ライフサイエンスコーパス: microdissection

1 ounding tissue and isolated by laser capture microdissection.

2 ing Purkinje cells isolated by laser-capture microdissection.

3 rom FFPE tissue sections using laser capture microdissection.

4 owman's capsule cells isolated by mechanical microdissection.

5 leaf primordia and the meristem using laser microdissection.

6 ach lesion sample evaluated by laser-capture microdissection.

7 d in regions of AIN sampled by laser-capture microdissection.

8 ing the same method, but after laser capture microdissection.

9 es and the brain parenchyma by laser capture microdissection.

10 l wall lymphocytes isolated by laser capture microdissection.

11 these events were collected by laser capture microdissection.

12 and protein expression by airway level using microdissection.

13 en in lineages not separable by experimental microdissection.

14 on, using frozen specimens obtained by laser microdissection.

15 various techniques, including laser capture microdissection.

16 om frozen sections of human eyelids by laser microdissection.

17 on enterocyte RNA isolated by laser-capture microdissection.

18 ated from liver biopsies using laser capture microdissection.

19 t cholangiocyte phenotypes obtained by laser microdissection.

20 )Smad4(lox/lox)) mice by using laser capture microdissection.

21 ected from the same animals by laser capture microdissection.

22 polymerase chain reaction, and laser-capture microdissection.

23 termination of haplotypes through chromosome microdissection.

24 ted from patient samples using laser capture microdissection.

25 genotype Peking (PI 548402) by laser capture microdissection.

26 tudinal and lateral axes using laser capture microdissection.

27 non-IM and IM separately using laser caption microdissection.

28 um and mesenchyme retrieved by laser capture microdissection.

29 ; enterocytes were isolated by laser capture microdissection.

30 ting and ex vivo by using RT-PCR after laser microdissection.

31 nterior-posterior and medial-lateral axes by microdissections.

32 Manual microdissection allowed a high degree of sample purity,

33 The use of laser-capture microdissection allowed elucidation of differential gene

34 Finally, western blots and laser-capture microdissection analysis confirmed upregulation of HIF-1

35 By using laser capture microdissection and a quantitative PCR array, 23 of 84 e

36 rimary colorectal tumors using laser capture microdissection and aCGH.

37 mbedded biopsy specimens using laser capture microdissection and analyzed them with liquid chromatogr

38 ver cell types was assessed by laser-capture microdissection and confocal microscopy.

39 By microdissection and deep sequencing in mouse, we find th

40 Laser microdissection and ELISA of bone microdamage support ou

41 rofile neural circuits such as laser-capture microdissection and FACS, Retro-TRAP is a high-throughpu

42 Using laser capture microdissection and gene copy number analyses, we found

43 By combining laser capture microdissection and gene expression profiling, we demons

44 rostate cancer specimens using laser-capture microdissection and genomic DNA sequencing.

45 Laser capture microdissection and in situ hybridization revealed a dis

46 n retaining adequate morphology for accurate microdissection and maintaining RNA integrity.

47 Using laser microdissection and mass spectrometry (MS)-based proteom

48 Use of laser microdissection and mass spectrometry enabled identifica

49 ition disease underscores the value of laser microdissection and mass spectrometry in further evaluat

50 We used laser microdissection and mass spectrometry to identify new an

51 Using laser-capture microdissection and mass spectrometry, we demonstrate th

52 solated the large nuclei of frog oocytes via microdissection and measured the nucleocytoplasmic parti

53 bidopsis leaves using a combination of laser microdissection and microarray expression profiling, and

54 normal terminal duct lobular units by using microdissection and miRNA microarrays.

55 istry, in situ hybridization, laser-assisted microdissection and nested reverse transcriptase polymer

56 ic high-resolution microscopy, laser capture microdissection and next-generation RNA-sequencing.

