ライフサイエンスコーパス: cell reaction

1 er, as well as enhancing the endogenous oval cell reaction.

2 (IL)-2 plays a dual role in this systemic T cell reaction.

3 ture with autologous acinar cells in a mixed-cell reaction.

4 % detection sensitivity of ~45 copies per 10-cell reaction.

5 e stability of the Au/CuPt catalyst for fuel cell reactions.

6 tissue damage caused by immunoinflammatory T cell reactions.

7 ice elicited minimal stromal or inflammatory cell reactions.

8 signaling pathways during IgE-mediated mast cell reactions.

9 rt were anterior uveitis or anterior chamber cell reaction (40% of patients and 79% of misdiagnoses),

10 ubulitis (82%), tubular rupture (62%), giant cell reaction (60%), and cortical and medullary inflamma

11 meningoencephalitis, possibly because of a T-cell reaction against Abeta.

12 )/4e(-) reduction of O2 to water, a key fuel-cell reaction also carried out in biology by oxidase enz

13 The timing of the two peaks of the oval cell reaction also changed with increasing dose, the fir

14 lating different components of the antiviral cell reaction and increasing viremia to a level sufficie

15 phritis, especially by reducing inflammatory cell reaction and infiltration in kidneys.

16 nflammatory reactions and foreign-body giant cell reaction and no angionecrosis or hemorrhage.

17 hich drive pathogenic germinal center (GC) B cell reactions and monocyte-macrophage differentiation,

18 tly increased both the magnitude of the oval cell reaction, and the contribution of BM to liver repai

19 Medullary inflammation, giant cell reaction, and the extent of cast formation correlat

20 stem, the spontaneous directions of the full-cell reaction are opposite at low and high temperatures.

21 l responses after SCI in mice; however, if T-cell reactions are biased against MBP, molecular and cel

22 potent inhibitors of this mixed epithelial/T cell reaction but not of conventional mixed lymphocyte r

23 perior electrocatalytic performance for fuel cell reactions, but still remains arduous.

24 nd that the trends in activity of model fuel cell reactions cannot be explained solely by the surface

25 glass substrate, which is mounted in a flow cell reaction chamber connected to a DNA synthesizer.

26 t oxygen reduction reaction (ORR) under fuel-cell reaction conditions.

27 enzyme active site of biocathodes under fuel cell reaction conditions.

28 ally injected eyes, including minor vitreous cell reaction in 2 eyes.

29 separately for the anodic and cathodic half-cell reactions in a three-electrode system or by measuri

30 ts, as direct activators of altered CD4(+) T cell reactions in patients with Crohn's disease (CD).

31 eins represents an important element of host cell reactions in response to infection.

32 nst non-structural proteins exhibited single cell reactions in salivary glands of mosquitoes and the

33 The undivided-cell reaction is proposed to operate through a paired-el

34 for the oxygen evolution in the anodic half cell reaction, is an important challenge in energy conve

35 We identify that germinal center (GC) B cell reactions, isotype-switched Ab responses, parasite

36 tate of vitamin A deficiency, inflammatory T cell reactions may be inadequately opposed and therefore

37 evaluated by a mixed lymphocyte-endothelial cell reaction (MLER).

38 itor the contribution of the individual half-cell reactions on the durability of the cell performance

39 ncluding platelet activation and endothelial cell reactions predicted to promote inflammation.

40 bute to GO, a novel reverse autologous mixed-cell reaction (rAMCR) was performed.

41 lack of high-performance catalysts for fuel cell reactions remains a challenge in realizing fuel cel

42 By enabling sorting based on single-cell reactions such as PCR, this platform will help expa

43 Inflammation with giant-cell reaction surrounding amyloid-laden vessels was iden

44 In living cells, reactions take place in membrane-bound compartmen

45 degradation by an ongoing foreign-body giant cell reaction that peaked at 8-12 d post-grafting, but n

46 mplement-dependent, macrophage-derived giant cell reaction that swiftly removes massive visceral amyl

47 The magnitude of oval cell reaction, the entity of BM contribution to liver re

48 s is the slack kinetics of the cathodic half-cell reaction, the oxygen reduction reaction (ORR).

49 and moderate intraluminal foreign body giant cell reaction; the acutely embolized rete showed no endo

50 he ions generated in an electrochemical half-cell reaction to a fluorescence signal, the most active

51 Thus, a peripheral T cell reaction to a systemic antigen goes through a phase

52 HLA-B*57:01-dependent CD8(+) T-cell reaction to FLX is limited by the presence of CD4(+

53 a critical role for these proteins in Muller cell reaction to retinal detachment and participation in

54 or soluble SD-4 receptor led to augmented T cell reactions to syngeneic and allogeneic stimulation i

55 To examine the consequences of T cell reactions to the B cell receptor (BCR), we generate

56 The oval cell reaction was quantified, on immunostaining for bili

57 As an altered anti-EBV T cell reaction was suggested in MS, we queried peripheral

58 eral blood lymphocytes, activated in a mixed-cell reaction when cocultured with purified rabbit lacri

59 unctions of antibody reactions or complete T-cell reactions which contribute substantially to DHR.