1 Histological and
immunocytochemical analyses and expression analyses of t
2 Biochemical and
immunocytochemical analyses demonstrated that decreasing
3 tissue and transfected cell extracts and by
immunocytochemical analyses of cells transfected with ei
4 Results from genetic and
immunocytochemical analyses provide strong evidence that
5 Our electron microscopic
immunocytochemical analyses reveal that, by 6 months, th
6 Bioinformatic and
immunocytochemical analyses suggest that CREB family tra
7 esent study we used electrophysiological and
immunocytochemical analyses to examine the distribution
8 channel, both reverse transcription-PCR and
immunocytochemical analyses were conducted in LLC-PK1 ce
9 etermined by BrdU labeling, Western blot and
immunocytochemical analyses, and real-time RT-PCR, respe
10 By western-blot and
immunocytochemical analyses, GmN70 was localized to the
11 lovesicle membranes, based on immunoblot and
immunocytochemical analyses.
12 tein, as demonstrated both by immunoblot and
immunocytochemical analyses.
13 Immunocytochemical analysis also indicated an increase i
14 ssion was determined by Western blotting and
immunocytochemical analysis and confocal imaging.
15 Immunocytochemical analysis and experiments with calcium
16 Immunocytochemical analysis confirmed the presence of al
17 Immunocytochemical analysis demonstrated colocalization
18 Immunocytochemical analysis demonstrated robust axonal g
19 of MUPP1 protein expression was confirmed by
immunocytochemical analysis demonstrating only minor sta
20 crimination can potentially be achieved with
immunocytochemical analysis for candidate protein marker
21 Immunocytochemical analysis for different interneuronal
22 Immunocytochemical analysis indicated that 46.6 +/- 2.1%
23 Immunocytochemical analysis indicated that retinal gangl
24 Immunocytochemical analysis of chick ocular tissues reve
25 Immunocytochemical analysis of colocalization further sh
26 analysis of LdMNPV enhancin genes through an
immunocytochemical analysis of E1 and E2 expression and
27 By double
immunocytochemical analysis of hippocampal neurons, we d
28 Immunocytochemical analysis of identified afferents reve
29 Immunocytochemical analysis of infected livers revealed
30 ng blood, reproductive organs and brains for
immunocytochemical analysis of LHRH and c-fos.
31 is of cytoplasmic levels of IkappaBalpha and
immunocytochemical analysis of nuclear NF-kappaB/RelA.
32 Immunocytochemical analysis of PER shows that these dyna
33 We use
immunocytochemical analysis of rat hippocampal neurons t
34 in-specific surface biotinylation as well as
immunocytochemical analysis of the time course of surfac
35 Immunocytochemical analysis of tissue sections from MS a
36 Immunocytochemical analysis provided no evidence that MS
37 Immunocytochemical analysis revealed predominant colocal
38 Immunocytochemical analysis revealed that both DLX3(WT)
39 Immunocytochemical analysis revealed that cell-specific
40 Immunocytochemical analysis revealed that intracellular
41 Immunocytochemical analysis revealed that overall T-tubu
42 Western blot and
immunocytochemical analysis revealed that PAI-1-deficien
43 Immunocytochemical analysis showed induction of amyloid-
44 n differentiated NG108-15 cells grown alone,
immunocytochemical analysis showed that GDNF was localiz
45 e anterior pituitary cell RNA sequencing and
immunocytochemical analysis showed that nonexcitable fol
46 Immunocytochemical analysis showed that R1 was expressed
47 Immunocytochemical analysis showed that SCI caused a coo
48 afferents, we used electron microscopic dual
immunocytochemical analysis to examine the ultrastructur
49 Immunocytochemical analysis with subclass-specific monoc
50 a-crystallin, and ICAM-1 by Western blot and
immunocytochemical analysis, protein kinases by Western
51 by quantitative real time PCR (qRT-PCR) and
immunocytochemical analysis, respectively.
