ライフサイエンスコーパス: two-photon microscopy

1 e in acute myeloid leukemia using intravital two-photon microscopy.

2 e, flow cytometry, fluorescence imaging, and two-photon microscopy.

3 ing whole-cell recordings, optogenetics, and two-photon microscopy.

4 mained after HS treatment, as highlighted by two-photon microscopy.

5 lls were tracked within lymph nodes (LNs) by two-photon microscopy.

6 etwork structure were imaged with the use of two-photon microscopy.

7 e quantification of albumin filtration using two-photon microscopy.

8 ing large-volume, high-resolution dual-color two-photon microscopy.

9 ce expressing human WT alpha-synuclein using two-photon microscopy.

10 itic patch-clamp recording with simultaneous two-photon microscopy.

11 ype (WT) and Clcn5 KO mice was determined by two-photon microscopy.

12 rons in the mouse primary motor cortex using two-photon microscopy.

13 ambiguity inherent to deep-tissue multifocal two-photon microscopy.

14 g are confocal laser scanning microscopy and two-photon microscopy.

15 iently bright, photostable, and suitable for two-photon microscopy.

16 1,3-diazol-4-yl)-aminoglucose (6-NBDG) using two-photon microscopy.

17 d autofluorescence emission with traditional two-photon microscopy.

18 6s-labeled neurons beyond the depth limit of two-photon microscopy.

19 order, employing, for example, confocal and two-photon microscopy.

20 ined viral vector-mediated EGFP transfer and two-photon microscopy.

21 ALS and clustering of Lm-specific T cells by two-photon microscopy.

22 the baboon and human eyes and visualized by two-photon microscopy.

23 ebrafish model of podocyte injury to in vivo two-photon microscopy.

24 dynamics of immune cells in the meninges by two-photon microscopy.

25 The laser lesions were evaluated by two-photon microscopy.

26 somata, dendrites, and spines as measured by two-photon microscopy.

27 lls at near-physiological temperatures using two-photon microscopy.

28 atures of T cell and DC dynamics observed by two-photon microscopy.

29 s from single neurons in vivo, visualized by two-photon microscopy.

30 t high temporal and spatial resolution using two-photon microscopy.

31 not resolved by traditional intensity-based two-photon microscopy.

32 on in adult primary visual cortex by in vivo two-photon microscopy.

33 yte motility and signaling in real time with two-photon microscopy.

34 ampal neurons, using confocal microscopy and two-photon microscopy.

35 from laser scanning confocal microscopy, or two-photon microscopy.

36 of layer 5 neurons was assayed by time-lapse two-photon microscopy.

37 y subjecting intact lymph nodes to real-time two-photon microscopy.

38 h the Ca2+ indicator fluo-3 and confocal and two-photon microscopy.

39 issues precisely as a function of time using two-photon microscopy.

40 using conventional intravital microscopy and two-photon microscopy.

41 se in spine formation as revealed by in vivo two-photon microscopy.

42 es were imaged in intact, live anthers using two-photon microscopy.

43 uring classical conditioning with the use of two-photon microscopy.

44 and imaged their dendritic trees in vivo by two-photon microscopy.

45 mbryos at frequent intervals over 24 h using two-photon microscopy (1,047 nm) while maintaining blast

46 Two-photon microscopy (2PM) has been widely adopted to a

47 The advent of scanning two-photon microscopy (2PM) has created a fertile new av

48 Two-photon microscopy (2PM) imaging in LNs suggests that

49 Two-photon microscopy (2PM) techniques, including two-ph

50 Real-time two-photon microscopy allowed the visualization of three

51 Two-photon microscopy analysis indicates that chronic al

52 at cellular and subcellular levels combining two-photon microscopy and a genetically encoded calcium

53 latively quick and simple approach combining two-photon microscopy and advanced three-dimensional (3-

54 which was verified by imaging lymph nodes by two-photon microscopy and by phenotyping migrating cells

55 es invisible to the fly, and compatible with two-photon microscopy and controlled visual stimuli.

