1 t from more costly EGFR fluorescence in situ
hybridization analysis).
2 eny and in the adult mouse thymus by in situ
hybridization analysis.
3 n fragments on gels and fluorescence in situ
hybridization analysis.
4 tumor was verified using comparative genomic
hybridization analysis.
5 clones using sequential fluorescent in situ
hybridization analysis.
6 reakpoint by interphase fluorescence in situ
hybridization analysis.
7 nce of p53, we performed comparative genomic
hybridization analysis.
8 o four allelic groups based on Southern blot
hybridization analysis.
9 a simple nonradioactive method for multiplex
hybridization analysis.
10 gene replacement, DNA sequence, and Northern
hybridization analysis.
11 transcript of 11 kb was detected by Northern
hybridization analysis.
12 rious phases of the cell cycle using in situ
hybridization analysis.
13 ular epithelial cells of prostate by in situ
hybridization analysis.
14 ned by Southern blot and fluorescent in situ
hybridization analysis.
15 o hybridize to 17q25 by fluorescence in situ
hybridization analysis.
16 onstrated by immunohistochemical and in situ
hybridization analysis.
17 prepared for immunohistochemical and in situ
hybridization analysis.
18 osomal region 4q21.1 by fluorescence in situ
hybridization analysis.
19 f chromosome Xq22-24 by flourescence in situ
hybridization analysis.
20 than those detected by fluorescence in situ
hybridization analysis.
21 and to 1p31.3-p31.2 by fluorescence in situ
hybridization analysis.
22 that were confirmed by fluorescence in situ
hybridization analysis.
23 is approach with results obtained by in situ
hybridization analysis.
24 rtebrate telomeric repeat (TTAGGG)n and blot
hybridization analysis.
25 prostate cancers using fluorescence in situ
hybridization analysis.
26 dependently confirmed by fluorescent in situ
hybridization analysis.
27 copy number measured by fluorescence in situ
hybridization analysis.
28 abnormality detected by fluorescence in situ
hybridization analysis.
29 ties by microarray-based comparative genomic
hybridization analysis.
30 precipitation and immunofluorescence in situ
hybridization analysis.
31 shown to contain one by fluorescence in situ
hybridization analysis.
32 sequences (6239 CDS) were used for in silico
hybridization analysis.
33 Array comparative genomic
hybridization analysis after laser capture microdissecti
34 e clones as a probe for fluorescence in situ
hybridization analysis allowed a detailed characterizati
35 In situ
hybridization analysis also revealed strong HOXC4 and we
36 ad secretion complex genes, we used Northern
hybridization analysis and a lacZ reporter assay.
37 enia have clinical array-comparative genomic
hybridization analysis and appropriate cytogenetic studi
38 Fluorescence in situ
hybridization analysis and genomic clone sequencing indi
39 Using in situ
hybridization analysis and immunofluorescence on tissue
40 In situ
hybridization analysis and immunohistochemical staining
41 wnt pathway gene Nkd2 by whole mount in situ
hybridization analysis and Q-PCR.