52 ma-MNs and demonstrated by morphological and
immunocytochemical analysis, then validated by functiona
53 lfate proteoglycans (KSPGs) was evaluated by
immunocytochemical analysis, Western blot analysis, or b
54 kg), all negative for tumor contamination by
immunocytochemical analysis.
55 re perfusion-fixed for histopathological and
immunocytochemical analysis.
56 protein expression was further confirmed by
immunocytochemical analysis.
57 using microarray PCR, Western blotting, and
immunocytochemical analysis.
58 educed acetylcholine receptor expression per
immunocytochemical analysis.
59 choline acetyltransferase were localized by
immunocytochemical analysis.
60 Combined
immunocytochemical,
anatomical and electrophysiological
61 The
immunocytochemical and anatomical differences between th
62 In this
immunocytochemical and behavioral study, we induced a ne
63 Immunocytochemical and biochemical analyses revealed tha
64 rovide electrophysiological, Ca(2+) imaging,
immunocytochemical and biochemical evidence that Stac3 p
65 Finally,
immunocytochemical and biochemical studies showed prefer
66 Combining
immunocytochemical and biochemical studies utilizing new
67 Immunocytochemical and cell fractionation studies reveal
68 Immunocytochemical and co-immunoprecipitation analyses w
69 display, calreticulin-transfected cells, and
immunocytochemical and confocal techniques were used in
70 inhibitory interneurons [GINs]) by means of
immunocytochemical and design-based stereologic techniqu
71 These results are corroborated by
immunocytochemical and electrophysiological analyses in
72 reduced cell-surface expression as shown by
immunocytochemical and electrophysiological approaches i
73 Immunocytochemical and electrophysiological data demonst
74 ong been supported by tantalizing molecular,
immunocytochemical and electrophysiological evidence it
75 nctional properties of ChR2 were examined by
immunocytochemical and electrophysiological methods 3 mo
76 ficking and functional expression, combining
immunocytochemical and electrophysiological methods, and
77 ged hPSCs to guide in vitro differentiation,
immunocytochemical and electrophysiological profiling an
78 We have characterized the
immunocytochemical and electrophysiological properties o
79 Immunocytochemical and enzyme histochemical staining ver
80 NMO patient spinal cord lesions supports our
immunocytochemical and immunoprecipitation data.
81 Immunocytochemical and immunoprecipitation studies demon
82 ole of these chemosensory cells, we examined
immunocytochemical and innervation characteristics, as w
83 s were studied in hippocampal cultures using
immunocytochemical and live-imaging techniques.
84 into glial and neuronal cells as assessed by
immunocytochemical and mRNA analysis.
85 110 days was estimated with semiquanitative
immunocytochemical and PCR techniques.
86 First, we reveal by
immunocytochemical and tract-tracing methods that alphaC
87 3) of alpha-syn (CT alpha-syn) and performed
immunocytochemical and ultrastructural analyses in mThy1
88 es NFATc1 nuclear translocation, as shown by
immunocytochemical and Western blot analyses.
89 lial and smooth muscle cells, as assessed by
immunocytochemical and Western blot analyses.
90 hPDLSCs were also processed for
immunocytochemical and Western blot analysis using phosp
91 ouse VEGFR2 in culture cells was tested with
immunocytochemical and Western blot analysis.
92 nd CNS tissue was collected and subjected to
immunocytochemical and Western blot assays for leukocyte
93 Immunocytochemical and Western blot assessments demonstr
94 Experiments with pharmacological,
immunocytochemical,
and biochemical approaches further s
95 Combined electrophysiological,
immunocytochemical,
and biochemical evidence indicated t
96 dal domains, as assessed by ultrastructural,
immunocytochemical,
and electrophysiological analyses.
97 Pairs shared morphological,
immunocytochemical,
and functional properties.