56 adult V1 with chronic in vivo imaging using two-photon microscopy and determined the spine turnover

57 Here, we used the combination of intravital two-photon microscopy and frequency-domain fluorescence

58 We combined optogenetics, two-photon microscopy and glutamate uncaging to examine

59 Using two-photon microscopy and glutamate uncaging to examine

60 To address these issues, we combined two-photon microscopy and laser microsurgery to image th

61 che by various methods, including intravital two-photon microscopy and non-invasive whole-body imagin

62 g modalities, including confocal microscopy, two-photon microscopy and optical coherence tomography,

63 h limit associated with confocal microscopy, two-photon microscopy and optical coherence tomography.

64 r with advanced research techniques, such as two-photon microscopy and optical imaging.

65 Using two-photon microscopy and the intrinsic fluorescence of

66 cence imaging of mouse brains by integrating two-photon microscopy and tissue sectioning.

67 Here, using two-photon microscopy and whole-cell patch-clamp recordi

68 r sex a combination of whole-cell recording, two-photon microscopy, and spine morphometric analysis t

69 Here, we use whole-cell recordings, two-photon microscopy, and two-photon glutamate uncaging

70 elated behaviours by using optogenetics with two-photon microscopy, anxiety assays in freely moving m

71 imetry, circular dichroism spectroscopy, and two-photon microscopy are used to study the interaction

72 to the realization of a combined single- and two-photon microscopy-based, optogenetics- and imaging-a

73 two-step microscopy, similar in principle to two-photon microscopy but with orders-of-magnitude bette

74 To verify the results, two-photon microscopy combined with a microprism was als

75 Intravital confocal/two-photon microscopy continuously imaged the surgically

76 mide adenine dinucleotides, determined using two-photon microscopy, correspond to the levels required

77 Our simulations matched in vivo two-photon microscopy data regarding T cell speed, short

78 Next, the theory is used to model two-photon microscopy data that show, in animals, high r

79 TC penetration from skin surface followed by two-photon microscopy demonstrated a more invasive percu

80 In vivo ER imaging with two-photon microscopy detects similar ER enlargement, an

81 Encoded multisite two-photon microscopy (eMS2PM), a scanless method that a

82 ndogenous CTLs and with intravital live-cell two-photon microscopy evidence for more efficacious CTL-

83 Two-photon microscopy experiments demonstrated that the

84 ently, stable labeling techniques and use of two-photon microscopy for deep tissue imaging have enabl

85 Here we use whole-cell recordings, two-photon microscopy, GABA uncaging and optogenetics to

86 ow these new methods, including confocal and two-photon microscopy, GFP-based markers, and functional

87 Two-photon microscopy has advanced fluorescence imaging

88 ction of green fluorescent protein (GFP) and two-photon microscopy has allowed systematic imaging stu

89 Two-photon microscopy has enabled anatomical and functio

90 Two-photon microscopy has provided the first direct obse

91 Recently, confocal and two-photon microscopy have revealed a proliferation of n

92 ue-green wavelength range are widely used in two-photon microscopy; however, the use of red fluoresce

93 Intravital two-photon microscopy imaging of Cxcr6(+/gfp) and Cxcr6(

94 this study, an in vivo model was adapted to two-photon microscopy imaging, and T cell behavior was a

95 large vesicles (2-7 muM) in astrocytes with two-photon microscopy imaging, we found that the exocyto

96 sing NMR (diffusion tensor MRI) and optical (two-photon microscopy) imaging methods.

97 c vesicles, from EC synaptic terminals using two photon microscopy in slices obtained from forebrain

98 rical minimal stimulation, and random-access two-photon microscopy in acute mouse hippocampal slices.

99 Using two-photon microscopy in adolescent mice, we found that

100 combinant adeno-associated virus and in vivo two-photon microscopy in adult macaques, we showed that

101 We used in vivo two-photon microscopy in adult mice expressing green flu

102 Time-lapse two-photon microscopy in adult slices was used to determ

103 2+) signals within single glomeruli by using two-photon microscopy in anaesthetized mice.

