ライフサイエンスコーパス: real-time imaging

1 l science tools such as chemical biology and real-time imaging.

2 urately quantified by using radial k-t SENSE real-time imaging.

3 rovides high-signal, low-background and near real-time imaging.

4 tumor-specific replication, as visualized by real-time imaging.

5 onveniently quantified by flow cytometry and real-time imaging.

6 g C3C4 droplets or C3 droplets during low MI real-time imaging.

7 l opacification by MCE to be achieved during real-time imaging.

8 colemmal repair in live zebrafish embryos by real-time imaging.

9 l filled with two fluid phases using direct, real-time imaging.

10 ering high resolution currently do not allow real-time imaging.

11 under different stimulant concentrations by real-time imaging.

12 ng laws exhibited by the system and, through real-time imaging, address a long-standing question of w

13 Real time imaging also revealed that a lipid-binding poi

14 e calcium-sensitive dye Fluo-4, we conducted real-time imaging analyses of calcium waves propagated a

15 Real time imaging analysis showed that insulin induced R

16 The label-free real-time imaging and analysis of microscale particles i

17 Using a combination of in vivo real-time imaging and blood/tissue partitioning by intra

18 gocytosis kinetics, which is compatible with real-time imaging and can be used to validate existing r

19 By combining real-time imaging and chemical-sensitive electron tomogr

20 Using real-time imaging and clonal analysis, we demonstrate th

21 Another challenge is to incorporate real-time imaging and develop computational approaches t

22 Real-time imaging and display at video-rate speed are cr

23 f the Alzheimer's disease Abeta peptide with real-time imaging and fluorescence correlation spectrosc

24 We have applied real-time imaging and fluorescence recovery after photob

25 Real-time imaging and functional studies revealed that t

26 They also enable high-resolution, real-time imaging and in vitro analysis of biochemical,

27 DASH offers the advantages of real-time imaging and no ionizing radiation and may obvi

28 GFP technology has also been used for real-time imaging and quantification of angiogenesis.

29 Here we report real-time imaging and quantification of droplet motion i

30 Here we show, with the use of real-time imaging and quantitative image analysis of Dro

31 biomarker diagnostics as well as multiplexed real-time imaging and spectroscopy.

32 Both real-time imaging and surface biotinylation have demonst

33 mal plates and rete pegs was measured during real-time imaging and the number and diameter of epiderm

34 agnostics, bioterrorism agent detection, and real-time imaging and tracking of single-molecule proces

35 Using biochemistry, genetics, real-time imaging, and cell biology, we confirm that rou

36 ee-dimensions, allowing for high resolution, real-time imaging, and precise quantification of endothe

37 We developed a confocal real-time imaging approach that allows direct observatio

38 As a proof of concept, we perform continuous real-time imaging at a frame speed of 163 ns (a frame ra

39 eds demonstrated close correlation with both real-time imaging (b, r=0.79; Axb, r=0.81) and triggered

40 o both quantitative biochemical analysis and real-time imaging by epifluorescence microscopy.

41 on rate on nanoparticles in the solution via real-time imaging can be used to measure not only [e(-)a

42 ution of pentacene thin films, utilizing the real-time imaging capabilities of photoelectron emission

43 ated working swine heart model (n = 5), with real-time imaging capabilities.

44 Mitochondrial function was monitored by real-time imaging, cytochrome c redistribution, and reac

45 nalysis for different plant species based on real-time imaging data obtained from different spectra.

46 Quantification of the real-time imaging data revealed lateral branching as the

47 a clinical isolate of A. castellaniiIn vitro real-time imaging demonstrated that trophozoites of both

48 Real-time imaging following the addition of 3.6 mm Ca(2+

49 recent advances in cell lineage analysis and real-time imaging have uncovered surprising differences

50 In stent-implanted vessels, real-time imaging illuminated an edge-based pattern of s

51 ffer from photobleaching, and it allows near real-time imaging in 3D with submicrometer spatial resol

52 is therefore poised for many applications in real-time imaging in cells and whole animals.

53 ate the utility of bimodal viral vectors and real-time imaging in evaluating fate of NSCs in diseased

54 Microirradiation and real-time imaging in living cells revealed that HMGA2 de

55 Using real-time imaging in living cultured neurons, we demonst

56 Real-time imaging in rats showed a delayed and lower upt

57 romoter demonstrated excellent activation by real-time imaging in response to local inflammation.

58 By combining immunostaining and real-time imaging in viable slices of human lung tumors,

59 ymphocytes (TIL) and T cells, as revealed by real-time imaging in vivo.