98 Immunohistochemical,
immunocytochemical,
and immunoblot analyses and transfec
99 It is usually diagnosed by cytologic,
immunocytochemical,
and molecular examination of vitreou
100 Biochemical,
immunocytochemical,
and pharmacological analysis demonst
101 In this work, an ultrastructure and
immunocytochemical approach was taken to identify change
102 ological, electrochemical, fluorescence, and
immunocytochemical approaches to quantify transmitter re
103 Using electrophysiological and
immunocytochemical approaches, we found that Cx47/Cx43 a
104 In an
immunocytochemical assay, GFP fusion SUV39H1 or G9a did
105 in vitro assays of antioxidant enzymes, and
immunocytochemical assays of cell death, we demonstrate
106 We used
immunocytochemical assays that involved a total of 16 di
107 Here, we provide a comprehensive
immunocytochemical "
atlas" of G1/S control molecules in
108 ning a new mAb (GD1a-E6) with a chemical and
immunocytochemical binding pattern similar to that of GD
109 Immunocytochemical,
biochemical, and biophysical analyse
110 platform for these assays would combine the
immunocytochemical capabilities of flow cytometry with l
111 logical implications are reviewed in view of
immunocytochemical,
cell-culture and genetic findings.
112 The biochemical identification and
immunocytochemical characterization of a cell surface an
113 Immunocytochemical characterization of freshly isolated,
114 Electrophysiological and
immunocytochemical characterizations have shown that thi
115 High-content quantification of
immunocytochemical colocalization studies identified tha
116 ults using architectonic, histochemical, and
immunocytochemical criteria.
117 Disseminated tumor cells were detected by an
immunocytochemical cytokeratin assay in preoperatively t
118 stent with the immunoelectron microscopy and
immunocytochemical data demonstrating presynaptic expres
119 However,
immunocytochemical data on channel distribution may not
120 RT-PCR, in situ hybridizations, and
immunocytochemical data revealed expression of DISC1 tra
121 Immunocytochemical data showed a strong reduction of F-a
122 Our
immunocytochemical data showed that native and transfect
123 Immunocytochemical data showed that the newly grown long
124 To identify sites of cellular activation,
immunocytochemical detection of c-Fos was combined with
125 We conclude that
immunocytochemical detection of pYGIV and tGIV can serve
126 orepinephrine release in the frontal cortex,
immunocytochemical detection of the CB1 receptor and the
127 These data were confirmed using
immunocytochemical detection of the proteins.
128 3-5 d later, and tissues were processed for
immunocytochemical detection of transported virus.
129 ion through the NTS region was processed for
immunocytochemical detection of tyrosine hydroxylase (TH
130 hyde and permeabilized with 1% Triton before
immunocytochemical detection of ZO-1 and nuclear protein
131 ropic glutamate receptor expression prior to
immunocytochemical detection.
132 ibody specific to Lrrk2, the biochemical and
immunocytochemical distribution of Lrrk2 was assessed.
133 Immunocytochemical electron microscopy can reveal locati
134 lysis by conventional and postembedding GABA
immunocytochemical electron microscopy confirmed that ab
135 Molecular and
immunocytochemical evidence obtained in this study also
136 ed HR, 0.88; 95% CI, 0.45-1.71; P = .70) nor
immunocytochemical evidence of tumor in bone marrow (adj
137 Histological and
immunocytochemical examination of the colon revealed bac
138 Subsequent
immunocytochemical experiments examined neuronal activat
139 Biochemical and
immunocytochemical experiments in cultured cortical neur
140 her biochemical or immunohistochemical (IHC)/
immunocytochemical (
ICC) methods were used to determine
141 Suckling reduced GFAP in
immunocytochemical images and in Western blots, reductio
142 Immunocytochemical imaging using ectopic expression of F
143 Immunocytochemical,
immunoelectron microscopic, and bioc
144 We integrated mouse behavioral,
immunocytochemical,
in vivo electrophysiological, geneti
145 Using
immunocytochemical labeling and preembedding immunoperox
146 ATF-3 expression was quantified by using
immunocytochemical labeling and real-time PCR.