104 Finally, using in vivo two-photon microscopy in anesthetized or awake-behaving

105 avior of T(FH) cells in GCs in mice, we used two-photon microscopy in combination with a photoactivat

106 Two-photon microscopy in combination with fluorescence l

107 ion of Abeta within microglia and time-lapse two-photon microscopy in live mice revealed that these c

108 of Drosophila heat shock (HS) genes both by two-photon microscopy in live polytene nuclei and by FIS

109 alian cells, and it can be used with one- or two-photon microscopy in live samples.

110 Two-photon microscopy in live transfused animals reveale

111 Using in vivo two-photon microscopy in mouse brain, we quantified mito

112 ow from surrounding capillaries with in vivo two-photon microscopy in peri-infarct cortex before and

113 t underlie dendritic release in these cells, two-photon microscopy in rat brain slices was used to im

114 cyamemazine (CYAM) is visualized directly by two-photon microscopy in substantia nigra and striatum b

115 Using intravital two-photon microscopy in the mouse model of multiple scl

116 Using chronic in vivo two-photon microscopy in the mouse neocortex, we show th

117 Using in vivo two-photon microscopy in the mouse somatosensory barrel

118 In vivo two-photon microscopy in the peri-contusional cortex was

119 tracer leakage across the BBB in vivo, using two-photon microscopy in the t-MCAO stroke model.

120 Here, using two-photon microscopy in vivo in mice, we demonstrate th

121 Here we employ two-photon microscopy in vivo to study antigen-presentin

122 Using two-photon microscopy in vivo, we show that status epile

123 g with GFP-based probes in single-photon and two-photon microscopy, including time-lapse imaging in l

124 Two-photon microscopy is currently the method of choice

125 a major challenge, as the recording depth of two-photon microscopy is limited because of the scatteri

126 troduced to the field of immunology in 2002, two-photon microscopy is the method of choice for visual

127 We used a recently developed two-photon microscopy method, based on a novel phosphore

128 Two-photon microscopy now enables us to visualize cell m

129 The advent of two-photon microscopy now reveals unprecedented, detaile

130 mic analysis, immunoelectron microscopy, and two-photon microscopy of astrocytic Ca(2+) signaling in

131 Two-photon microscopy of cultured neurons revealed large

132 In vivo two-photon microscopy of green fluorescent protein-expre

133 was assayed with time-lapse imaging by using two-photon microscopy of green fluorescent protein-label

134 the approach of real-time imaging of GCs by two-photon microscopy of intact lymph nodes has provided

135 We used two-photon microscopy of live, intact, individual islets

136 ology of astrocytes in 3D images obtained by two-photon microscopy of living APP/PS1 mice and WT litt

137 a mouse infection model in conjunction with two-photon microscopy of living brain tissue and confoca

138 Two-photon microscopy of LPL(-/-) lymphocytes revealed r

139 Two-photon microscopy of lymph node explants revealed th

140 Two-photon microscopy of lymph nodes in live mice showed

141 Using two-photon microscopy of lymph nodes we show that tolero

142 Over the past decade, two-photon microscopy of lymphoid tissues has shed impor

143 Using two-photon microscopy of mice in vivo, we showed that th

144 nuclear leukocyte (PMN) migration assay, and two-photon microscopy of mice in vivo.

145 Using two-photon microscopy of mouse lymph nodes, we revealed

146 Here, we used two-photon microscopy of peripheral lymph nodes (PLNs) t

147 Here we used time-lapse two-photon microscopy of pyramidal neurons in layer 2/3

148 Here we used two-photon microscopy of SBFI to spatially resolve [Na](

149 In this study, we use two-photon microscopy of the lung parenchyma and note ac

150 In vivo two-photon microscopy of the somatosensory cortex of Cdk

151 In vivo two-photon microscopy of the somatosensory cortex was pe

152 As compared with laser confocal microscopy, two-photon microscopy offers superior optical sectioning

153 Here we used whole-cell recordings, two-photon microscopy, optogenetics and pharmacogenetics

154 l area in awake and freely moving mice using two-photon microscopy or an nVista miniaturized microsco

155 wt1a:eGFP larvae) was observed by intravital two-photon microscopy over extended periods of time.