60 Real-time imaging in zebrafish displayed that fluorescen

61 neocortical precursor cells in situ through real-time imaging, marker analysis, and electrophysiolog

62 h limitations, we have developed single-cell real-time imaging methodology to track the formation of

63 Using these real-time imaging methods, we confirmed the immunosuppre

64 retrospectively gated cine imaging (n=37) or real-time imaging (n=63), depending on the patient's abi

65 Real time imaging of a photoactivatable green fluorescen

66 Using real time imaging of changes in phosphatidylinositol 4,5

67 emonstrate the usefulness of GFP tagging for real time imaging of G protein-coupled receptor traffick

68 e resonance energy transfer (FRET), allowing real time imaging of phosphorylation resulting from PKC

69 llow bright switch and enables non-invasive, real-time imaging of 17beta-HSD10 in live human cells.

70 ized the ANCHOR/ParB DNA-labeling system for real-time imaging of a single-copy, estrogen-inducible t

71 and tdTomato, opening up the possibility for real-time imaging of another molecule.

72 This BAP-TM allows noninvasive real-time imaging of any cell type transduced to express

73 Applications for noninvasive real-time imaging of apoptosis and neuronal degeneration

74 roscopy, we show the utility of this tool in real-time imaging of astrocytes in living mouse brain an

75 Real-time imaging of ATP release from astrocyte cells ha

76 Orai1 function was assessed by real-time imaging of calcium transients as PMNs were sti

77 By real-time imaging of cAMP levels in intact myocytes and

78 e report here the development of subcellular real-time imaging of cancer cell trafficking in live mic

79 In the present report, we show real-time imaging of cancer cell trafficking in lymphati

80 ol in the arsenal of clinical cardiology for real-time imaging of cardiac dynamics.

81 n to clinical cardiology as a major tool for real-time imaging of cardiac dynamics.

82 recise control over oxygen concentration and real-time imaging of cell behavior.

83 cal application of a new phosphine probe for real-time imaging of cell-surface glycans using biolumin

84 spectroscopy, which will permit noninvasive real-time imaging of cells undergoing oxidative stress.

85 Real-time imaging of cellular and subcellular dynamics i

86 Using real-time imaging of cellular circadian gene expression

87 e expression and cellular physiology, and in real-time imaging of cellular metabolites and signals.

88 lysing the kinetics of NO receptor function, real-time imaging of cellular NO signal transduction in

89 al reflection fluorescence method capable of real-time imaging of cellular structure height with nano

90 Using real-time imaging of circadian gene expression, a new st

91 Here, using real-time imaging of cohorts of mouse radial glia cells,

92 y of elegant approaches, including the first real-time imaging of cortical neurons with reduced level

93 f forward genetic screens combined with live real-time imaging of development in transparent zebrafis

94 The AO protocol is quick, simple and allows real-time imaging of doomed cells in live tissues.

95 Such noninvasive and real-time imaging of drug-induced apoptosis in situ can

96 trated the use of AiFC for high-contrast and real-time imaging of endogenous RNA molecules in living

97 tion process in live cells, we have employed real-time imaging of enhanced green fluorescent protein

98 e activation, we used immunofluorescence and real-time imaging of FcgammaR-induced phagocytosis.

99 To enable noninvasive real-time imaging of FFA flux in the liver, we generated

100 Real-time imaging of fluorescence resonance energy trans

101 iments involving single-molecule counting or real-time imaging of fluorescent reporter constructs.

102 Using real-time imaging of fluorescently tagged Trks, we show

103 ptides are promising structures for in situ, real-time imaging of fungal infection.

104 Recently, the approach of real-time imaging of GCs by two-photon microscopy of int

105 es in a way that could be readily applied to real-time imaging of gene expression in living cells.

106 Using real-time imaging of gene expression, we found that the

107 Using noninvasive real-time imaging of genetically tagged PMNs in a murine

108 tion within a cutaneous wound, combined with real-time imaging of genetically tagged PMNs, we observe

109 We sought to elucidate this mechanism using real-time imaging of growth factor-induced stratificatio

110 Real-time imaging of growth kinetics reveals that a low

111 Real-time imaging of HCV IRES luciferase reporter messen

112 Real-time imaging of intracellular calcium dynamics reve

113 This was combined with real-time imaging of intracellular free-calcium activity

114 d submicron spatial resolution, allowing for real-time imaging of islet blood flow within the living

115 Real-time imaging of live myocytes expressing green fluo

116 Real-time imaging of live myofibers during injury demons

117 Real-time imaging of live NPCs revealed lagging chromoso

118 Optical Coherence Tomography (OCT) enables real-time imaging of living tissues at cell-scale resolu

119 rotein (alpha(1)-AR/GFP) were assessed using real-time imaging of living, transiently transfected hum

120 In this study, by real-time imaging of LNs, we show that the inhibition of

121 eaction system, we report for the first time real-time imaging of lysis and leakage of single bacteri

122 e, we established a new reporter that allows real-time imaging of membrane protein transport from the

123 We also demonstrate real-time imaging of microfluidic flow and phase-explosi

124 Real-time imaging of migrating neurons has changed our u

125 Real-time imaging of mouse embryos revealed EC movement

126 Real-time imaging of moving organs and tissues at micros

127 to determine the feasibility and accuracy of real-time imaging of myocardial contrast echocardiograph

128 ese results demonstrate the use of GR-GFP in real-time imaging of nuclear transport.