147 Dual
immunocytochemical labeling for kappaOR and tyrosine hyd
148 Double
immunocytochemical labeling for pERK1/2 and pAkt demonst
149 e presynaptic protein synaptophysin by using
immunocytochemical labeling in both postnatal and adult
150 Immunocytochemical labeling showed that Panx1 was primar
151 d, which was confirmed by immunoblotting and
immunocytochemical labelling.
152 Immunocytochemical light and electron microscopy and tra
153 Here, we compare the
immunocytochemical localization of a major postsynaptic
154 Immunocytochemical localization of AGB and macromolecula
155 uestion we examined the electron microscopic
immunocytochemical localization of antipeptide antisera
156 Immunocytochemical localization of BRAG1 in dissociated
157 Immunocytochemical localization of EphA4 protein reveale
158 ceral sensory region of the NST, and also by
immunocytochemical localization of glucagon-like peptide
159 tional data from young rat brain slices with
immunocytochemical localization of group I mGluRs.
160 mes after transfection, cells were fixed for
immunocytochemical localization of p27kip1 or extracted
161 SCC4) examined as indicated by DNA binding,
immunocytochemical localization of p65, by NF-kappaB-dep
162 udal extent of brain were processed for dual
immunocytochemical localization of Phox2a and catecholam
163 We describe the detailed
immunocytochemical localization of the crustacean type 1
164 ch had been partially purified, were used in
immunocytochemical localization of the NaV1.2 channel in
165 g primary afferents, we completed a detailed
immunocytochemical map of VRL-1 in rat spinal cord, incl
166 lysis of 5-HT1crust in combination with this
immunocytochemical map will aid further understanding of
167 th normal hotspots of meiotic recombination,
immunocytochemical mapping of MLH1, a protein involved i
168 Tract tracing and
immunocytochemical markers [parvalbumin and vesicular gl
169 molecular layer interneurons that expressed
immunocytochemical markers present in members of the neu
170 Additional
immunocytochemical markers were used to assess the funct
171 Specific
immunocytochemical markers were used to identify AC and
172 stereological quantification with a panel of
immunocytochemical markers, including glutamic acid deca
173 Using
immunocytochemical methodology, cell proliferation was i
174 Immunocytochemical methods and antibodies directed again
175 corticolimbic system using single and double
immunocytochemical methods at the electron microscopic (
176 The aim of this study was to use
immunocytochemical methods to determine the distribution
177 Therefore, we used
immunocytochemical methods to determine the pathological
178 We used histologic and
immunocytochemical methods to determine the pathological
179 le cell voltage clamp, Western blotting, and
immunocytochemical methods to investigate the effects of
180 In our study, we used
immunocytochemical methods to study the effects of NO, c
181 ted cell monolayers, immunohistochemical and
immunocytochemical methods were used.
182 We used
immunocytochemical methods with specific antibodies to s
183 Using
immunocytochemical methods, we determined that proteins
184 ing Western blotting, mass spectrometry, and
immunocytochemical methods, we have demonstrated that (a
185 n the retinas of goldfish and mouse by using
immunocytochemical methods.
186 after antibody incubation was performed with
immunocytochemical methods.
187 he TNFR1 receptor (p55) in the medulla using
immunocytochemical methods.
188 s and assessed by standard morphological and
immunocytochemical methods.
189 Our
immunocytochemical,
morphological and electrophysiologic
190 Immunocytochemical observations, of TAI reflected in int
191 rties, crystal structure at 2.3 A, and brain
immunocytochemical pattern.
192 these displayed a "mixed" morphological and
immunocytochemical phenotype between protoplasmic and fi
193 ures and rodent brain sections were used for
immunocytochemical,
physiological, and molecular studies
194 In addition, the
immunocytochemical profile of taste cells and gustatory
195 cells can be defined by differences in their
immunocytochemical profiles.