156 timulus-evoked GCaMP3 responses as imaged by two-photon microscopy permitted functional cell type ann

157 Here we develop a two-photon microscopy procedure to study marginal zone a

158 In vivo two-photon microscopy provides the foundation for an arr

159 Two-photon microscopy provides unprecedented sensitivity

160 close proximity, which, in combination with two-photon microscopy, provides a very high spatial reso

161 Two-photon microscopy revealed aberrant trafficking of a

162 nce of all-trans-retinyl esters, noninvasive two-photon microscopy revealed previously uncharacterize

163 Intravital two-photon microscopy revealed similar glomerular permea

164 Furthermore, the study of microglia by two-photon microscopy revealed that anti-ICAM-1/catalase

165 Two-photon microscopy revealed that exocytosis of GLP-1

166 Histological analysis and time-lapse in vivo two-photon microscopy revealed that hyperactivity did no

167 l microscopy and time-lapse studies based on two-photon microscopy revealed that morpholino-based kno

168 However, recent studies with two-photon microscopy revealed that most cognate interac

169 Two-photon microscopy revealed that recipient T cells cl

170 Two-photon microscopy revealed that the eyes of the zebr

171 Two-photon microscopy revealed that, at the axon, somati

172 Intravital two-photon microscopy reveals direct interactions betwee

173 avelength; thus, when imaged by conventional two-photon microscopy, SHG nanoprobes appear to generate

174 acute tubular necrosis (ATN), and intravital two-photon microscopy showed flow abnormalities in the m

175 of alpha-synuclein-GFP transgenic mice using two-photon microscopy showed that NPT100-18A reduced the

176 This addresses the applicability of two photon microscopy studies to understanding actual in

177 Laser scanning confocal and two-photon microscopy studies reveal that QZ2 is cell-pe

178 Recent experiments using two-photon microscopy suggest that the concentration of

179 However, we observed by two-photon microscopy that mouse retinas incapable of ph

180 In summary, we show by extended intravital two-photon microscopy that podocytes are stationary cell

181 By use of three-dimensional visualization by two-photon microscopy, this study provides the first com

182 We used in vivo time-lapse imaging with two-photon microscopy through cranial windows in male an

183 Using in vivo two-photon microscopy, time-lapse analysis of identified

184 lls to migrate within lymph nodes (LN) using two-photon microscopy to characterize cell velocities an

185 We used in vivo two-photon microscopy to characterize layer 5 pyramidal

186 ultiple patch-clamp recordings targeted with two-photon microscopy to characterize monosynaptic conne

187 Here, we used in vivo two-photon microscopy to characterize the dynamics of ax

188 We developed an automated system that uses two-photon microscopy to detect rhythmic neurons from ca

189 We have used two-photon microscopy to determine, in a dynamic manner,

190 We applied in vitro confocal and in vivo two-photon microscopy to examine basal calcium levels an

191 ericyte-labeled transgenic mice with in vivo two-photon microscopy to examine the relationship betwee

192 of adult dendrites in this context, we used two-photon microscopy to image dendrites of mitral and t

193 Through these windows we used two-photon microscopy to image odor-evoked Ca(2+) signal

194 microendoscope combined with high-resolution two-photon microscopy to image taste responses from gang

195 To address these questions, we used two-photon microscopy to image the addition of genetical

196 We used two-photon microscopy to image the single-cell dynamics

197 Here we describe the use of two-photon microscopy to image transient increases in Ca

198 We used two-photon microscopy to image vascular architecture, to

199 -responsive fluorescent probes together with two-photon microscopy to image Zn(2+) dynamics mediated

200 nces in axon labeling by viruses and in vivo two-photon microscopy to investigate axon branching and