42 Hybridization analysis and subcloning experiments showed
43 nebacterium nigricans, were shown by DNA-DNA
hybridization analysis and the sequencing of the 16S rRN
44 dontalis was defined by checkerboard DNA-DNA
hybridization analysis,
and corresponding serum antibodi
45 tributions of the transgene mRNA, by in situ
hybridization analysis,
and of photoreceptor cells that
46 ion was determined through whole-ear in situ
hybridization analysis,
and selected genes were analyzed
47 s detected in many tumor types by cDNA array
hybridization analysis,
and TWEAK protein expression was
48 the SHH/GLI3 pathway was analyzed by in situ
hybridization analysis,
and we show that Xs mouse embryo
49 sue specimens were also subjected to in situ
hybridization analysis,
as well as complementary DNA clo
50 Fluorescence in situ
hybridization analysis at band 3q23 using probes derived
51 By in situ
hybridization analysis at E18, P1, and P3, Ang-1 mRNA wa
52 g vibrissa follicle, we performed microarray
hybridization analysis,
comparing expression patterns in
53 Fluorescence in situ
hybridization analysis confirmed an amplicon on chromoso
54 PCR and Southern
hybridization analysis confirmed site-specific transgene
55 Ex vivo bioluminescence imaging and in situ
hybridization analysis confirmed that luciferase express
56 Southern
hybridization analysis confirmed that this gene cluster
57 However, qualitative whole genomic DNA
hybridization analysis confirmed that this group is gene
58 In situ
hybridization analysis demonstrated a time dependent inc
59 Fluorescence in situ
hybridization analysis demonstrated absolute specificity
60 Fluorescence in situ
hybridization analysis demonstrated an allelic loss of a
61 RNA
hybridization analysis demonstrated reduced expression o
62 DNA-DNA
hybridization analysis demonstrated species-level relate
63 In situ
hybridization analysis demonstrated that (i) fibroblasts
64 In situ
hybridization analysis demonstrated that abundant testic
65 ession 24 hours after lesioning, and in situ
hybridization analysis demonstrated that CCR5 mRNA was e
66 h the relatively normal iron status, in situ
hybridization analysis demonstrated that lactoferrin is
67 Fluorescence in situ
hybridization analysis demonstrated that mitotic recombi
68 In situ
hybridization analysis demonstrated that mouse I-mfa was
69 Northern
hybridization analysis demonstrated that Pt4CL1 mRNA is
70 Hybridization analysis demonstrated that sequences highl
71 Array comparative genomic
hybridization analysis demonstrated that the transformed
72 In situ
hybridization analysis demonstrated that, in contrast to
73 Southern and fluorescence in situ
hybridization analysis demonstrated the human EP2 gene t
74 In situ
hybridization analysis demonstrates expression of IIb mR
75 In situ
hybridization analysis demonstrates that dKCNQ mRNA is p
76 Furthermore, RNA in situ
hybridization analysis demonstrates that loss of Hmt1 re
77 In situ
hybridization analysis demonstrates that Ron is expresse
78 In situ
hybridization analysis did not detect CHST6 transcripts
79 Plasmid content and
hybridization analysis done on 103 isolates from one hos
80 Fluorescence in situ
hybridization analysis done on the cell lines identified
81 the mahogany gene is broad; however, in situ
hybridization analysis emphasizes the importance of its
82 cell sorting (FACS) and fluorescence in situ
hybridization analysis (
FISH).
83 In situ
hybridization analysis for BDNF mRNA expression showed t
84 s of the OLFM4 gene via fluorescence in situ
hybridization analysis from 44 different prostate cancer
85 In situ
hybridization analysis further revealed that the express
86 In situ
hybridization analysis further showed that KCNMA1 mRNA w
87 Ontology (GO) terms, links to Gallus In Situ
Hybridization Analysis (
GEISHA), Unigene and Reactome, t
88 in that is, as determined by high-stringency
hybridization analysis,
genetically distinct in all 11 g
89 Our fluorescence in situ
hybridization analysis has estimated that SRG is located
90 An in situ
hybridization analysis has identified the specificities
91 DNA-DNA
hybridization analysis (
hydroxyapatite method; 70 degree
92 al aberrations and array comparative genomic
hybridization analysis identified numerous genomic gains
93 In situ
hybridization analysis identified Sertoli cells as the o
94 Additional fluorescence in situ
hybridization analysis identified two cases in which a P
95 We used in situ
hybridization analysis,
immunocytochemistry, and retrogr
96 and various tissues of maize by RNA gel blot
hybridization analysis in order to determine the relatio
97 rastically increase the speed for microarray
hybridization analysis in the future.
