ライフサイエンスコーパス: bioimaging

1 predetermined composition and morphology for bioimaging.

2 from quantum information to neuroscience and bioimaging.

3 ing NIR fluorescent tags for applications in bioimaging.

4 and enhance the brightness of QD probes for bioimaging.

5 Hcy but also can penetrate cells for Cys/Hcy bioimaging.

6 e bullets for in vitro and in vivo molecular bioimaging.

7 ications, e.g. in quantum dot research or in bioimaging.

8 optical amplifiers, solar concentrators, and bioimaging.

9 croscopy, quantum information processing and bioimaging.

10 can play in areas such as energy storage and bioimaging.

11 ld impact tissue engineering, drug delivery, bioimaging.

12 lds in the development of new NIR probes for bioimaging.

13 problems in applications from solar cells to bioimaging.

14 nce properties (M = Yb and Eu) essential for bioimaging.

15 ), photovoltaic cells, chemical sensors, and bioimaging.

16 as revolutionized biology, due to its use in bioimaging.

17 e, this probe can be successfully applied in bioimaging.

18 s have been widely applied in biosensing and bioimaging.

19 lular dynamics and, hence, open a new era of bioimaging.

20 therapy, drug/gene delivery, biosensing, and bioimaging.

21 (double cholesteryl) using fluorescent live bioimaging.

22 ensors, and (4) metal-containing polymers in bioimaging.

23 elopment of fluorescence probes suitable for bioimaging.

24 n used as biocompatible fluorophores in cell bioimaging.

25 ort outlook on future directions of QD-based bioimaging.

26 -like to spherical), and also tumor-targeted bioimaging.

27 se in optics, optoelectronics, catalysis, or bioimaging.

28 ific features of nanomaterials often used in bioimaging.

29 ds of drug delivery, tissue engineering, and bioimaging.

30 d designated the suitability for subcellular bioimaging.

31 Mice subjected to bioimaging after neonatal intracranial or intravascular

32 rent functional moieties including aptamers, bioimaging agents and drug-loading sites could be easily

33 The development of probes (also called bioimaging agents and intracellular sensors) to achieve

34 er remarkable opportunities in the design of bioimaging agents: this review presents an accessible di

35 proteins (FPs) have played a pivotal role in bioimaging and advancing biomedicine.

36 g P-dots will be very useful in a variety of bioimaging and analytical applications.

37 behavior of Au25 (SG)18 for applications in bioimaging and biotherapy.

38 ising candidates for various applications in bioimaging and catalysis.

39 est in encapsulating bioactive molecules for bioimaging and controlled delivery applications.

40 sfection agents, and their use as agents for bioimaging and DNA delivery are also demonstrated.

41 mise of NCPDs in bio-related fields, such as bioimaging and drug delivery, are systematically discuss

42 Continued advances in bioimaging and functional genomics will be important for

43 BODIPYs for various applications, including bioimaging and in dye-sensitized solar cells.

44 tive GNC-F2 will find use both as a tool for bioimaging and in the high-throughput selection and engi

45 cid surface ligands are highly effective for bioimaging and in vivo tumor targeting.

46 Based on quantitative bioimaging and molecular markers for genetic and signali

47 advances in gold nanostructure based in vivo bioimaging and photothermal therapy and their loading ca

48 acilitating their biomedical applications in bioimaging and photothermal therapy of cancer.

49 (quantum dots, QDs) have great potential in bioimaging and sensing applications due to their excelle

50 use of semiconductor quantum dots (QDs) for bioimaging and sensing has progressively matured over th

51 The combined use of elemental bioimaging and speciation analysis is presented as a nov

52 emical proteomic strategies for simultaneous bioimaging and target identification of noncovalent bioa

53 al applications in tribology, drug delivery, bioimaging and tissue engineering, and also as protein m

54 e variations, near-infrared fluorophores for bioimaging, and beta-cyclodextrins for potential drug de

55 ation (LA) ICP-MS for quantitative elemental bioimaging, and hydrophilic interaction liquid chromatog

56 estern analysis, high-resolution single-cell bioimaging, and in situ confocal microscopy of seminifer

57 en oxide nanoparticles for light harvesting, bioimaging, and sensing.

58 is, structure, photophysical properties, and bioimaging application of a novel 2,1,3-benzothiadiazole

59 geted near-infrared fluorophores for various bioimaging applications is described.

60 re widespread use of SERS for biosensing and bioimaging applications.

61 applied in designing ratiometric probes for bioimaging applications.

62 vorable for designing ratiometric probes for bioimaging applications.

63 favorable for ratiometric Hg(2+) sensing and bioimaging applications.

64 e new opportunities for photonic devices and bioimaging applications.