57 Through microdissection and partial digestion, different urethra

58 in intact tetrads, eliminating the need for microdissection and permitting meiotic segregation patte

59 rder to determine the MSI status of a tumor, microdissection and polymerase chain reaction-based dete

60 Using both immunohistochemistry and laser microdissection and pressure catapulting technique for R

61 We used laser-capture microdissection and pressure catapulting to isolate ECs

62 (VvPIPs) were quantified using laser-capture microdissection and quantitative polymerase chain reacti

63 We next used laser-capture microdissection and quantitative polymerase chain reacti

64 By using laser-capture microdissection and recombinant clone isolation of DNA s

65 NA was also evaluated by using laser capture microdissection and reverse transcriptase-polymerase cha

66 f the infiltrating cells using laser capture microdissection and RNA sequencing indicated a myeloic o

67 We used laser microdissection and RNA sequencing to identify genes tha

68 Using microdissection and RNA sequencing, we revealed a differ

69 Laser-capture microdissection and RNASeq of activated neurons revealed

70 ow cytometry and RT-PCR and ex vivo by laser microdissection and RT-PCR.

71 the same tissue section, we performed laser microdissection and single cell genetic analysis to inve

72 We exploited laser microdissection and Solexa sequencing to identify 202 ge

73 d an application that combined laser capture microdissection and subsequent whole transcriptome RNA s

74 Using laser microdissection and targeted gene misexpression in the c

75 cted a finer level of analysis using smaller microdissections and found GAD67 to be significantly inc

76 tudies, Western blot analysis, laser capture microdissections and qRT-PCR to evaluate axonal density

77 astic cells were isolated with laser capture microdissection, and DNA was sequenced at the site of th

78 bined an immunohistochemical approach, laser microdissection, and microarray profiling to analyze the

79 sitive cells were harvested by laser-capture microdissection, and mRNA was extracted for expression p

80 sted for microRNA microarrays, laser capture microdissection, and RNA and protein analysis.

81 hnique, the different types of laser capture microdissection, and the subsequent downstream analyses.

82 (Populus x canescens) were enriched by laser microdissection, and transcripts were monitored by popla

83 In this study, we used laser microdissection-based microproteomics to determine the p

84 keloid pathobiology, we took a laser capture microdissection-based, whole-genome microarray analysis

85 nted any diagnosis in cases analyzed without microdissection because the majority of sequences were c

86 ques, such as cell sorting and laser-capture microdissection, can enrich samples for cell types of in

87 Integrating laser microdissection, cancer cell fraction analysis, and sing

88 ast 2 different EC samples obtained by laser microdissection, cell culture, or cell sorting.

89 Unlike other methodologies that rely on microdissection, cell panning or cell sorting, the TRAP

90 e L3PN transcriptome was studied using laser microdissection combined with DNA microarray or quantita

91 e we established a new method based on laser microdissection combined with mass spectrometry for the

92 First, using in situ hybridization and laser microdissection combined with reverse transcription-quan

93 Microdissection could be a key to the metagenomic diagno

94 ptome analysis was achieved by laser-capture microdissection coupled to high-depth RNA sequencing.

95 We used laser-capture microdissection coupled to high-throughput RNA sequencin

96 e we applied single population laser capture microdissection coupled with custom-designed microarray

97 Through transcriptome analysis using laser microdissection coupled with DNA microarrays, in combina

98 We used laser capture microdissection coupled with microarrays to identify ear

99 he Sp8 mutants was examined by laser capture microdissection coupled with microarrays, as well as in

100 Using laser-capture microdissection coupled with real-time reverse transcrip

101 Laser capture microdissection-coupled complementary DNA microarray ana

102 Laser capture microdissection demonstrated endogenous c-jun inhibits e

103 zygous mutants exhibit upper GU defects at a microdissection-detectable rate of 23%.