98 any cell types of the neural retina, in situ
hybridization analysis in the present study demonstrated
99 Double whole mount in situ
hybridization analysis in zebrafish embryos revealed co-
100 Fluorescence in situ
hybridization analysis,
indeed, revealed a small fractio
101 Northern
hybridization analysis indicated that AtPRP1 and AtPRP3
102 In situ
hybridization analysis indicated that ESAM is primarily
103 Fluorescence in situ
hybridization analysis indicated that exons 1-26 normall
104 In situ
hybridization analysis indicated that fibronectin mRNA w
105 In situ
hybridization analysis indicated that miR-192, an miRNA
106 Northern
hybridization analysis indicated that overexpression of
107 Comparative genomic
hybridization analysis indicated that single-copy and du
108 In situ
hybridization analysis indicated that TF mRNA was elevat
109 Fluorescence in situ
hybridization analysis indicated that the ERBB2 overexpr
110 Southern
hybridization analysis indicated the presence of provira
111 In situ
hybridization analysis indicates that Bclw is expressed
112 In situ
hybridization analysis indicates that expression of mous
113 Furthermore, in situ
hybridization analysis indicates that LFY levels are dra
114 Fluorescent in situ
hybridization analysis indicates that Mek1-mediated phos
115 DNA
hybridization analysis indicates that rsp genes are pres
116 he hUlip clone 1 phage, fluorescence in situ
hybridization analysis indicates that the hybridization
117 DNA
hybridization analysis indicates that the spv region is
118 Whole mount in situ
hybridization analysis indicates that Zim1 is expressed
119 n in DNA copy number by fluorescence in situ
hybridization analysis,
indicating that, in addition to
120 Oligonucleotide microarray (DNA chip)-based
hybridization analysis is a promising new technology whi
121 hytene chromosome-based fluorescence in situ
hybridization analysis is the most effective approach to
122 GEISHA (Gallus Expression In Situ
Hybridization Analysis)
is an in situ hybridization gene
123 Fluorescence in situ
hybridization analysis localized human BID to a syntenic
124 In situ
hybridization analysis localized the F10 mRNA to a varie
125 Finally, fluorescence in situ
hybridization analysis localized the FYB gene to human c
126 Fluorescence in situ
hybridization analysis localized the HK alpha 2 gene to
127 Fluorescent in situ
hybridization analysis localizes the PSCA gene to chromo
128 Fluorescence in situ
hybridization analysis mapped the EPSPS gene to pericent
129 se-polymerase chain reaction, and/or in situ
hybridization analysis,
mT4 is expressed in interleukin-
130 orate reductase was further supported by DNA
hybridization analysis of (per)chlorate- and chlorate-re
131 ome 16q, and used it for comparative genomic
hybridization analysis of 16 prostate tumors.
132 Northern
hybridization analysis of 460 surveillance samples ident
133 Fluorescence in situ
hybridization analysis of 5 additional atherosclerotic c
134 DNA microarray
hybridization analysis of a number of P. aeruginosa stra
135 In situ
hybridization analysis of a subset of these "commonality
136 In situ
hybridization analysis of a wide survey of mouse tissues
137 Hybridization analysis of amplified OP DNA with domain-s
138 Fluorescence in situ
hybridization analysis of blood samples from bone marrow
139 Quantitative in situ
hybridization analysis of brains from naturally cycling
140 In situ
hybridization analysis of c-fos mRNA induction reveals c
141 n mRNA localization are confirmed by in situ
hybridization analysis of cultured chick brain radial gl
142 Using real-time PCR and in situ
hybridization analysis of Cyp26a1 and its two functional
143 In situ
hybridization analysis of developing mouse cartilage sho
144 In situ
hybridization analysis of developing mouse cartilage sho
145 In situ
hybridization analysis of developing mouse limb demonstr
146 During an ongoing in situ
hybridization analysis of expressed sequence tags in zeb
147 y Y-chromosome-specific fluorescence in situ
hybridization analysis of female-to-male transplanted mi
148 Fluorescence in situ
hybridization analysis of fluorescence-activated cell so
149 e blastula stage; a RNA gel blot and in situ
hybridization analysis of gastrulae and larvae shows a p
150 In situ
hybridization analysis of genes identified on the microa
151 r transposase mRNA was confirmed by Southern
hybridization analysis of genomic DNA from the transform
152 Hybridization analysis of genomic DNA indicated that the
153 nformatics approaches together with Southern
hybridization analysis of genomic DNA of S. mansoni and
154 By independent PCR and Southern
hybridization analysis of genomic DNA, we found that the
155 Array comparative genome
hybridization analysis of grade 3 PNSTs identified recur
156 In situ
hybridization analysis of HB-EGF mRNA in developing rat
157 A comparative genome
hybridization analysis of HL-60[R] cells identified gain
158 Finally, in situ
hybridization analysis of hr and VDR mRNAs in mouse skin
159 In situ
hybridization analysis of HTLV-2 integration revealed no
160 Northern blot and in situ
hybridization analysis of human and monkey tissue shows
161 cally stable, novel class of fluorophore for
hybridization analysis of human metaphase chromosomes is
162 authors performed a high-resolution in situ
hybridization analysis of ionotropic glutamate receptor
163 ring the blastula stage, as shown by in situ
hybridization analysis of MASO injected embryos.