129 rescence resonance energy transfer, allowing real-time imaging of phosphorylation catalyzed by PKB.

130 Our results suggest that real-time imaging of protein dynamics is conceptually fe

131 but not by their eukaryotic hosts, to allow real-time imaging of pulmonary infections and rapid quan

132 ratiometric photoacoustic probe for in vivo real-time imaging of reactive oxygen species--vital chem

133 New and evolving techniques, including real-time imaging of second messengers, hold the promise

134 monstrate the importance of direct-space and real-time imaging of skyrmion domains for addressing bot

135 transfer-based biosensors have made possible real-time imaging of spatial and temporal gradients of i

136 Through real-time imaging of STAP cells derived from purified ly

137 igen-presenting cells (APCs) were stable and real-time imaging of T cell receptor (TCR) clustering pr

138 of integrin alpha(v)beta(3) in solution and real-time imaging of the binding process between cRGD an

139 Real-time imaging of the cells infected with the eGFP-ta

140 fluorescence lifetime imaging (FLIM) enables real-time imaging of the conformational changes of the s

141 subsequent NF-kappaB activation (measured by real-time imaging of the dynamic p65 and IkappaBalpha fl

142 Real-time imaging of the embryonic murine cardiovascular

143 Therefore, real-time imaging of the esophagus may be helpful in red

144 This makes possible high-resolution, real-time imaging of these cells by magnetic resonance i

145 Real-time imaging of these mutants with GFP-labeled chro

146 Real-time imaging of this assembly has the potential to

147 We deployed the DNA-encapsulated QDs for real-time imaging of three different endocytic ligands-f

148 and short acquisition times pave the way for real-time imaging of ultrafast processes or visualizatio

149 rated into the microscope to allow for true 'real-time' imaging of instrument-tissue interactions.

150 tainties at the time of treatment, including real-time imaging on the linear accelerator.

151 ime k-t SENSE imaging compared with standard real-time imaging (P < .05).

152 We developed an in situ and real-time imaging procedure to record the interface evol

153 Real-time imaging provided a more detailed fundamental u

154 dynamic elastography of soft tissue at near real-time imaging rates.

155 Real-time imaging results reveal that the probe stains t

156 Quantitative real-time imaging revealed a gradual change in the oxida

157 Real-time imaging revealed that arrest phenotypes differ

158 Further, real-time imaging revealed that loss of Lis1 caused defe

159 Real-time imaging revealed the surprisingly rapid infilt

160 The real-time imaging reveals a surprisingly fast conversion

161 Monitored by real-time imaging, RvD2-DRV2 interaction significantly e

162 Real-time imaging showed rapid uptake of spores into alv

163 Commercial real-time imaging software was customized to facilitate

164 Here we present a closed-loop real-time imaging strategy that automatically compensate

165 Real-time imaging studies are reshaping immunological pa

166 Additionally, the results of live real-time imaging studies demonstrated that C. neoforman

167 We have devised a noninvasive real-time imaging technique using confocal laser-scannin

168 Functional magnetic resonance imaging, a real-time imaging technique, was used to determine the a

169 Increased use of various online and real-time imaging techniques is an important step toward

170 However, because of the lack of real-time imaging techniques, specific subcellular mecha

171 microglial dynamics recently uncovered using real-time imaging techniques.

172 report the use of a newly developed ex vivo real-time imaging technology and immunoassaying to trace

173 In addition, recent advances in real-time imaging technology have begun to measure the r

174 Here, we demonstrate through real-time imaging that individual rat and human pancreat

175 Here we optimize single-cell real-time imaging to delineate the cellular mechanisms f

176 an approach with RNA interference (RNAi) and real-time imaging to study cyclin contributions to the r

177 This work demonstrates that real-time imaging under controlled atmosphere is a power

178 ared to diploid (2n) embryos was revealed by real-time imaging, using a histone H2b:eGFP reporter.

179 Real-time imaging was performed at the center of restora

180 r the intradisulfide modulates cGMP binding, real-time imaging was performed in vascular smooth muscl

181 Real-time imaging was performed with a mobile device to

182 Using the combination of high-resolution and real-time imaging, we demonstrate that these artificial

183 By monitoring individual HSC behaviour using real-time imaging, we found that a portion of the homed

184 Using real-time imaging, we show that Spastin severs microtubu

185 By utilizing molecular analysis and real-time imaging, we show that two progenitor character

186 Real-time imaging will enable efficient process developm

187 ab allows full control of the device and the real-time imaging with a region-of-interest (ROI) method

188 Real-time imaging with a VGAT-pHluorin fusion provides a

189 d invasive human glioma models and employing real-time imaging with correlative neuropathology, we de

190 imaging, interventional imaging prioritizes real-time imaging with lower radiation dose in addition

191 Synchronization of 2D real-time imaging with patient ECG allowed for different

192 Real-time imaging with reporter enzyme fluorescence (REF