201 Here, we used longitudinal in vivo two-photon microscopy to investigate dendritic spine dyn

202 Here, we used acute and longitudinal in vivo two-photon microscopy to investigate developmental and e

203 Here, we use patch-clamp recording and two-photon microscopy to investigate morphological and p

204 Using two-photon microscopy to measure Ca(2+) excursions, we f

205 esthetized FHM1 mouse model in vivo, we used two-photon microscopy to measure calcium changes in neur

206 We used two-photon microscopy to measure dendritic spines in rat

207 orescence correlation spectroscopy (FCS) and two-photon microscopy to measure flow speeds and to quan

208 Here we used two-photon microscopy to measure sensory-evoked response

209 Here, we use oxygen-sensitive two-photon microscopy to measure the BOLD-relevant micro

210 We used two-photon microscopy to measure the diameters of single

211 We used two-photon microscopy to monitor ensemble activity durin

212 e sought to address these questions by using two-photon microscopy to monitor interneuron dendritic a

213 is hypothesis, we used dual-color time-lapse two-photon microscopy to monitor rat hippocampal pyramid

214 uilibrium in living cells through the use of two-photon microscopy to observe fluorescence resonance

215 Using two-photon microscopy to observe hippocampal neurons lab

216 lidated these reagents by flow cytometry and two-photon microscopy to obtain images at cellular resol

217 We have employed in vivo two-photon microscopy to produce time-lapse images of se

218 st this possibility physiologically, we used two-photon microscopy to record light stimulus-evoked Ca

219 We first use two-photon microscopy to show that GABA(B)Rs inhibit AP

220 We, therefore, used two-photon microscopy to simultaneously reconstruct the

221 We used two-photon microscopy to simultaneously track antigen-sp

222 Here, we used two-photon microscopy to study changes in FUS-mediated B

223 deep-tissue time-lapse imaging based on fast two-photon microscopy to study Drosophila ventral furrow

224 One solution to this problem is to use two-photon microscopy to target fluorescently labeled ne

225 The recent application of two-photon microscopy to the visualization of T cell mov

226 Here we show, using two-photon microscopy to track neural activity over mult

227 lopment and plasticity, we used transcranial two-photon microscopy to track the formation and elimina

228 By using two-photon microscopy to visualize bacterium-T-cell cros

229 a chronic hippocampal window approach using two-photon microscopy to visualize dendritic spines thro

230 nd lymphocyte behavior in the brain, we used two-photon microscopy to visualize effector CD8(+) T cel

231 al-time intravital epifluorescence video and two-photon microscopy to visualize malignant T cells fro

232 chanisms governing this segregation, we used two-photon microscopy to visualize migration of purified

233 Here we used transcranial two-photon microscopy to visualize postsynaptic dendriti

234 Here, we use two-photon microscopy to visualize release of the synapt

235 of a novel in vivo method we developed using two-photon microscopy to visualize the paravascular spac

236 keletal components and performing intravital two-photon microscopy to visualize TRM cell behavior.

237 site, Toxoplasma gondii, in conjunction with two-photon microscopy, to address this question.

238 ch as wide-field and confocal one-photon and two-photon microscopy, to compare photochemical and biop

239 ) and CD4(+) T cells in the living spleen by two-photon microscopy (TPM) during the establishment of

240 Two-photon microscopy (TPM) has come to occupy a promine

241 ent hydrophobic permeant, using dual-channel two-photon microscopy (TPM) to better understand the tra

242 Two-photon microscopy (TPM) was used to observe retinoid

243 Two-photon microscopy (TPM), using longer wavelengths th

244 l populations at single-cell resolution with two-photon microscopy up to a depth of 400 microm.