164 We used multicolor flow fluorescence in situ
hybridization analysis of median telomere length in tota
165 Correspondingly, fluorescence in situ
hybridization analysis of metaphase chromosomes showed a
166 Northern
hybridization analysis of mRNA levels and enzyme-linked
167 Previous in situ
hybridization analysis of mRNAs encoding RGS3-RGS11 reve
168 Using PAC clones for fluorescence in situ
hybridization analysis of myeloid leukemia cells with re
169 is highly expressed in the brain and in situ
hybridization analysis of Nbr1 showed that its expressio
170 In situ
hybridization analysis of neuronal cultures harboring la
171 uently prepared for semiquantitative in situ
hybridization analysis of neurotrophin and neurotrophin
172 rm excimers have a number of applications in
hybridization analysis of nucleic acids.
173 Comparative genomic
hybridization analysis of one case demonstrated that in
174 s probes in comparative fluorescence in situ
hybridization analysis of pachytene chromosomes to inves
175 q23-q24 using interphase fluorescent in situ
hybridization analysis of paraffin-embedded prostate can
176 Nonradioactive and radioactive in situ
hybridization analysis of poly(A) and ribosomal RNA, res
177 Fluorescent in situ
hybridization analysis of primary splenic B cells isolat
178 ntified in a large-scale comparative genomic
hybridization analysis of primary tumor for their abilit
179 RNAs bind to chromatin, we developed capture
hybridization analysis of RNA targets (CHART), a hybridi
180 In situ
hybridization analysis of sections from Delta3a/ Delta3a
181 Southern
hybridization analysis of six Arabidopsis ecotypes revea
182 ce, RNA-Seq transcriptomic data, and in situ
hybridization analysis of somite-stage embryos, we carri
183 tative polymerase chain reaction and in situ
hybridization analysis of SPG20 expression were carried
184 Northern
hybridization analysis of the cbl locus identified a sin
185 In situ
hybridization analysis of the distribution of RNA from t
186 other hamster tissues examined, and, in situ
hybridization analysis of the epididymis revealed that f
187 microarray results were confirmed by in situ
hybridization analysis of the expression of two genes.