65 ivatives for potential cellular delivery and bioimaging applications.

66 zer and emitter for photodynamic therapy and bioimaging applications.

67 ing, controlled assembly, and biosensing and bioimaging applications.

68 feasibility for chemical species sensing and bioimaging applications.

69 derivative to be used as a stable probe for bioimaging applications.

70 sed of UCNPs and plasmonic nanostructures in bioimaging applications.

71 rating their utility for use in cellular and bioimaging applications.

72 The bioimaging approach provides a useful means to accuratel

73 We describe a novel bioimaging approach with implications for the evaluation

74 Here the bioimaging approaches Raster Image Correlation Spectrosc

75 applications of Si QDs and FNDs to long-term bioimaging are discussed in this review comparing the to

76 We here present a method for multielement bioimaging at the cellular level in roots of the genetic

77 otechnology has led to broad applications in bioimaging, basic biological mechanism studies, disease

78 ontainers for applications in drug delivery, bioimaging, biocatalysis, and cell mimicry.

79 Bioimaging, biodistribution, activated neutrophil inhibi

80 ng promise for applications in areas such as bioimaging, biomedicine, photovoltaics and optoelectroni

81 otophysical properties are highly useful for bioimaging, but such dyes are still rare.

82 nsing and imaging, but their versatility for bioimaging can be limited by undesirable photon interact

83 is and as an effort to aid that of the wider bioimaging community, we present, explain and discuss a

84 Histologic examination results and elemental bioimaging confirmed labeled cells as source of MR signa

85 as well as improved fluorescent labeling for bioimaging could be envisioned.

86 model demonstrates the feasibility of using bioimaging coupled with Cre/loxP conditional knock-in to

87 Quantitative analysis of bioimaging data is often skewed by both shading in space

88 Ex vivo bioimaging demonstrated a high accumulation of phosphati

89 The applications of SNCs in bioimaging/diagnosis and drug delivery/therapy and the s

90 est for a variety of applications, including bioimaging, drug delivery and photovoltaics.

91 l applications of YSNs including biosensing, bioimaging, drug/gene delivery, and cancer therapy are d

92 is an essential parameter for high-contrast bioimaging, especially for overcoming auto fluorescent b

93 While a number of biochemical and bioimaging experiments suggest decondensed chromatin str

94 nhance the utility of conjugated polymers in bioimaging field.

95 ultrasensitive biomarker detection, enhanced bioimaging for disease diagnosis, targeted drug and gene

96 Collectively, our data support the use of bioimaging for lethality prediction following vaccinia v

97 New developments in bioimaging have vastly enhanced our ability to study the

98 in flatworm parasites since those driven by bioimaging, immunocytochemistry, and neuropeptide bioche

99 We have evaluated luciferase bioimaging in conscious, unrestrained mice after neonata

100 Luciferase bioimaging in living animals is increasingly being appli

101 arcodes have been implemented favourably for bioimaging, in addition to their security and multiplex

102 a new community effort that combines modern bioimaging informatics, recent leaps in labeling and mic

103 face, and should prove useful for multimodal bioimaging, interfacing with biological systems, reducin

104 Fluorescence bioimaging is a powerful, versatile, method for investig

105 Being poorly invasive, fluorescence bioimaging is suitable for long-term observation of biol

106 The new challenge in bioimaging is to design chemical probes for three-dimens

107 ntial applications in various fields such as bioimaging, light-emitting devices, and photocatalysis.

108 s issue of Neuron, Shafer et al. use a novel bioimaging methodology to demonstrate that PDF elevates

109 t ligation (pBDL), with a novel longitudinal bioimaging methodology to quantify transcription factor

110 Advanced bioimaging methods and genetic show that Al(3+) misfolds

111 nary potential as contrast agents in various bioimaging modalities, near-IR photothermal therapy, and

112 latforms for applications in high-resolution bioimaging, multicolor barcoding, and driving multiple i

113 the fields of chemical sensing, biosensing, bioimaging, nanomedicine, photocatalysis and electrocata

114 reat promise for single-particle analysis in bioimaging, nanophotonics, and nanocatalysis.

115 r applications in biodetection and molecular bioimaging, near-infrared (NIR) fluorescent dyes are bei

116 oncomitant type 2 diabetes, as well as novel bioimaging NO-based diagnostic tools.

117 the newly disclosed applications in sensing, bioimaging, novel solar energy exploitation including ph

118 its potential application in high resolution bioimaging of bacterial nucleoid segregation.

