1 PS(leu)) were measured with the quantitative
autoradiographic [
1-(14)C]leucine method in a genetic mo
2 CBF was measured with the quantitative
autoradiographic (
14)C-Iodoantipyrine technique, in cons
3 lues were calculated for both tracers by the
autoradiographic 2-(14)C-DG method with modifications fo
4 with values determined simultaneously by the
autoradiographic 2-(14)C-DG method.
5 maging as confirmed by concurrent use of the
autoradiographic 2-(14)C-DG method.
6 these actions in rats using the quantitative
autoradiographic 2-[14C]deoxyglucose (2-DG) method.
7 -administered ethanol using the quantitative
autoradiographic 2-[14C]deoxyglucose (2DG) method for me
8 of the steady-state, 5-minute, and 8-minute
autoradiographic analyses (P = NS by ANOVA).
9 emperature of 5-HT1A receptor binding sites,
autoradiographic analyses of [3H]8-OH-DPAT binding to 5-
10 We conducted
autoradiographic analyses of CRF1 and CRF2 receptor bind
11 Autoradiographic analyses of discrete brain regions indi
12 nucleus (DR) were determined by quantitative
autoradiographic analyses of radioligand binding in tiss
13 Autoradiographic analyses of reduced SDS-PAGE gels from
14 Autoradiographic analyses of this mixture yielded (125)I
15 lculated by use of the 5-minute and 8-minute
autoradiographic analyses were equally well correlated w
16 Autoradiographic analyses were performed with (123)I-PIP
17 5 subunit containing receptors, quantitative
autoradiographic analyses were performed with both [3H]L
18 niques: steady-state, 5-minute, and 8-minute
autoradiographic analyses.
19 mors, as demonstrated in biodistribution and
autoradiographic analyses.
20 Autoradiographic analysis after inhalation of [(35)S]-la
21 Autoradiographic analysis for Ang II receptors of multip
22 Autoradiographic analysis of (125)I-Tpo binding to norma
23 Autoradiographic analysis of 125I-LSD-labeled 5-HT(2a) r
24 tic doses of ketamine, using high resolution
autoradiographic analysis of 14C-2-deoxyglucose (2-DG) u
25 Autoradiographic analysis of 25 regions revealed effects
26 Autoradiographic analysis of [(35)S]GTPgammaS binding wa
27 Brains from both strains were sectioned for
autoradiographic analysis of [3H]-GBR12935 binding to DA
28 astly, we used [(35)S]Sch225336 for detailed
autoradiographic analysis of CB2 in lymphoid tissues.
29 Autoradiographic analysis of DAT sites showed that deple
30 Autoradiographic analysis of lung sections and CD45 immu
31 In this
autoradiographic analysis of R217A mice, we show that th
32 Autoradiographic analysis of the accumulation of chlorof
33 NF axonal transport was monitored by
autoradiographic analysis of the distribution of radiola
34 Histologic and
autoradiographic analysis of tissue sections demonstrate
35 Autoradiographic analysis revealed that isolated dendrit
36 Autoradiographic analysis revealed that renal proximal t
37 Autoradiographic analysis showed that (125)I-alpha-CtxMI
38 Autoradiographic analysis showed that among the 588 gene
39 Autoradiographic analysis showed that following a bolus
40 Autoradiographic analysis showed that intraventricularly
41 In
autoradiographic analysis, BAY 1008472 selectively detec
42 n D(3) and D(2) receptors in rat brain using
autoradiographic analysis.
43 by in situ hybridization histochemistry with
autoradiographic analysis.
44 PET imaging using both the steady-state and
autoradiographic analytical approaches.
45 ipsilateral, as demonstrated by anterograde
autoradiographic and biocytin labeling.
46 Our results indicate that
autoradiographic and cognate approaches for tracking lab
47 Autoradiographic and histopathologic results were correl
48 Quantitative
autoradiographic and in situ hybridization assays were p
49 Both
autoradiographic and in vivo SPECT data showed strong po
50 nd 3 was selected for further examination by
autoradiographic and PET studies in rats.
51 Using immunohistochemical,
autoradiographic,
and molecular analyses, we have studie
52 equilibrium stoichiometry via colorimetric-,
autoradiographic-,
and fluorescence-based assays suggest
53 superior temporal gyrus were studied by the
autoradiographic anterograde tracing technique.