188 used locked nucleic acid probes for in situ
hybridization analysis of the intracellular localization
189 uppression subtractive hybridization and RNA
hybridization analysis of the purple tomato plants indic
190 Comparative genomic
hybridization analysis of these five tumors indicated ei
191 In situ
hybridization analysis of tissues revealed that epitheli
192 Northern blot
hybridization analysis of total RNA showed that the ahpC
193 e-genome sequencing and fluorescence in situ
hybridization analysis of two de novo translocations rev
194 direct immunofluorescence assays and in situ
hybridization analysis of virus-infected cells revealed
195 Fluorescent in situ
hybridization analysis of wild-type and petite mtDNAs in
196 in Thrb(PV/PV) mice was confirmed by in situ
hybridization analysis of Wnt target gene expression in
197 Restriction mapping and
hybridization analysis of YAC and cosmid clones confirme
198 Fluorescence in situ
hybridization analysis offered an initial confirmation o
199 l artificial chromosome fluorescence in situ
hybridization analysis on metaphases and interphase nucl
200 rformed microarray-based comparative genomic
hybridization analysis on murine tumors, identifying gai
201 ersus murine centromeric fluorescent in situ
hybridization analysis on the liver sections demonstrate
202 Hybridization analysis performed on 43 normal human tiss
203 Hybridization analysis performed with 16 strains of Salm
204 In situ
hybridization analysis provided for the first time a det
205 Nonradioactive in situ
hybridization analysis revealed a gradual increase in th
206 In situ
hybridization analysis revealed a significant and select
207 Interphase fluorescence in situ
hybridization analysis revealed an APC2 allelic imbalanc
208 Three-dimensional DNA fluorescence in situ
hybridization analysis revealed an important function fo
209 Fluorescence in situ
hybridization analysis revealed copy gains spanning the
210 Southern blot
hybridization analysis revealed different patterns of lk
211 In situ
hybridization analysis revealed distinct expression patt
212 In situ
hybridization analysis revealed distinct patterns of Gdf
213 In addition, Northern blot and in situ
hybridization analysis revealed expression of the endoth
214 In situ
hybridization analysis revealed FIZZ1 expression to loca
215 A recent comparative genomic
hybridization analysis revealed frequent losses of chrom
216 Northern
hybridization analysis revealed that an intact uspA1 mRN
217 Fluorescence in situ
hybridization analysis revealed that at 42 h 38% of JG75
218 Pyrosequencing and fluorescence in situ
hybridization analysis revealed that denitrifying anaero
219 In situ
hybridization analysis revealed that E2 significantly in
220 In situ
hybridization analysis revealed that Fusobacterium is pr
221 Northern blot
hybridization analysis revealed that hlyBA were expresse
222 In situ
hybridization analysis revealed that MCP-1 was expressed
223 Chromatin immunoprecipitation microarray
hybridization analysis revealed that Mef2C is directly r
224 In situ
hybridization analysis revealed that that the Lc3 syntha
225 DNA
hybridization analysis revealed that the CS54 island is
226 In situ
hybridization analysis revealed that the mRNAs for all t
227 Southern
hybridization analysis revealed that the Tn551 insert in
228 RT - PCR and in situ
hybridization analysis revealed that these isoforms were
229 DNA
hybridization analysis revealed that, among the salmonel
230 In situ
hybridization analysis revealed that, while ET(A) is exp
231 In situ
hybridization analysis revealed the onset of expression
232 Northern
hybridization analysis reveals a peak of TIP60 expressio
233 In situ
hybridization analysis reveals that srcasm mRNA is expre
234 In situ
hybridization analysis showed expression in most but not
235 In situ
hybridization analysis showed high expression levels of
236 Northern
hybridization analysis showed high level arfophilin mRNA
237 Western
hybridization analysis showed increased PA, LF, and EF s
238 Fluorescent in situ
hybridization analysis showed integrated HHV-6 on chromo
239 n is restricted to embryogenesis, a Northern
hybridization analysis showed low-level expression of Hm
240 Northern
hybridization analysis showed strong expression of CYP1B
241 Fluorescence in situ
hybridization analysis showed that all four B-LBLs had a
242 In situ
hybridization analysis showed that BDNF mRNA was increas
243 In situ
hybridization analysis showed that both genes have essen
244 Array-based comparative genomic