104 Using a laser capture microdissection-driven unbiased systems virology approac

105 Microdissection enriches tumour cellularity and enhances

106 Synovial mRNA obtained by laser capture microdissection exhibited a decrease in TNF-alpha in C5a

107 Fate mapping and microdissection experiments have demonstrated a neural c

108 lture studies, (13)C isotopic tracing, laser microdissection experiments, and in situ immunofluoresce

109 Laser-based microdissection facilitates the isolation of specific ce

110 ery small cell populations via laser-capture microdissection followed by a customized single-cell amp

111 itive restriction enzymes, and laser-capture microdissection followed by bisulfite sequencing on DNA

112 nts from 3 hospitals were subjected to laser microdissection followed by KRAS pyrosequencing and loss

113 Using proteomics, laser microdissection followed by mass spectrometry can direct

114 dvanced technique of amyloid typing is laser microdissection followed by mass spectrometry.

115 Laser capture microdissection followed by PCR confirmed the deletion o

116 Laser-capture microdissection followed by proteomic analysis showed de

117 ssion of Ihh was quantified by laser capture microdissection followed by quantitative reverse transcr

118 Here laser capture microdissection followed by RNA sequencing (LCM-seq) was

119 We used laser capture microdissection followed by RNA sequencing to identify c

120 s from recipient myocardium by laser capture microdissection for in vivo transcriptome analysis.

121 rs and obtained CaC and SaC by laser capture microdissection for next-generation sequencing.

122 By combining laser-capture microdissection for RNA sampling with microarrays, we sh

123 smooth muscle were isolated by laser-capture microdissection for RNA sequencing.

124 he DLPFC were individually captured by laser microdissection from 19 matched tetrads of unaffected co

125 proteomics on single blastomeres isolated by microdissection from 2-, 4-, 8-, 16-, 32-, and 50-cell X

126 n DLPFC layers 3 or 5 were captured by laser microdissection from 36 subjects with schizophrenia or s

127 n single clones isolated using laser capture microdissection from Drosophila larval eye imaginal disc

128 l output of CD8(+) T cells captured by laser microdissection from human genital skin biopsy specimens

129 ocytes obtained by single cell laser capture microdissection from liver biopsy samples of patients ch

130 e anatomic regions isolated by laser-capture microdissection from renal biopsy samples.

131 g of motor neurons isolated by laser capture microdissection from three anatomical nuclei of the norm

132 pithelial and stromal cells by laser capture microdissection fromMsx1(d/d)/Msx2(d/d)and floxed mouse

133 esolution of immune cells with laser capture microdissection gene expression profiles, we defined dis

134 This laser-capture microdissection-high-throughput RNA sequencing approach

135 oa and epithelial cells using combined laser microdissection/HPLC-ESI-MS analysis.

136 sed protocol for sample collection and laser microdissection improved the RNA yield of the in situ oc

137 onal macrophages isolated with laser-capture microdissection in euglycemic and hyperglycemic HypoE mi

138 iptomic profile of DR cells by laser capture microdissection in patients with AH and assessed its ass

139 which is capable of performing robust tissue microdissection in silico, and which can improve the det

140 alysis of differences (MMAD), which performs microdissection in silico.

141 of tissue samples processed by laser capture microdissection indicated suppression of antiviral host

142 This is performed by using a laser-capture microdissection instrument for single-cell isolation, fo

143 A commercial optical microscope, laser microdissection instrument was coupled with an electrosp

144 the adaptation of xMD to commonly used laser microdissection instruments and to a commercially availa

145 Laser capture microdissection is a powerful technique that allows rese

146 Anatomic vascular microdissection is performed to super-selectively devasc

147 We have used laser capture microdissection (LCM) and fluorescence microscopy to iso

148 In this study, we used laser capture microdissection (LCM) and gene array analysis to study t

149 Here we used a combination of laser-capture microdissection (LCM) and gene expression profiling to i

150 Previously, we used laser capture microdissection (LCM) and quantitative reverse transcrip

151 SCN transcriptome we combined laser-capture microdissection (LCM) and RNA-seq over a 24 hr light / d

152 Here, we applied laser-capture microdissection (LCM) and RNA-seq to characterize the in

153 molecular relatedness, we used laser capture microdissection (LCM) and whole-genome amplification (WG

154 injury and on RGCL isolated by laser capture microdissection (LCM) from another group with comparable

155 zes small samples extracted by laser-capture microdissection (LCM) from FFPE tissue.

