ライフサイエンスコーパス: alizarin

1 al chromophore by ET from the electrolyte to alizarin.

2 acilitated by vibrational modes localized on alizarin.

3 The ET from TiO2 to both alizarin and the electrolyte diminishes the solar cell c

4 cal indicator of the strong coupling between alizarin and TiO2, at SMSERS.

5 photoinduced electron transfer (ET) from the alizarin chromophore into the TiO2 surface is investigat

6 ter, pOBCol3.6GFPcyan, and reduced uptake of Alizarin complexone stain.

7 to investigate the electron dynamics at the alizarin/I2-/TiO2 interface this study uses a novel stat

8 ductor acceptor states, TiO2 sensitized with alizarin presents a novel case in which the molecular ph

9 rapped at the surface to the ground state of alizarin proceeds on a 1 ps time scale and is facilitate

10 Colorants such as alizarin, purpurin, carminic acid, lac dye, crocin, and

11 Alizarin red and Alcian blue whole mount analysis of the

12 ents were immunohistochemically stained with Alizarin red and human RANKL antibody.

13 was observed in those specimens stained with Alizarin red and Von Kossa after 21 and 28 days.

14 Alizarin red and von Kossa staining confirmed the dysfun

15 Alizarin red and von Kossa staining demonstrated that 15

16 nfirmed by alkaline phosphatase activity and Alizarin red and Von Kossa staining results.

17 rum: re-calcification can be demonstrated by Alizarin Red and von Kossa stains, by depletion of serum

18 ent pups double stained with alcian blue and alizarin red exhibited generalized, pronounced skeletal

19 h before re-calcification can be detected by Alizarin Red or von Kossa staining and before the subseq

20 Alizarin red s (ARS) is used as a redox indicator.

21 Alizarin red S (ARS) staining has been used for decades

22 cid and the diol-containing, fluorescent dye Alizarin Red S (ARS) was probed.

23 fluid samples were compared by staining with alizarin red S and oxytetracycline.

24 cell line was confirmed histologically using alizarin red S and von Kossa staining as well as Raman m

25 printed carbon electrodes modified with poly Alizarin Red S are employed as electrochemical sensors i

26 le with the diol-containing, fluorescent dye Alizarin Red S is probed.

27 Results indicate that Alizarin Red S reacts with both the boronic (neutral, tr

28 rphologically, staining with trypan blue and alizarin red S showed an apparently intact endothelial m

29 uration/mineralization), von Kossa stain and alizarin red S stain for mineralization, and enzyme assa

30 nt, real-time polymerase chain reaction, and alizarin red S staining and calcium content analysis wer

31 d fewer false-positive test results than did alizarin red S staining and could provide estimates of t

32 Histochemical analyses using Von Kossa and Alizarin red S staining of kidney sections confirmed the

33 s/immunocytochemistry (for protein), whereas alizarin red S staining revealed CE cell shape.

34 Alizarin red S staining was used to detect calcium-conta

35 osphatase (ALP) activity/staining as well as alizarin red S staining when compared with DPSCs of thei

36 al skeletal patterning, based on Alcian blue/Alizarin red S staining.

37 mation was measured by Alcian blue stain and Alizarin red stain.

38 Alizarin red stained calcified deposits that did not loc

39 mineral deposition by VSMCs, as assessed by alizarin red staining and (45)Ca accumulation.

40 Alizarin red staining and immunohistochemistry of GFP an

41 ed enhanced mineralization, as determined by alizarin red staining and mineralized marker expression.

42 MM, as measured by ALP activity at d 14 and Alizarin Red staining at d 21 (by 1.57+/-0.03- and 1.71+

43 Alizarin Red staining clearly showed that the elastin fi

44 Calcification was assessed by alizarin red staining in primary human trabecular meshwo

45 uantitative histopathologic evaluations with Alizarin Red staining independently confirmed the respec

46 Alcian Blue and Alizarin Red staining of the cranium exhibited an unfuse

47 Alizarin red staining showed calcification.

48 Alizarin red staining suggests mineralization at the per

49 ne phosphatase activity) and mineralization (alizarin red staining) compared with cells treated with

50 line phosphatase (ALP) activity measurement, alizarin red staining, and electron-dispersive x-ray spe

51 Alizarin red staining, microcomputerized tomography (mic

52 f mineralization by alkaline phosphatase and alizarin red staining.

53 he medium and mineral deposition, assayed by Alizarin red staining.

54 s measured by the cresolphthalein method and alizarin red staining.

55 itriol) reduced calcification as measured by Alizarin Red staining.

56 y electron microscopy, whereas von Kossa and alizarin red stains showed no evidence of calcification.

57 of vibrissae, as confirmed by von Kossa and alizarin red stains.

58 sirius red to demonstrate collage type 1 and Alizarin red to demonstrate calcium/mineralisation furth

59 (osteopontin, alkaline phosphatase activity, Alizarin red, and Von Kossa) compared with the control g

60 Alizarin red, osteopontin, and osteocalcin protein expre

61 Alizarin red-/Alcian blue-stained skeletons were prepare

62 er numbers of von Kossa-positive nodules and alizarin red-positive nodules compared with WT cells wit

63 s of panoramic and microscopic images of the alizarin red-stained corneal endothelium.

64 X-ray, microCT, alizarin red/alcian blue and calcein staining revealed s

65 Mineralization was evaluated by Alizarin-Red-S staining.

66 d for 4 to 7 wks, formed toluidine-blue- and alizarin-red-stainable nodules, indicative of chondrogen

67 4) mineralization evaluated by von Kossa and Alizarin-red.

68 the back electron transfer (ET) from TiO2 to alizarin, the ET from the surface to the electrolyte, an

69 The study, performed on the alizarin-TiO 2 interface at a range of temperatures, dem

70 The presence of perturbed alizarin-TiO2 coupling under interfacial electric potent

71 ed the change in the interface properties of alizarin-TiO2 system as a result of the externally appli

72 The molecular architecture seen in the alizarin-TiO2 system permits efficient electron injectio

73 ism, it proceeds mostly adiabatically in the alizarin-TiO2 system.

74 Calcein and alizarin were injected 6 and 3 days, respectively, prior