196 entwines the wealth of knowledge obtained by
immunocytochemical profiling with mass spectral informat
197 ytes (tCardiomyocytes) display morphologies,
immunocytochemical properties, and expression profiles o
198 To improve
immunocytochemical resolution, we also performed preincu
199 Consistently, biochemical and
immunocytochemical results demonstrated that mGluR7 acti
200 Immunocytochemical results showed that cholesterol accum
201 Immunoblot analysis confirmed the
immunocytochemical results: Little ZO-1 was detected in
202 Using
immunocytochemical screening in mouse striatal Hdh(7/7)
203 rains using qPCR, in situ hybridization, and
immunocytochemical single and double staining.
204 slides with Triton processing, and an ESAT-6
immunocytochemical stain.
205 Immunocytochemical staining also was used to examine the
206 duced injury as demonstrated by cytochrome c
immunocytochemical staining and caspase-3 activity.
207 our studies of other nonfunctional mutants,
immunocytochemical staining and cell-surface biotinylati
208 l to glial cell ratios as analyzed both from
immunocytochemical staining and from RT-PCR.
209 ucleus and (4) UCN1 axons, was obtained with
immunocytochemical staining and image analysis.
210 enase (LDH) activity assay, beta-tubulin III
immunocytochemical staining and terminal deoxynucleotidy
211 Immunocytochemical staining and TUNEL assay confirmed th
212 Immunocytochemical staining and Western blot quantitatio
213 Finally, using an
immunocytochemical staining approach, we observed that E
214 Western blot analysis and alphaSMA
immunocytochemical staining demonstrated reduced transit
215 Immunocytochemical staining density of dorsal root axons
216 cer injections in GAD67-GFP mice, as well as
immunocytochemical staining for gamma amino butyric acid
217 By using postembedding
immunocytochemical staining for gamma-aminobutyric acid
218 Immunocytochemical staining for HSP70 demonstrates a cyt
219 of myelination in the axon, as assessed with
immunocytochemical staining for myelin basic protein in
220 fluorescent styryl pyridinium dye AM1-43 and
immunocytochemical staining for neurofilament 200 and su
221 over, there was a significant association of
immunocytochemical staining for OPN and one of beta-cate
222 and labeled them with biocytin, followed by
immunocytochemical staining for parvalbumin and calretin
223 Immunocytochemical staining identified the injured proxi
224 In the current study we have employed
immunocytochemical staining in kidney slices and functio
225 otoxin (alpha-Ctx) MII labeling coupled with
immunocytochemical staining localizes putative alpha6*-n
226 Immunocytochemical staining of CC cultures revealed that
227 icant association between the class level of
immunocytochemical staining of the carcinoma cells and d
228 Immunocytochemical staining of the valve ICs showed a co
229 pon immunoblotting, immunoprecipitation, and
immunocytochemical staining of tissue sections from brai
230 Immunocytochemical staining revealed that TNFalpha was e
231 Immunocytochemical staining revealed that, at resting st
232 Immunocytochemical staining showed Cx43 and Cx50 were ab
233 Immunocytochemical staining showed that these cells cont
234 Immunocytochemical staining shows that CD63 and receptor
235 By combining
immunocytochemical staining with anterograde tracing fro
236 nied by activation of caspase-3, as shown by
immunocytochemical staining with antibodies to active ca
237 BrdU incorporation was visualized by
immunocytochemical staining, and the mitotic index (MI)
238 By
immunocytochemical staining, the rabbit polyclonal antib
239 By performing APP
immunocytochemical staining, we found that, unexpectedly
240 stress-fiber-associated, were visualized by
immunocytochemical staining.
241 tified by vimentin, recoverin, and rhodopsin
immunocytochemical staining.
242 PDGF-BB by leukemic LGLs was demonstrated by
immunocytochemical staining.
243 ding electroretinograms (ERG) and performing
immunocytochemical staining.