156 l ganglion cell layer (GCL) by laser capture microdissection (LCM) in porcine and human eye cryosecti

157 ed coat that were separated by laser-capture microdissection (LCM) in reciprocal genetic crosses with

158 Laser capture microdissection (LCM) is a superior method for nondestru

159 Using laser capture microdissection (LCM) of distal bronchioles in a murine

160 hip is coupled with ArcturusXT laser capture microdissection (LCM) technology to enable the detection

161 Finally, using laser capture microdissection (LCM) to isolate the neovessels after OI

162 We used laser capture microdissection (LCM) to obtain highly enriched LE and I

163 Laser capture microdissection (LCM) was performed to isolate tumor cel

164 Laser capture microdissection (LCM) was then employed to collect the f

165 Laser capture microdissection (LCM) was used to capture an equal numbe

166 Laser capture microdissection (LCM) was used to isolate cells from the

167 Here laser capture microdissection (LCM) was used to isolate the growth con

168 omplete workflow that combines laser-capture microdissection (LCM) with low-input genome sequencing,

169 PCR), quantitative PCR (QPCR), laser-capture microdissection (LCM), and confocal microscopy.

170 during this early time period, laser capture microdissection (LCM), terminal continuation (TC) RNA am

171 Laser capture microdissection (LCM)-enabled region-specific tissue ana

172 we used microarray analysis of laser capture microdissection (LCM)-harvested ileal and colonic tip an

173 or bronchial) were procured by laser capture microdissection (LCM).

174 zen human and mouse tissues by laser capture microdissection (LCM).

175 ated from each duct segment by laser capture microdissection (LCM).

176 clei and RNAs were captured by laser capture microdissection (LCM).

177 meloblastoma were subjected to laser capture microdissection, linear mRNA amplification, and hybridiz

178 f laser "cut and drop" sampling with a laser microdissection-liquid vortex capture electrospray ioniz

179 es that are isolated from tomato using laser microdissection (LM).

180 ctiva of post-mortem cadaver eyes with laser microdissection (LMD) technique for gene expression stud

181 Laser microdissection (LMD) was used to collect conjunctival f

182 Laser capture microdissection localized this shift to the media and ad

183 Using laser-capture microdissection, mass spectrometry and confocal microsco

184 , we developed and validated a laser capture microdissection-mass spectrometry (LCM-MS) approach to q

185 have selectively harvested, by laser capture microdissection, MC and keratinocyte precursors from the

186 Laser microdissection-microarray analyses of the rgd2-R mutant

187 culata, and tumour obtained by laser capture microdissection of 14 patients with aldestosterone adeno

188 omas, 1 adenoma) obtained through saturation microdissection of 325 small tumor regions.

189 the PET signal was assessed by laser capture microdissection of airway versus vascular tissue.

190 Laser microdissection of apical domains from developing maize

191 Laser-capture microdissection of autopsy human hippocampus DG and qRT-

192 omputational algorithm that performs virtual microdissection of bulk tissue DNA methylation data at s

193 c hybridization analysis after laser capture microdissection of CD133+ and CD133- areas in primary co

194 Laser capture microdissection of cytochrome-c oxidase-deficient fibers

195 Laser microdissection of distinct musculoskeletal tissues was

196 By using microdissection of fresh-frozen tissues and recombinant

197 Laser capture microdissection of frozen tissue sections allows homogen

198 Laser microdissection of glomeruli and mass spectrometry of ex

199 ofiling of harvested iPSC-CMs, laser capture microdissection of host myocardium, and in vitro ischemi

200 CIS development, we performed laser captured microdissection of human SCCIS and the adjacent epidermi

201 Laser-microdissection of murine intrapulmonary arteries reveal

202 Laser-capture microdissection of normal skin, hyperplastic skin and pa

203 tem that permits consistent and reproducible microdissection of nuclei across an FFPE rat brain tissu

204 tate tissue microarrays and by laser-capture microdissection of prostate epithelium.

