ライフサイエンスコーパス: discoid

1 f the interaction anisotropy imparted by the discoids.

2 ns from native cell membranes into nanoscale discoids.

3 amyloplasts of wheat endosperm contain large discoid A-type granules and small spherical B-type granu

4 Evaluation of discoid and subacute cutaneous lupus erythematosus lesio

5 d/sterol sulfotransferase expressed in these discoid anucleate particles.

6 The model discoids are suspended in a refractive index and density

7 n is required for optimal thrombopoiesis and discoid cell shape.

8 that is wound in 8 to 12 coils and maintains discoid cell shape.

9 rophy of chondrocytes arranged in columns of discoid cells that resemble stacks of coins.

10 d retraction of pseudopods on taxol-treated, discoid cells.

11 To do so, the discoid cockroach often pushes its wings against the gro

12 butyl amide substituent as in 2b enables the discoid dimers to further aggregate into one-dimensional

13 g the zwitterionic nature of the aggregating discoid dimers, a reversible pH switch was realized: dim

14 e circulating blood platelets present with a discoid flat morphology maintained by a submembranous pe

15 The discoid form of blood platelets is important to their fu

16 l across four different lithic technologies (discoids, handaxes, Levallois, and prismatic blades).

17 eses that a hapteral holdfast, rather than a discoid holdfast, is the ancestral state in complex kelp

18 ystems, here we report that colloidal oblate discoids initially self-assemble into short, metastable

19 One patient developed systemic LE and one a discoid LE lesion.

20 lled trial, SLE patients with polyarthritis, discoid lesions, or pleuritis and/or pericarditis were r

21 eening were systemic lupus erythematosus and discoid lupus (52.4%) followed by rheumatoid arthritis (

22 e analyzed gene expression profiles of human discoid lupus erythematosus (DLE) and lupus nephritis (L

23 Discoid lupus erythematosus (DLE) is a chronic variant o

24 e recommended systemic therapy of choice for discoid lupus erythematosus (DLE) is the 4-aminoquinolon

25 Discoid lupus erythematosus (DLE) is the most common ski

26 ciation of area deprivation with outcomes in discoid lupus erythematosus (DLE) remains poorly underst

27 emic lupus erythematosus (SLE) patients with discoid lupus erythematosus (DLE) were reported to have

28 proportion of the lymphocytic infiltrate in discoid lupus erythematosus (DLE), their contribution to

29 ute cutaneous lupus erythematosus (SCLE) and discoid lupus erythematosus (DLE), which may reflect a c

30 re, but severe, complication associated with discoid lupus erythematosus (DLE).

31 with the exception of an increase in TBK1 in discoid lupus erythematosus (P < .05).

32 fferences in immune cell percentages between discoid lupus erythematosus and subacute CLE (P > .05) w

33 These data suggest that discoid lupus erythematosus and subacute CLE have simila

34 ught to characterize the immune landscape of discoid lupus erythematosus and subacute CLE using multi

35 of cutaneous lupus erythematosus, but not in discoid lupus erythematosus, a less photosensitive form.

36 rythema nodosum leprosum, Behcet's syndrome, discoid lupus erythematosus, and Crohn's disease.

37 reater than the association in patients with discoid lupus erythematosus.

38 spondylitis; five had juvenile RA; three had discoid lupus erythematosus; and four had 4 mixed connec

39 Patients with subacute and Discoid Lupus Erythematous had elevated Interferon score

40 Therefore, discoid lupus inflammation promotes skin cancer in high-

41 In patients with discoid lupus, a distinct signature consisting of elevat

42 subacute cutaneous lupus erythematosus, and discoid lupus, and controls.

43 residents with any SLE-associated diagnoses, discoid lupus, positivity for antinuclear antibodies, an

44 er subacute cutaneous lupus erythematosus or discoid lupus.

