ライフサイエンスコーパス: immunochemistry

1 ize surfaces on-chip with multiple layers of immunochemistry.

2 ucose and monitored acetylation over time by immunochemistry.

3 P, and activated caspase 3 was visualized by immunochemistry.

4 (CATB) and matrix metalloproteinase 9 (MMP9) immunochemistry.

5 14-3-3 sigma, and prostate stem cell antigen immunochemistry.

6 n the AIS pyramidal cells was confirmed with immunochemistry.

7 ypes were assessed by cell fractionation and immunochemistry.

8 ner corpuscles had an abnormal structure and immunochemistry.

9 7T magnet, and studied by histopathology and immunochemistry.

10 t (KO) mice, tissue measurements of ACh, and immunochemistry.

11 tissues of patients with SSc was analyzed by immunochemistry.

12 nd Pax6 was determined in embryo sections by immunochemistry.

13 aking the "one antibody-one target axiom" of immunochemistry.

14 e-quantitative polymerase chain reaction and immunochemistry.

15 and active MMP-2 and MMP-9 by zymography and immunochemistry.

16 by use of rapid quenching and site-directed immunochemistry.

17 llen was determined by mass spectrometry and immunochemistry.

18 reacted for activated microglia by isolectin immunochemistry.

19 s and following the outcome by site-directed immunochemistry.

20 lyacrylamide gel electrophoresis, and use of immunochemistry.

21 rocytes has been determined by site-directed immunochemistry.

22 translocation, as assessed by means of both immunochemistry (54.0% +/- 6.8% vs 24.7% +/- 3.8% GR-pos

23 d by immunofluorescence, flow cytometry, and immunochemistry 72 hours after treatment.

24 8(+) T cells from CAF-rich murine tumors and immunochemistry analysis of human tumors identified sign

25 Immunochemistry analysis of respiratory samples has demo

26 clinical diagnostics especially in automated immunochemistry analyzers such as Siemens Healthcare Dia

27 d evaluated the reduction in IgE binding via immunochemistry and a mouse model of passive cutaneous a

28 vant peroxidase enzymes, used extensively in immunochemistry and biocatalysis applications.

29 showed significant reductions in total Abeta immunochemistry and Congo red.

30 rus cultures, real-time PCR, DNA sequencing, immunochemistry and electron microscopy analyses.

31 Plk3 activities were determined by immunochemistry and immunocomplex kinase assay approache

32 in its native configuration as determined by immunochemistry and immunoelectron microscopy.

33 rticular the B1kappa1 domain, as reagents in immunochemistry and immunotherapy.

34 Immunochemistry and LC-MS/MS were applied to assess the

35 rantigens should prove useful as reagents in immunochemistry and may have potential as agents in immu

36 ther, we isolated the incriminating virus by immunochemistry and molecular techniques in several feta

37 Immunochemistry and pharmacological properties of the re

38 ular matrix (ECM) components were assayed by immunochemistry and Western blot.

39 combination of single-cell transcriptomics, immunochemistry, and functional experiments.

40 Using electron microscopy, immunochemistry, and gene expression, we demonstrated th

41 nce (qHNMR), size separation chromatography, immunochemistry, and sensory analysis.

42 toenzymology, beta-galactosidase, sclerostin immunochemistry, and terminal deoxynucleotidyl transfera

43 n, proteomics, RT-PCR gene expression assay, immunochemistry, and Western blotting were used to exami

44 to be examined with regard to immunology and immunochemistry as well as genetics.

45 n levels were determined using enzyme-linked immunochemistry assay in 78 individuals including 19 hep

46 Immunochemistry assays demonstrated an interaction betwe

47 e marker expression on the protein level via immunochemistry assays.

48 The eyes were studied by immunochemistry at 3 days to 8 weeks after implantation.

49 n a highly multiplexed experiment with other immunochemistry-based reagents to distinguish uptake int

50 nteractions, and enables characterization of immunochemistry, binding affinity, and protein biomarker

51 cell transcriptomic profiling combined with immunochemistry characterizes a model system that can mo

52 p53 immunochemistry demonstrated elevated protein levels wit

53 Immunochemistry demonstrated RMR-dependent cellular upta

54 Biopsy and immunochemistry demonstrated the presence of amelanotic

55 In situ hybridization and immunochemistry double staining showed that miR-365 was

56 pment in sly mutants, using a combination of immunochemistry, electron microscopy and quantitative li

57 Immunochemistry ER and PgR HSCORE and % positivity (%+)

58 hybridization with tyrosine hydroxylase (TH) immunochemistry for better characterization of PSST1 and