205 Computational microdissection of simulated and experimental tissue mix

206 tive was to explore the use of laser-capture microdissection of specific epithelial structures combin

207 sities in the imaging was confirmed by laser microdissection of specific regions of the brain directe

208 nalysis approach combined with laser-capture microdissection of spinal motoneurons during the myelino

209 Laser-capture microdissection of stromal cells from normal tissue and

210 ition, we use our Gjd3-CreEGFP mice to guide microdissection of the AVN and construction of a single-

211 devices have recently been used to automate microdissection of the budding yeast Saccharomyces cerev

212 The protocol involves the microdissection of the SVZ and DG from one adult mouse b

213 overcome this, a new strategy, involving the microdissection of tissue sections mounted on parafilm M

214 Using microdissection of tubules exhibiting altered expression

215 Here, by sequencing whole genomes of 482 microdissections of 100-500 hepatocytes from 5 normal an

216 transcriptomic sequencing with precise laser microdissections of meristem subdomains to define the mo

217 We used laser capture microdissection on a sinus node reporter mouse line to i

218 njured epidermis, we performed laser capture microdissection on normal human skin.

219 lls (ECs) obtained from capillaries by laser microdissection or from fresh spleen tissue by cell cult

220 astic sampling is performed by laser-capture microdissection or limiting dilution, followed by carefu

221 for follow up validation measurements using microdissection or other orthogonal techniques.

222 e-resident cell subsets isolated by sorting, microdissection, or fine needle aspirates.

223 terizations of fly phenotypes and behaviors; microdissection; or release.

224 according to the developed parafilm-assisted microdissection (PAM) method.

225 a method to isolate them using laser capture microdissection, permitting comparison of RNA extracted

226 dissector (FYLM) provides a powerful on-chip microdissection platform that will enable high-throughpu

227 dual glands were identified by laser capture microdissection polymerase chain reaction sequencing for

228 ed from their progeny via a laborious manual microdissection procedure.

229 with end-stage idiopathic PAH (laser capture microdissection, qPCR, and immunohistochemistry).

230 Laser-capture microdissection-quantitative polymerase chain reaction w

231 e developed a technique called laser capture microdissection-reduced representation bisulfite sequenc

232 oventricular nodes isolated by laser capture microdissection revealed hundreds of deregulated genes i

233 Laser capture microdissection reveals increased Nox4 expression in the

234 Laser microdissection RNA Sequencing (LM-RNAseq) was performed

235 used chromatin immunoprecipitation and laser-microdissection RNA-seq of leaf primordial margins to id

236 strategies, confocal imaging, laser capture microdissection, RNA microarrays of individual cellular

237 Using laser microdissection, samples of DLPFC deep layer 3 were coll

238 sis of macrophages isolated by laser capture microdissection showed significantly increased expressio

239 om airway epithelial cells captured by laser microdissection showed that increased expression of IL-1

240 adenomatous) were isolated via laser capture microdissection (targeted at regions of MLH1 loss) from

241 Optimisation of the laser microdissection technique was crucial for efficient and

242 ficient for isolating MTM cells with minimal microdissection techniques required.

243 sion, in addition to utilizing laser capture microdissection techniques to differentiate between neur

244 opreservation is recommended, treatment with microdissection TESE and ICSI are effective treatment op

245 Eighty-four microdissection TESE procedures were performed in 73 pat

246 sents the largest series of postchemotherapy microdissection TESE-ICSI to date.