hybridization analysis showed that both siblings are hom
245 In situ
hybridization analysis showed that Cdh23 is expressed in
246 In situ
hybridization analysis showed that ect2 was expressed at
247 In situ
hybridization analysis showed that EndoPDI expression is
248 Northern
hybridization analysis showed that high level expression
249 Fluorescence in situ
hybridization analysis showed that misrejoining of telom
250 Hybridization analysis showed that of 22 members of the
251 In situ
hybridization analysis showed that one positional candid
252 RNA
hybridization analysis showed that the accumulation of L
253 In situ
hybridization analysis showed that the genes encoding th
254 In situ
hybridization analysis showed that the most abundant and
255 DNA
hybridization analysis showed that the oppA-1 oppA-2 opp
256 Southern
hybridization analysis showed that the pilEL locus is pr
257 Northern blot
hybridization analysis showed that the trxB mRNA was cot
258 A detailed in situ
hybridization analysis showed that the undifferentiated
259 In situ
hybridization analysis showed that trp-p8 mRNA expressio
260 In situ
hybridization analysis showed widespread expression of A
261 In situ
hybridization analysis shows discrete regions of express
262 In situ
hybridization analysis shows that CPA5 is localized to t
263 In situ
hybridization analysis shows that maternally deposited m
264 In situ
hybridization analysis shows XBrn3d expression in develo
265 With real-time PCR and in situ
hybridization analysis,
SlPIP2s were considered to be in
266 Northern
hybridization analysis suggested that hisCl1 and hisCl2
267 Additionally, Southern blot
hybridization analysis suggested that R. eutropha harbou
268 rinatal hypoxic-ischemic injury, and in situ
hybridization analysis suggests an up-regulation of PrP
269 We showed by fluorescence in situ
hybridization analysis that both genes are deleted in th
270 By fluorescent in situ
hybridization analysis,
the human corin gene was mapped
271 tested with Y chromosome fluorescent in situ
hybridization analysis to detect donor-derived cells.
272 ged and then examined by fluorescent in situ
hybridization analysis to identify male cells.
273 lymerase chain reaction (RT-PCR) or Northern
hybridization analysis to quantify TTase mRNA.
274 iption polymerase chain reaction and in situ
hybridization analysis to study vWF gene expression in m
275 We performed fluorescence in situ
hybridization analysis to visualize U3 snoRNA localizati
276 or these genes was confirmed by oligo liquid
hybridization analysis using a radiolabeled sequence-spe
277 Hybridization analysis using gene-specific probes showed
278 Hybridization analysis using the beta-satellite repeat a
279 In situ
hybridization analysis,
using locked nucleic acid oligo
280 Solution
hybridization analysis verified the biphasic increase in
281 Fluorescence in situ
hybridization analysis was carried out on seven cell lin
282 In situ
hybridization analysis was conducted with rat liver sect
283 CR amplification protocols in DNA chip-based
hybridization analysis was devised and implemented in pr
284 Array comparative genomic
hybridization analysis was performed on biopsy samples w
285 Comparative genomic
hybridization analysis was performed to identify chromos
286 Fluorescence in situ
hybridization analysis was performed using X and Y chrom
287 aracterize these events, comparative genomic
hybridization analysis was performed, using a single-nuc
288 In situ
hybridization analysis was used to map hypothalamic dist
289 Using in situ
hybridization analysis we show here that two genes ident
290 From the in situ
hybridization analysis,
we found that MMP-9-specific shR
291 Using in situ
hybridization analysis,
we found that the three splice v
292 ons fused to GFP in conjunction with in situ
hybridization analysis,
we have determined that KH domai
293 tic methods combined with comparative genome
hybridization analysis,
we were able to establish that d
294 When a similar array
hybridization analysis with DNA probes from different st
295 Hybridization analysis with genes from the PS C loci of
296 In situ
hybridization analysis with probes that can detect all t
297 Fluorescence in situ
hybridization analysis with the human pan-centromeric pr
298 Comparative genomic
hybridization analysis with two PM1-like MTBE-degrading
299 d to reside at 15q15 by fluorescence in situ
hybridization analysis with yeast artificial chromosome
300 omprehensive array-based comparative genomic
hybridization analysis workflow, integrating computation