ライフサイエンスコーパス: Alcian blue

1 ally stained positively with mucicarmine and Alcian blue.

2 and stained with haematoxylin and eosin and alcian blue.

3 GAG shedding was quantified using Alcian Blue.

4 nd IX collagen and cytochemical staining for Alcian blue.

5 components that strain with PAS but not with Alcian blue.

6 cid-Schiff/alcian blue and high-iron diamine/alcian blue.

7 75 to 250 kDa that do not stain with PAS or Alcian blue.

8 In this experimental work Alcian Blue 8GX, a positively charged phthalocyanine dye

9 Using Alcian Blue, a histochemical stain that detects sulfated

10 ormal prenatal skeletal patterning, based on Alcian blue/Alizarin red S staining.

11 sses was noted by micro-computed tomography, Alcian blue/Alizarin red staining, and histology.

12 born CypA-deficient pups double stained with alcian blue and alizarin red exhibited generalized, pron

13 Alcian Blue and Alizarin Red staining of the cranium exh

14 X-ray, microCT, alizarin red/alcian blue and calcein staining revealed severe skeleta

15 These nodules stained intensely with Alcian blue and collagen type II antibodies.

16 highlighted by special histochemical stains (Alcian blue and collodial iron).

17 , Ihh(-/-) growth plates stained poorly with Alcian blue and contained low aggrecan transcript levels

18 typed by staining with periodic acid-Schiff/alcian blue and high-iron diamine/alcian blue.

19 were evaluated in COVID-19 autopsy lungs by Alcian blue and periodic acid-Schiff staining, immunohis

20 cian blue granules in young animals to mixed alcian blue and safranin granules in older animals, and

21 while proteoglycan content was determined by alcian blue and Safranin O staining, CD44 protein expres

22 ion, as demonstrated by reduced affinity for Alcian blue and sensitivity to hygromycin B.

23 ns, including those for mucopolysaccharides (Alcian blue and/or colloidal iron).

24 psies were stained with Periodic Acid Schiff-Alcian Blue, and GCD was measured as number of goblet ce

25 oned and stained with hematoxylin and eosin, Alcian blue, and Masson's trichrome.

26 induced OA, as indicated by microCT results, Alcian blue, and Safranin O staining.

27 can (sGAG) levels in the SF were measured by Alcian blue binding assay.

28 onal screens (carboxypeptidase secretion and Alcian Blue binding) revealed a common set of genes rela

29 nonchondrogenic cells which exhibit loss of Alcian blue cartilage matrix and downregulation of carti

30 eterogeneity and binding of the cationic dye alcian blue compared with those in normal corneas.

31 It is a modified Alcian blue dye precipitation assay in which the dye bin

32 rmal staining of the colonic epithelium with Alcian Blue for acidic mucins, and lack normal goblet ce

33 he intensity of metachromasia, a switch from alcian blue granules in young animals to mixed alcian bl

34 Although the Alcian Blue-modified CPLL incremented the total protein

35 Sections of lung were stained with Alcian Blue/PAS and examined microscopically.

36 glycoconjugates that stained positively with Alcian blue/PAS were also increased in asthmatic airways

37 s study, we used histological staining with 'Alcian Blue, Periodic Acid, Schiff's' and 'High-Iron dia

38 let cells exhibited positive reactivity with alcian blue-periodic acid Schiff (PAS) reagent, goblet c

39 igands increased the number of goblet cells, Alcian blue-periodic acid-Schiff staining (reflecting mu

40 he following criteria: positive staining for alcian blue/periodic acid Schiff reagent, cytokeratin (C

41 nd rats, we stained airway goblet cells with Alcian blue/periodic acid-Schiff and determined the numb

42 eadout for ocular surface epitheliopathy and Alcian blue/periodic acid-Schiff histochemical analysis

43 Alcian Blue/periodic acid-Schiff staining showed signifi

44 e airways of control mouse lungs contain few alcian blue/periodic acid-Schiff's (AB/PAS)+ staining 'g

45 (250 ng) increased MUC5 gene expression and Alcian blue/periodic acid-Schiff-positive staining at 24

