle scale using small DNA arrays to genotype 6 SNP markers in the PTPN1 gene a

212 use of RNA expression arrays and CpG-island DNA arrays to identify and characterize human PRC2/3 tar

213 The use of high-density DNA arrays to monitor gene expression at a genome-wide s

214 huntingtin protein, we used oligonucleotide DNA arrays to profile approximately 6000 striatal mRNAs

215 physiology and behavior, we used RNA-seq and DNA arrays to quantify the transcriptomes of 12 mouse or

216 We used oligo-based DNA arrays to study the expression profiles of eight mat

217 two strategies for attaching self-assembled DNA arrays to the surfaces of cells.

218 erial analysis of gene expression (SAGE) and DNA arrays, to help elucidate pathways in breast cancer

219 Recent developments have applied a DNA array-type approach to immobilize proteins on a surf

220 epeats of a few hundred base pairs into long DNA arrays up to 120 kb.

221 A method for analyzing combinatorial DNA arrays using oligonucleotide-modified gold nanoparti

222 The alphoid DNA array was also isolated from the 12 Mb human mini-ch

223 A CMS-DNA array was prepared on an array of gold electrodes on

224 ried out successfully on the above-described DNA array, we then performed a sequencing reaction on th

225 Utilizing B. burgdorferi whole genome DNA arrays, we compared the transcriptomes of the spiroc

226 By analysing these cells on DNA arrays, we define a pattern of gene expression that

227 Here, by using transcription profiling via DNA arrays, we have identified genes induced by DsrA.

228 Using genomic DNA arrays, we identified genes whose expression is affe

229 Using DNA arrays, we show that Bcl-xL features as a prominent

230 Genotypes based on the 50 K SNP DNA array were available and a total of 34,874 SNPs rema

231 DNA arrays were used to analyze gene expression profiles

232 Finally, the MHV-68 DNA arrays were used to examine the gene expression prof

233 Affymetrix GeneChip 6.0 DNA arrays were used to genotype nearly 700,000 single-n

234 TranSignal Protein/DNA arrays were used to identify the hypoxia-inducing fa

235 DNA arrays were used to investigate the functional role

236 In this study, DNA arrays were utilized to monitor the transcriptional

237 a part of the long alpha-satellite (alphoid) DNA array, where it is flanked by pericentric heterochro

238 three-layer logpile (3LL), a two-dimensional DNA array which self-assembles from four synthetic oligo

239 Spotted DNA arrays, which are found to inhibit biofouling, are u

240 A method for rapidly assembling high-density DNA arrays with near-perfect order is described.

241 Hydrophobic or amphiphilic DNA arrays would be useful for the synthesis of hydropho