54 riate visual areas were studied by using the
autoradiographic anterograde tracing technique.
55 ioma glucose metabolism is calculated by the
autoradiographic approach with normal brain rate constan
56 These results demonstrate, using an
autoradiographic approach, (i) that dopamine stimulated
57 n defined through synaptosomal transport and
autoradiographic approaches, NET protein expression has
58 h complex I can be examined, we developed an
autoradiographic assay for the rotenone site of this enz
59 or FDG were found to be 0.71 and 0.70 in the
autoradiographic assays and the assays with brain homoge
60 Western immunoblot and
autoradiographic assays showed enhanced D2R and D3R prot
61 The relative intensity of the
autoradiographic bands depended on the route of infectio
62 present experiments, we quantified receptor
autoradiographic binding data for GABAA and GABAB, AMPA,
63 We also examined the 18F-AV-1451
autoradiographic binding in post-mortem tissue from pati
64 We used receptor
autoradiographic binding of 20 nM [3H]glyburide (in the
65 The time course of
autoradiographic binding of major second messengers in t
66 Immunohistochemistry and in vivo
autoradiographic binding of the NMDA receptor-specific a
67 Receptor
autoradiographic binding revealed the presence of both N
68 areas was long lasting in lesioned mice but
autoradiographic binding to high affinity 5-HT transport
69 Autoradiographic birthdating indicates that almost all o
70 lamine (dopamine) synthesis in rat striatum,
autoradiographic brain receptor mapping studies here ind
71 These results, together with previous
autoradiographic brain receptor-mapping studies that ind
72 regions of SHR, a quantitative densitometric
autoradiographic comparison of radioligand binding in SH
73 ake in individual metastatic tumor colonies;
autoradiographic data demonstrated selective targeting w
74 Care should be exercised when analyzing
autoradiographic data on activity distributions to ensur
75 BA(B)R1 correlates well with physiologic and
autoradiographic data on the distribution of GABA(B) rec
76 The post-mortem
autoradiographic data showed that 18F-AV-1451 strongly b
77 The
autoradiographic data suggested that, as in the cellular
78 sson statistics on the interpretation of the
autoradiographic data, the present work reports on a det
79 he dorsal telencephalon represents the first
autoradiographic demonstration of steroid concentration
80 ions of unfixed AD brain cortex (analyzed by
autoradiographic densitometry) allowed definitive morpho
81 PS, in vivo, was below the limit of
autoradiographic detection in brain sections and, in bra
82 t with off-line slab gel electrophoresis and
autoradiographic detection indicated that acceptable fra
83 spinal cord were also prepared and used for
autoradiographic detection of DNA-incorporated 125IUdR.
84 sing two-dimensional gel electrophoresis and
autoradiographic detection of protein metabolite adducts
85 In the present study, we compared the
autoradiographic distribution of (125)I[Tyr(14)]OFQ and
86 The
autoradiographic distribution of total [125I]AB-MECA (40
87 Cu-ATSM as a hypoxia PET marker by comparing
autoradiographic distributions of (64)Cu-ATSM with a wel
88 Quantitative
autoradiographic electron microscopy showed that GDNF an
89 There was little
autoradiographic evidence for secretion of tritiated mac
90 cal, histological, electron microscopic, and
autoradiographic evidence that, in cultured postnatal ra
91 Autoradiographic examination of brainstem sections prein
92 erified at postmortem histopathologic and/or
autoradiographic examination.
93 3H]DSLET (delta 2) were used in quantitative
autoradiographic experiments to ascertain whether separa
94 Quantitative
autoradiographic experiments using [125I]S(-)5-OH-PIPAT
95 In
autoradiographic experiments with mouse brain sections,
96 r combining expression data from a series of
autoradiographic exposures of variable length.
97 ty of luminol-based substrates and either an
autoradiographic film or a charge-coupled device (CCD) i
98 Immunohistochemical and
autoradiographic findings confirmed the in vivo small-an
99 Autoradiographic findings demonstrated accumulation of l
100 Autoradiographic findings showed a spatial correlation b
101 Autoradiographic grain densities were determined by morp
102 From
autoradiographic grain density measurements, it was esti
103 of white matter pathways in the monkey using
autoradiographic histological tract tracing.