46 ugate expression, sections were stained with Alcian blue/periodic acid-Schiffs reagent (AB/PAS) and w

47 Alcian blue positive (sulfatide) storage cells were foun

48 ion resulted in decreased accumulation of an Alcian Blue positive matrix by chondrocytes and decrease

49 th significantly reduced BAL lymphocytes and alcian blue-positive cells (presumably basophils) compar

50 grown gonococci were surrounded by a coat of alcian blue-positive material, probably representing acc

51 cancer precursor lesions such as intestinal Alcian blue-positive metaplasia and compensatory hyperpl

52 Homozygous uxs1 mutants lack Alcian blue-positive, proteoglycan-rich extracellular ma

53 timannoprotein antibody and the cationic dye alcian blue protect cells against osmotin cytotoxicity.

54 using three markers: acidic toluidine blue, alcian blue/safranin, and an antiserum to gonadotropin-r

55 r two bands were also directly visualized by alcian blue/silver staining of a purified placenta extra

56 velopment and bone formation was measured by Alcian blue stain and Alizarin red stain.

57 Masson's trichrome, Verhoeff-Van Gieson, and Alcian blue stain for semiquantitative evaluation.

58 richrome, Verhoeff-van Gieson, tenascin, and alcian blue stain for semiquantitative evaluation.

59 A periodic acid-Schiff stain-alcian blue stain revealed mucous gland metaplasia of th

60 at PDL-bone and PDL-cementum entheses using alcian blue stain.

61 Cells in alginate culture deposited abundant alcian blue-stainable matrix and continued to proliferat

62 cted increase in the number and intensity of Alcian blue stained chondrogenic nodules in micromass cu

63 Alizarin red-/Alcian blue-stained skeletons were prepared from embryos

64 Proteoglycan depletion was assessed by Alcian blue staining and chondrocyte cell death, with th

65 oth muscle cells was observed as assessed by Alcian blue staining and expression of the chondrocyte m

66 d goblet cell differentiation as assessed by alcian blue staining and expression of the Muc2 gene, es

67 l integrity was assessed in cecal tissue via Alcian blue staining and histologic analysis.

68 Alcian blue staining at embryonic day 17.5 showed abnorm

69 00 column resulted in isolation of the major Alcian blue staining band (630 kDa) which eluted first,

70 almost all cranial sites and a reduction in alcian blue staining in alveolar bone.

71 Alcian blue staining of SGs demonstrated that these incl

72 depletion also increased aortic diameter and Alcian blue staining of the aortic media, which are card

73 and sulphated glycosaminoglycan levels with alcian blue staining were measured by microdensitometry.

74 IPI was studied using histology (Chiu score, Alcian blue staining), Western blot, and electrophysiolo

75 glycosaminoglycan deposition as assessed by Alcian blue staining, and gene expression of key anaboli

76 ically preserve GAGs, GAG-degrading enzymes, Alcian blue staining, and real color discrimination to e

77 ndicative of IEC proliferation, was more and alcian blue staining, indicative of IEC differentiation,

78 Mucin expression, as indicated by Alcian blue staining, was increased in the airways of Sf

79 Compared with Alcian blue staining, we found that calcein staining ind

80 d 3D-ET, mucin production was assessed using Alcian blue staining, while estrogen receptor alpha (ERa

81 and collagen types II, IX, X, and XI, and by Alcian blue staining.

82 using immunocytochemistry, western blot, and alcian blue staining.

83 This conversion is accompanied by loss of Alcian blue-staining cartilage matrix and downregulation

84 eased [35S]sulfate incorporation, and larger Alcian blue-staining cartilage nodules; (3) Cyr61 enhanc

85 nic differentiation, including production of Alcian blue-staining matrix and expression of the collag

86 contain three high-molecular-weight, acidic, Alcian blue-straining components (450, 630, and 900 kDa)

87 s, all skeletal elements visualized by using Alcian blue were smaller.

88 Alizarin red and Alcian blue whole mount analysis of the skeletons from w