244 all major neuropils on brain sections, using
immunocytochemical stainings against synapsin, serotonin
245 Co-
immunocytochemical stainings using a specific OR51E2 ant
246 C57BL/6J and CBA/CaJ mice, histochemical and
immunocytochemical stains were performed for acetylcholi
247 lectrophysiological recordings combined with
immunocytochemical studies and/or single-cell mass spect
248 ooth muscle, and expression was confirmed by
immunocytochemical studies at the protein level.
249 Dual
immunocytochemical studies combined CTb with either calc
250 Immunocytochemical studies combined with confocal micros
251 Double labeling
immunocytochemical studies confirmed that the cell bodie
252 Immunocytochemical studies demonstrated preferential TRP
253 Immunocytochemical studies demonstrated selective loss o
254 Biochemical and
immunocytochemical studies demonstrated that in cortical
255 Immunocytochemical studies demonstrated that NF-DP accum
256 Immunocytochemical studies demonstrated that renal colle
257 Immunoprecipitation and
immunocytochemical studies demonstrated that the stabili
258 Immunocytochemical studies determined alterations in the
259 f various mammalian species, but no previous
immunocytochemical studies have been conducted in human
260 s a marker for microglial cells and previous
immunocytochemical studies have utilized this and other
261 Immunocytochemical studies identifying CD68 immunoreacti
262 Immunocytochemical studies indicate that Ca(v)1.2 channe
263 Immunocytochemical studies indicate that Slick and Slack
264 Immunocytochemical studies indicate that these cells hav
265 Immunocytochemical studies indicated that Hsc70 and TH c
266 Immunocytochemical studies of spinal cord neurons and ca
267 Moreover,
immunocytochemical studies of the hippocampus/neocortex
268 Immunocytochemical studies reveal NPY-immunoreactive (IR
269 Immunocytochemical studies reveal that >80% of BrdU-posi
270 Immunocytochemical studies reveal that Mind bomb-2 is lo
271 Immunocytochemical studies revealed that activated Fyn p
272 ility, but in situ protein cross-linking and
immunocytochemical studies revealed that it binds CaV2.1
273 Third,
immunocytochemical studies revealed that the CPT-induced
274 Immunocytochemical studies revealed that the majority of
275 e cells were localized to the epidermis, and
immunocytochemical studies revealed the presence of GPR1
276 Moreover,
immunocytochemical studies show that 5-HT(1A) activation
277 Moreover,
immunocytochemical studies show that microtubule depolym
278 Immunocytochemical studies show that the principal cardi
279 Immunocytochemical studies showed that 5-HT(2A/C) treatm
280 Immunocytochemical studies showed the expression of ERal
281 Immunocytochemical studies showed TRPC6 and TRPC1 expres
282 rons of the nodose ganglia from rats through
immunocytochemical studies.
283 for electrophysiological, histological, and
immunocytochemical studies.
284 Finally, an
immunocytochemical study showed colocalization of TWIK-1
285 An
immunocytochemical survey also showed a specific upregul
286 An
immunocytochemical survey of voltage-gated K(+) channel
287 The present study utilized dual-labeling
immunocytochemical techniques at the light and electron
288 Using in situ hybridization and
immunocytochemical techniques in hamsters, we investigat
289 We have used molecular, genetic and
immunocytochemical techniques to demonstrate that in the
290 In addition,
immunocytochemical techniques were used to describe the
291 Immunocytochemical techniques were used to quantify chan
292 estigations, notably autoantibody screening,
immunocytochemical techniques, and evolving DNA technolo
293 We used
immunocytochemical techniques, clonal analysis, and phys
294 By using
immunocytochemical techniques, we demonstrate that there
295 Using
immunocytochemical techniques, we show coexpression of S
296 tyric acid (GABA) could be detected by using
immunocytochemical techniques.
297 -time polymerase chain reaction (TaqMan) and
immunocytochemical techniques.
298 nits by using light and electron microscopic
immunocytochemical techniques.
299 rome f) in chromoplasts using immunoblot and
immunocytochemical techniques.
300 We present
immunocytochemical,
ultrastructural, gene expression, an