104 inguished using texture indices derived from
autoradiographic images despite the difference in voxel
105 Comparison of fluorographic and
autoradiographic images indicated that glutathione had i
106 ence for its physiological actions came from
autoradiographic images obtained following intravenous c
107 stry results were then compared with ex vivo
autoradiographic images obtained from adjacent tissue se
108 Comparative analysis of quantitative
autoradiographic images obtained from the same tumors co
109 reacts with anti-ubiquitin antibodies; (iii)
autoradiographic images of US9 protein immunoprecipitate
110 texture indices derived from the PET images,
autoradiographic images, and histologic images were comp
111 stigated this relationship using PET images,
autoradiographic images, and histologic images.
112 eneity of tracer uptake derived ex vivo from
autoradiographic images.
113 in voxel size and spatial resolution in the
autoradiographic images.
114 ponding coronal (18)F-FDG PET and 2-(14)C-DG
autoradiographic images.
115 ysis of VEGFR-2 and CD31 supported SPECT and
autoradiographic imaging findings, revealing the corresp
116 y ratio, 1.2) were confirmed by microPET and
autoradiographic imaging in a subcutaneous U87MG tumor m
117 microPET and
autoradiographic imaging of (64)Cu-DOTA-[Lys(3)]BBN in a
118 G and was generally consistent with in vitro
autoradiographic imaging of receptor location.
119 ue biodistribution, microPET, and whole-body
autoradiographic imaging of the radiotracer were also in
120 trapping confirmed by 111In-labeled platelet
autoradiographic imaging).
121 The irNPYs were measured using a solid phase
autoradiographic immunoassay.
122 quantification correlated significantly with
autoradiographic in vitro data.
123 t area, with a peak at 1-3 wk after surgery (
autoradiographic infarct-to-remote ratio, 1.07 +/- 0.09,
124 Relative uptakes, defined as
autoradiographic intensity in the graft/native aortas cl
125 cerebral cortical blood flow (CBF) with the
autoradiographic Iodo-14C-antipyrine methodology in four
126 We applied the quantitative
autoradiographic L-[1-14C]leucine method to the in vivo
127 In Nissl-stained sections, the
autoradiographic label corresponded to a distinct nucleu
128 Significant MAO A catalytic activity,
autoradiographic labeling of 5-HT, and immunocytochemist
129 The
autoradiographic labeling of LGN terminals in cortical l
130 We detected strong
autoradiographic labeling over much of the rat telenceph
131 ndingly, partially distinct distributions of
autoradiographic labelling of Alzheimer's disease slices
132 h moderate 11C-PBB3 versus faint 18F-AV-1451
autoradiographic labelling of these tissues.
133 In vitro
autoradiographic localization of [3H]-(+)-7-OH-DPAT bind
134 We used 2-deoxyglucose
autoradiographic mapping of neural activity to identify
135 We report here quantitative
autoradiographic mapping of opioid receptor subtypes in
136 We have carried out quantitative
autoradiographic mapping of these receptors in the brain
137 ls from G1 into the S phase was monitored by
autoradiographic measurement of cumulative labeling indi
138 ipyrine is the most prevalent tracer for the
autoradiographic measurement of local cerebral blood flo
139 Autoradiographic measurement of local cerebral blood flo
140 easures of presynaptic dopaminergic neurons,
autoradiographic measures of DAT and vesicular monoamine
141 The standard quantitative
autoradiographic method was used with 2-deoxy-d-(14)C-gl
142 nan-20-one (3beta-OH-DHP), was studied using
autoradiographic methods in the medulla and cerebellum o
143 For submillimeter dimensions,
autoradiographic methods may be used when tissues are ob
144 both single- and double-label 2-deoxyglucose
autoradiographic methods to image the pattern of activat
145 ed in brain slices of quail and rat based on
autoradiographic methods.
146 as comparable to that for (14)C-deoxyglucose
autoradiographic methods.
147 The
autoradiographic observations concerning FBL binding wer
148 The distinct
autoradiographic patterns of these two ligands are consi
149 The
autoradiographic patterns were compared and 70 recombina
150 g inversion-recovery echo-planar imaging and
autoradiographic phosphor imaging, respectively.
151 ion flux method utilizing readily available
autoradiographic phosphorimaging detection is described.
152 Autoradiographic receptor binding revealed that D2 and D
153 These
autoradiographic results may reflect the importance of t
154 ated by detection of mRNA overexpression via
autoradiographic RNA:RNA in situ hybridization.