245 (fluorescence spectroscopy and electron and two-photon microscopy using the membrane probes bis-pyre

246 Two-photon microscopy was used for imaging of axonal die

247 Two-photon microscopy was used to locate DCs in gastric

248 A novel application of high-speed two-photon microscopy was utilized to determine the opti

249 Using 3D reconstruction and intravital two-photon microscopy we describe the branched organizat

250 Using two-photon microscopy we found that Bergmann glia exhibi

251 With two-photon microscopy we investigate action potential-in

252 Here, using real-time two-photon microscopy we noted rapid delivery of immune

253 Thus with two-photon microscopy we probe the bulk minority carrier

254 Using live cell imaging and two photon microscopy, we report that overexpression of

255 Using two-photon microscopy, we analyzed their effects on 'rec

256 Applying our method to two-photon microscopy, we could recover near-diffraction

257 In combination with two-photon microscopy, we demonstrate that Camuialpha ca

258 Using in vivo two-photon microscopy, we demonstrate that microglia for

259 Using two-photon microscopy, we demonstrate that, in the absen

260 Applying intravital two-photon microscopy, we demonstrate the gatekeeper fun

261 Using in vivo two-photon microscopy, we detected improved blood flow a

262 Using transcranial two-photon microscopy, we examined the effect of visual

263 scent proteins, analysis of mutant mice, and two-photon microscopy, we follow long-range horizontally

264 Using transcranial two-photon microscopy, we followed apical dendrites of l

265 Using two-photon microscopy, we found immature B cells enterin

266 Using two-photon microscopy, we found that effector CTL divide

267 Using in vivo two-photon microscopy, we found that the elimination and

268 Using two-photon microscopy, we imaged autonomic ganglia in li

269 Using two-photon microscopy, we imaged hippocampal mossy fiber

270 Using two-photon microscopy, we imaged odor-evoked G-CaMP fluo

271 Using two-photon microscopy, we imaged the real-time behavior

272 Using transcranial two-photon microscopy, we investigated how neural circui

273 three-color labeling and spectrally resolved two-photon microscopy, we monitor in parallel the daily

274 Using intravital two-photon microscopy, we observe that sympathetic nerve

275 Using two-photon microscopy, we observed stable antigen-specif

276 Using intravital two-photon microscopy, we observed that local administra

277 Using two-photon microscopy, we observed that medullary thymoc

278 Using two-photon microscopy, we performed real-time analysis o

279 Using in vivo two-photon microscopy, we performed time-lapse imaging o

280 Using real-time in vivo two-photon microscopy, we quantified mitochondrial fragm

281 yellow fluorescent protein and transcranial two-photon microscopy, we repeatedly imaged dendritic sp

282 By means of intravital two-photon microscopy, we report that dermal dendritic c

283 Using whole-cell recordings and two-photon microscopy, we show that neurons expressing D

284 Using a combination of optogenetics and two-photon microscopy, we then determine the subcellular

285 Using two-photon microscopy, we visualized B cell capture of c

286 Using two-photon microscopy, we visualized Ca(2+) signaling an

287 In this study, using two-photon microscopy, we visualized host NK cell intera

288 Due to the high spatial resolution of two-photon microscopy, we were able to measure a marked

289 an attempt to decrease this number, we used two-photon microscopy which permitted observation of app

290 Finally, two-photon microscopy will allow for four-dimensional ce

291 Using two-photon microscopy with 3D reconstruction methodology

292 We expect this integration of two-photon microscopy with advanced 3-D image analysis w

293 h steady-state fluorescence spectroscopy and two-photon microscopy with an environment-sensitive prob

294 ating feasibility of in vivo high-resolution two-photon microscopy with continuous wave (CW) excitati

295 culture cells and Xenopus egg extracts using two-photon microscopy with FLIM measurements of FRET.

296 e-organ fluorescence imaging that integrates two-photon microscopy with serial microtome sectioning.

297 se primary visual cortex by using functional two-photon microscopy with single-cell resolution and ge

298 system in the Drosophila brain that couples two-photon microscopy with the specific expression of th

299 cell-mediated model of EAE combining in vivo two-photon microscopy with two different activation repo

300 ent graphene electrodes by both confocal and two-photon microscopy without causing any light-induced