59 rowths for human centromeric DNA, as well as immunochemistry for human-specific breast epithelial cyt

60 on the raccoon forepaw was examined by using immunochemistry for protein gene product 9.5, calcitonin

61 Immunochemistry for the detection of the human DNA misma

62 encing (PSQ; methylated MGMT >=9%) and using immunochemistry (H-score of MGMT <50) when PSQ was not i

63 p16/Ki-67 immunochemistry had the highest PPV, 20%, but 13% specim

64 Rapid quenching and site-directed immunochemistry have been used to follow the formation o

65 Immunochemistry image analysis also suggested that LT en

66 Combining light and electron microscopic immunochemistry in the rat spinal trigeminal nucleus, we

67 of the KBP complex by mass spectrometry and immunochemistry: KBP120 and KBP45 are the damaged DNA-bi

68 roach that involves quantitative proteomics, immunochemistry, metabolic quantification, and life span

69 cycle, apoptosis through an ELISA assay, and immunochemistry method were investigated in LNCaP cells.

70 Our study assessed the immunochemistry, morphology, and density of the nonvascu

71 They were characterized by immunochemistry, N-terminal sequence analysis, and mass

72 nce of urinary decoy cells and urinary SV40T immunochemistry of exfoliated cells, to screen for BKVAN

73 Transgene expression was evaluated by immunochemistry of infected RGC-5 cells and after intrav

74 The AgCad1 protein was localized, by immunochemistry of sectioned larvae, predominately to th

75 nce tomography (OCT), PKP subgroup outcomes, immunochemistry of the corneal buttons and GAN fascicle,

76 o a number of serogroups on the basis of the immunochemistry of their capsular polysaccharides; serog

77 To study the immunochemistry of these proteins, overlapping decapepti

78 ression in defined B-cell populations and by immunochemistry of tonsil tissue.

79 on of fluorescence in situ hybridization and immunochemistry on fixed human cells and high-throughput

80 Immunochemistry on rat brain, cultured neurons, and huma

81 h in vitro and in vivo utilizing fluorescent immunochemistry on transfected cells, transgenic Xenopus

82 beta-Cell proliferation was assessed by immunochemistry or flow cytometry.

83 fly genetics, live cell imaging, and tissue immunochemistry, our research elucidates the structural

84 We used a combination of microscopy, immunochemistry, patch-clamp, and optical mapping to ass

85 ass and replication rates were determined by immunochemistry, point-counting morphometry, and 6-h 5-b

86 ients (9 different allergens) and studied by immunochemistry, real-time PCR, nested PCR, and in situ

87 th specimens using 3 independent techniques (immunochemistry, real-time quantitative polymerase chain

88 in all myocytes in culture was documented by immunochemistry, real-time RT-PCR, and determination of

89 also demonstrated by electron microscopy and immunochemistry, respectively.

90 Immunochemistry revealed higher microglial activation in

91 Tissue microarray immunochemistry revealed that p65 phospho-Ser536 is pres

92 Immunochemistry showed a significant decrease in the imm

93 esions in male C57Bl/6J mice, as verified by immunochemistry, showed a small but significant increase

94 The developed immunochemistry stabilization method can potentially be

95 immunoprofiling of hepatic lymphocytes, and immunochemistry staining of liver tissues for assessing

96 Immunochemistry studies confirmed the presence of the P3

97 Immunochemistry studies demonstrated that prolonged graf

98 Quantitative kinetic analysis and immunochemistry studies suggest that the high inhibitory

99 ophysiologically identified cells along with immunochemistry to characterise contacts formed by axons

100 t interactions that have formed the basis of immunochemistry until this time.

101 Aseq, metabolomics, electron microscopy, and immunochemistry using transgenic mice.

102 activity, postembedding electron microscopic immunochemistry was performed on anterogradely labeled c

103 Quantitative immunochemistry was used to assess the numbers of eosino

104 Immunochemistry was used to characterize inflammatory ce

105 Using immunochemistry, we demonstrated that this defect was no

106 ing RT-PCR, flow cytometry, and fluorescence immunochemistry, we found that numerous integrins were e

107 f reporter genes, RNA gel blot analysis, and immunochemistry, we found that the AGL15 protein accumul

108 Here, by immunochemistry, we have found expression of AQP5 protei

109 With immunochemistry, we identified MSC-CSC niches in these t

110 Scanning electron microscopy and immunochemistry were used to describe the formation of t

111 Using immunochemistry, Western blot analysis, and kinase activ

112 ncluding IL-1beta, were investigated through immunochemistry, western blot analysis, and quantitative

113 Immunochemistry with oligomer-specific antibodies, elect