155 d cytotoxicity selection, followed by colony
autoradiographic screening of the surviving population,
156 oth p55 and p75 riboprobes produced a strong
autoradiographic signal over many, but not all, trigemin
157 By comparing
autoradiographic signals on matching filter sets, clones
158 tu hybridization experiments detected strong
autoradiographic signals over much of the turkey telence
159 rconversion kinetics in the gel are slow, so
autoradiographic spot intensities can be used to measure
160 Gamma scintigraphy and
autoradiographic studies clearly showed the retention of
161 In situ
autoradiographic studies demonstrated that inflating the
162 Earlier
autoradiographic studies from our laboratory detected va
163 consistent with glucose metabolic data from
autoradiographic studies in animals, in which the larges
164 In vitro
autoradiographic studies in rat brain slices with 5-(3'-
165 Autoradiographic studies in rhesus monkey brain showed t
166 of nAChR densities determined in postmortem
autoradiographic studies in rodents.
167 Autoradiographic studies of (18)F-3 showed selective loc
168 In the present study, we have used receptor
autoradiographic studies of [(125)I]RTI-121-labeled DA u
169 In vivo rat brain
autoradiographic studies of the competition of PBID, BIB
170 xhibited excellent specificity for mGluR5 in
autoradiographic studies on horizontal rat brain slices
171 In vitro
autoradiographic studies on porcine brain sections indic
172 rget binding were investigated in vitro, and
autoradiographic studies on rat brain sections were used
173 Receptor
autoradiographic studies on resected hippocampal specime
174 inity, low-nonspecific binding) for receptor
autoradiographic studies on tissue sections.
175 Film
autoradiographic studies showed that nicotine significan
176 Autoradiographic studies showed the liver Kupffer cells
177 Autoradiographic studies suggested that 7E11 (anti-PSMA(
178 We next surveyed by in vitro
autoradiographic studies the distribution of selective (
179 otracer uptake over time; and histologic and
autoradiographic studies to evaluate the intra- and inte
180 with high signal-to-noise ratio, was used in
autoradiographic studies to map the distribution of CRF
181 Autoradiographic studies were done to identify intratumo
182 Biodistribution and
autoradiographic studies were performed 1 h after inject
183 Autoradiographic studies, in Ucn primed and sham-primed
184 n generally consistent with that seen in the
autoradiographic studies.
185 sistent with the results obtained from human
autoradiographic studies.
186 e data, in addition to those from a previous
autoradiographic study on dopamine uptake site density i
187 e antagonist, [3H]MK-801, as a ligand for an
autoradiographic study to determine the effects of lead
188 The present
autoradiographic study was designed to investigate wheth
189 stem in suicide, we conducted a quantitative
autoradiographic survey of dopamine transporter (DAT; [(
190 appropriate conditions of tissue sampling or
autoradiographic technique because EB increased the numb
191 An in vitro
autoradiographic technique has recently been developed t
192 topontine connections were studied using the
autoradiographic technique in rhesus monkey.
193 Using a low-resolution film
autoradiographic technique to localize [3H]flunitrazepam
194 sheep diencephalon, we have used a receptor
autoradiographic technique utilizing an iodinated radiol
195 Using an in vitro
autoradiographic technique, frozen sections of New Zeala
196 Tritiated thymidine and
autoradiographic techniques and 5-bromo-2'-deoxyuridine
197 Tritiated-thymidine
autoradiographic techniques and 5-bromo-2;-deoxyuridine
198 Autoradiographic techniques and light microscopy were us
199 Autoradiographic techniques using [3H]citalopram were em
200 Quantitative
autoradiographic techniques were used to compare the dis
201 transcriptase-polymerase chain reaction and
autoradiographic techniques were used to estimate the re
202 Tritiated thymidine and
autoradiographic techniques were used to identify cells
203 Autoradiographic techniques were used to test if positiv
204 Using quantitative
autoradiographic techniques with PKC isozyme-specific an
205 Using in vitro
autoradiographic techniques, 125I-labeled VIP bound with
206 This study demonstrated that, with standard
autoradiographic techniques, 3H-MISO can label induced h
207 Using standard
autoradiographic techniques, coronal sections obtained f
208 which employed immunohistochemical, receptor
autoradiographic techniques, identified NMDA receptors t
209 investigated in rhesus monkeys by using the
autoradiographic tracing technique.
210 gs using DSI and validated with reference to
autoradiographic tract tracing in the monkey represent a