119 delivery of drugs and antigens, and optical bioimaging of cells and tissues with state-of-the-art na

120 ularly imprinted polymer (MIP) particles for bioimaging of fixed and living human keratinocytes, to l

121 The C-dots were also used for bioimaging of fungus and the results show they are also

122 Real-time bioimaging of infectious disease processes may aid count

123 ays, gene expression assays, drug screening, bioimaging of live organisms, cancer studies, the invest

124 hus, whereas apomaghemites are active for MR bioimaging of liver for 45 days, standard SPIO is not ef

125 a unique mouse model that allows noninvasive bioimaging of mdr1 gene expression in vivo and in real t

126 useful ion yields are high enough to enable bioimaging of peptides and lipids in biological samples

127 e and in in vivo applications, e.g., for the bioimaging of small animal models.

128 -ICP-MS) was utilized for spatially resolved bioimaging of the distribution of silver and gold nanopa

129 lopment of site-directed chemical agents for bioimaging or therapeutic applications.

130 aggregates exhibits excellent tumor-targeted bioimaging performance after intravenously injection int

131 in the nervous system is a key step in many bioimaging pipelines involving classification and labeli

132 using MGNs may be a promising diagnostic and bioimaging platform for very harsh conditions.

133 data extraction is integrated into a larger bioimaging platform, Icy, to increase the visibility and

134 ar shell makes ultrasensitive biosensing and bioimaging possible.

135 al fluorescent protein (FP)-based methods in bioimaging, primarily due to their favorable photophysic

136 stly, experiments involving visualization of bioimaging probe distribution in the lungs after local a

137 design an efficient ratiometric fluorescent bioimaging probe for metal ions.

138 use of [a]phenanthrene-fused BODIPYs as NIR bioimaging probes.

139 use in drug/gene delivery, phototherapy, and bioimaging, recent studies have revealed that FGNs can s

140 fluorescent probes for in vitro and in vivo bioimaging research.

141 ion, which is consistent with our multimodal bioimaging results for primary human keratinocytes, huma

142 e of multifunctional applications, including bioimaging, security protection, optical display, optoel

143 potential important applications such as in bioimaging, sensing, or optoelectronics.

144 Bioimaging software developed in a research setting ofte

145 ic characteristics of usability toward which bioimaging software projects should aim.

146 age of their luminescent properties, such as bioimaging, solid-state lighting, and luminescent solar

147 in tumor targeting and the effectiveness of bioimaging, specifically for theranostics, in tracking d

148 In addition, bioimaging studies against Bacillus subtilis through con

149 he free drug, permitting use of fluorescence bioimaging studies.

150 rst enzyme reporting two-photon fluorescence bioimaging system which was designed exclusively from a

151 New bioimaging techniques capable of visualising the co-loca

152 New bioimaging techniques have recently been proposed to vis

153 ompatible Pdots will be useful in developing bioimaging techniques in the future.

154 Pulsed lasers are key elements in nonlinear bioimaging techniques such as two-photon fluorescence ex

155 cision stable isotope measurements and novel bioimaging techniques to characterize parallel water-bor

156 We used bioimaging techniques to document ingestion, egestion, a

157 s of two complementary methods for elemental bioimaging, the nondestructive micro X-ray fluorescence

158 ing longitudinal TFAR profiling by continued bioimaging throughout the lives of the animals and follo

159 reasons, FbFPs hold strong promise to extend bioimaging to clinically and industrially significant sy

160 Finally, we use somatotransgenic bioimaging to longitudinally quantify LPS- and ActivinA-

161 that has applications in fields ranging from bioimaging to microfabrication.

162 We applied conscious bioimaging to the assessment of NFkappaB and STAT3 trans

163 in a variety of biomedical applications from bioimaging, to controlled drug delivery and cellular-dir

164 ted tunable spectral reach for spectroscopy, bioimaging, tomography and metrology.

165 Chemical probes are key components of the bioimaging toolbox, as they label biomolecules in cells

166 nities in spectroscopy of nanosized objects, bioimaging, ultrasensitive sensing, molecular computers,

167 a melanogaster was investigated by elemental bioimaging using laser ablation-inductively coupled plas

168 Three-dimensional (3D) bioimaging, visualization and data analysis are in stron

169 Conscious bioimaging was applied to a neonatal mouse model of cere

170 Whole-body bioimaging was employed to study the effects of passive

171 Whole-body bioimaging was used to study dissemination of vaccinia v

172 mmunotherapy in mice using in vivo apoptosis bioimaging with a caspase-3 sensor.

173 tional fluorescence microscopy, allowing for bioimaging with nanometer resolution.

174 Recent advances in fluorescence bioimaging with single-molecule sensitivity have relied

175 highly attractive luminescent biomarkers for bioimaging without autofluorescence and concern of overh

176 bridges optical biosensing and intracellular bioimaging without requiring a labeling process or coupl