45 sphere of each silica particle to generate a discoid magnetic symmetry, such that in a precessing mag

46 The discoid meniscus is the most common abnormal meniscal va

47 We report the fabrication of a series of discoid, monodisperse, low-modulus hydrogel particles wi

48 The importance of the platelet discoid morphology has since been questioned on the abse

49 isease characterized by a loss of the normal discoid morphology of erythrocytes, resulting in hemolyt

50 lin isotypes to acquire their characteristic discoid morphology.

51 bination with Rho kinase inhibitor, produced discoid or polygonal cells having broad, flattened lamel

52 Preplatelets are anucleate discoid particles 2-10 microm across that have the capac

53 size- and shape-dependent, larger spherical/discoid particles being more effectively marginated both

54 esion, we find that HI between the biconcave discoid particles prompts the formation of layered RBC c

55 At higher protein/lipid ratios, discoid particles, 70-100 A across, are formed.

56 Platelets float in the blood as discoid particles.

57 ocytosis allows investigation of the role of discoid platelet shape in hemostasis.

58 This increase in adhesion was restricted to discoid platelets and involved the shear-dependent regul

59 homogenous ring located at the periphery of discoid platelets into nodular densities consistent with

60 Vincristine converted discoid platelets to rounded cells that extended pseudop

61 egulating biomechanical adhesive function of discoid platelets.

62 pen canalicular system) membranes in resting discoid platelets.

63 resting chondrocytes into clonal columns of discoid proliferative cells aligned with the primary gro

64 Here, we show in chick that discoid proliferative chondrocytes orient the division p

65 tiplex families (26.6%), malar rash (56.0%), discoid rash (34.2%), photosensitivity (60.9%), and oral

66 confidence interval [95% CI] 1.13-2.35) and discoid rash (Ptrend=0.014, ORhigh-low 1.93, 95% CI 0.98

67 al features that were observed earliest were discoid rash and seizures, which developed a mean 1.74 a

68 effects than genetic ancestry on malar rash, discoid rash, arthritis, and neurologic involvement.

69 risk ratios (1.9-3.9) for thrombocytopenia, discoid rash, neurologic disorder (defined as seizure or

70 vidence for familiality of thrombocytopenia, discoid rash, neurologic disorder, hemolytic anemia, and

71 f Rheumatology (ACR) criteria of malar rash, discoid rash, photosensitivity, and oral ulcers, and 3 (

72 irculating platelets lack the characteristic discoid shape and have defective marginal bands with red

73 and circumferential microtubules in platelet discoid shape and its restoration.

74 of nonnucleated red cells with their unique discoid shape and membrane material properties.

75 combination with Y-27632 did not change the discoid shape of epitheliocytes, however treatment with

76 determines the abundance and the flattened, discoid shape of leaf starch granules.

77 marginal band of microtubules maintains the discoid shape of resting blood platelets.

78 The discoid shape of resting platelets in the circulation is

79 Their discoid shape provides a radially symmetric geometry, wh

80 The discoid shape results in greater coverage of the tibia a

81 let agonist causing shape change from smooth discoid shape to spiculated spheres and platelet aggrega

82 as they undergo a transition from the normal discoid shape to the abnormal echinocyte and spherical s

83 (i) hemochorial placental interface, (ii) a discoid shape, and (iii) a labyrinthine maternofetal int

84 Platelets maintain their normal discoid shape, and bleeding times are normal.

85 actin-rich cytoskeleton are responsible for discoid shape, shape change, and recovery after activati

86 e soluble, stable, and reproducibly prepared discoid shaped nanoscale structures that contain a discr

87 disease characterized by multiple, pruritic, discoid-shaped lesions.

88 olume to its maximal possible volume) of RBC discoid shapes.

89 orphous as compared with the highly regular, discoid starch granules observed in wild-type leaves.

90 ve produced two types of cellular fragments: discoid stationary fragments and polarized fragments und

91 The contents consist of six flat, gray, discoid tablets that represent direct evidence of an anc

92 and some Coleochaete species have elaborate discoid thalli, in some cases including marginal meriste

93 ormations on platelets and shape change from discoid to spherical form support the above said finding