247 ermic after chemotherapy can be treated with microdissection testicular sperm extraction (TESE) and i

248 We showed, using laser microdissection, that somatic hypermutation (SHM) occurr

249 pyrosequencing technology with laser capture microdissection to characterize the transcriptomes of th

250 We used laser capture microdissection to collect incipient PCT cells and analy

251 ed RNA-seq coupled with classic renal tubule microdissection to comprehensively profile gene expressi

252 our-stromal assay (muTSA) with laser capture microdissection to control the location of co-cultured c

253 ell populations isolated using laser capture microdissection to identify novel human OFC signature ge

254 We used laser capture microdissection to isolate cells from three normal human

255 We used laser capture microdissection to isolate colonic crypt cells, differen

256 We used laser capture microdissection to isolate cytoplasmic inclusions from s

257 vercome these limitations, we employed laser microdissection to isolate defined cell types or functio

258 ypoxia marker EF5 coupled with laser-capture microdissection to isolate RNA from viable hypoxic and n

259 Using laser microdissection to isolate specific domains of the kidne

260 Additionally, we used laser microdissection to isolate the decidua from tissue secti

261 used microarray analysis coupled with laser microdissection to obtain both spatial and temporal tran

262 In this study, we used laser-capture microdissection to obtain glomeruli and proximal tubules

263 d regions of interest are collected by laser microdissection to provide homogeneous samples for liqui

264 data establish the utility of laser capture microdissection to separate different compartments and c

265 In this study we exploited laser capture microdissection to specifically collect individual injur

266 Here, using cell-type-specific laser capture microdissection, transcriptional profiling and T-cell an

267 Laser-capture microdissection was applied to isolate 30 samples (25 CI

268 Laser capture microdissection was performed separately for each tumor.

269 Laser capture microdissection was performed to separate the epidermis

270 No tissue microdissection was performed.

271 Laser microdissection was used to accurately collect uninjured

272 Single-cell laser capture microdissection was used to capture more than 1000 hepat

273 Laser capture microdissection was used to collect selected palatal epi

274 Laser capture microdissection was used to determine differential expre

275 myces orontii on Arabidopsis thaliana, laser microdissection was used to isolate cells at the site of

276 Laser capture microdissection was used to isolate E. coli-laden and un

277 Laser capture microdissection was used to isolate the neoplastic epith

278 Laser capture microdissection was used to isolate the retinal blood ve

279 Laser capture microdissection was used to obtain neoplastic epithelial

280 In liver, laser capture microdissection was used to quantify HCV.

281 Using laser capture microdissection, we collected samples from 14 distinct e

282 In this study, using GT198 as a marker for microdissection, we find that ovarian tumor stromal cell

283 next-generation sequencing and laser capture microdissection, we generated different tissue- and stag

284 Using single-cell laser capture microdissection, we isolated >1100 hepatocytes from 5 HI

285 Using laser capture microdissection, we show that cortical SST-positive inte

286 Using laser capture microdissection, we show that MED12 fibroadenoma mutatio

287 Using laser microdissection, we showed that miR-199a-5p is predomina

288 ng the described protocol with laser-capture microdissection, we were able to quantify the intra-tumo

289 GCLs isolated by laser capture microdissection were grouped by grading of the nerve inj

290 (n=6 per zone) were harvested and 3 zones of microdissection were isolated, including: Zone I-sinoatr

291 er 20 mum x 20 mum or 40 mum x 40 mum tissue microdissections were cut and dropped into the flowing s

292 IPD, SN neurons, isolated with laser-capture microdissection, were assayed for mtDNA deletions, copy

293 ew computational approach, called microarray microdissection with analysis of differences (MMAD), whi

294 To this end, we combined laser capture microdissection with complementary DNA (cDNA) microarray

295 us for resistance, by coupling laser capture microdissection with microarray analysis.

296 es and stained with Toluidine Blue for laser microdissection with PALM microbeam systems.

297 n this study, we have combined laser-capture microdissection with reduced representation bisulfite se

298 By combining live-cell laser microdissection with single cell transcriptomics, we est

299 Expression microdissection (xMD) is a high-throughput, operator-ind

300 Expression microdissection (xMD) is a second-generation technology