ライフサイエンスコーパス: hemopoiesis

1 ike either progenitor or precursor stages of hemopoiesis.

2 he regulation of innate immune responses and hemopoiesis.

3 ystis infection, but not during steady-state hemopoiesis.

4 e the production of substance P to stimulate hemopoiesis.

5 role in the mechanism by which ovx regulates hemopoiesis.

6 multiple facets of the activity of Notch on hemopoiesis.

7 lineages may not always be an early event in hemopoiesis.

8 in survival and restoration of normal murine hemopoiesis.

9 hemopoietic progenitors to sustain long-term hemopoiesis.

10 tiate leukemogenesis prenatally during fetal hemopoiesis.

11 ce of these complexes in normal and leukemic hemopoiesis.

12 yelofibrosis and extramedullary/extrasplenal hemopoiesis.

13 MHC class II molecules in the regulation of hemopoiesis.

14 o might also play an important role in early hemopoiesis.

15 asia, and splenomegaly due to extramedullary hemopoiesis.

16 opulating stem cells, is essential for adult hemopoiesis.

17 cating a key role for this cytokine in early hemopoiesis.

18 oteins as regulators of cell survival during hemopoiesis.

19 asia, and splenomegaly due to extramedullary hemopoiesis.

20 row stroma, and addresses the consequence to hemopoiesis.

21 th established predominant B0/B0-thalassemic hemopoiesis after in vivo injection of the HD-Ad-dualCRI

22 ient after reviewing the influence of age on hemopoiesis and chemotherapy-related complications.

23 Estrogen receptor (ER) ligands modulate hemopoiesis and immunity in the normal state, during aut

24 has emerged as a central regulatory event in hemopoiesis and inflammation.

25 ase that is known to play a critical role in hemopoiesis and is essential for mast cell growth, diffe

26 expression of Ikaros is critical for normal hemopoiesis and lymphocyte development.

27 monstrates that IL-7 can promote nonlymphoid hemopoiesis and production of cytokines active in the ho

28 and Dok-2 inactivation resulted in aberrant hemopoiesis and Ras/MAP kinase activation.

29 cally associated with chemokines: inhibiting hemopoiesis and stimulating chemotaxis.

30 transcription factor with a pivotal role in hemopoiesis and vasculogenesis, and it displays a highly

31 transcription factor with a pivotal role in hemopoiesis and vasculogenesis.

32 s among Treg cells, multiorgan inflammation, hemopoiesis, and apoptosis.

33 proteins that regulate leukocyte migration, hemopoiesis, and HIV-1 absorption.

34 gene expression critical to immune response, hemopoiesis, and proliferation.

35 There was a profound stimulation of splenic hemopoiesis as demonstrated by an increase in total cell

36 une organ with the potential to support both hemopoiesis as well as humoral immune activation.

37 Hemopoiesis depends on the expression and regulation of

38 distinct from HSCs, that they contribute to hemopoiesis early after transplantation, and that they a

39 gs show that HLA-DR-mediated signals inhibit hemopoiesis in human marrow by a mechanism involving Fas

40 and MDS marrow, and TRAIL modulated in vitro hemopoiesis in MDS dependent upon disease stage but not,

41 However, in examining hemopoiesis in mice lacking both isoforms of STAT5, STAT

42 ling resulted in compensatory extramedullary hemopoiesis in the liver and spleen.

43 of the relationship between LSCs and normal hemopoiesis in which the nature of genetic/epigenetic ch

44 ng genes that play important roles in normal hemopoiesis, including the cytokine receptor genes CRLF2

45 F (GM-CSF), which are involved in regulating hemopoiesis, inflammation, and immune responses.

46 The function of MHC class II (HLA-DR) Ags in hemopoiesis is not well defined.

47 Hemopoiesis is regulated in part by survival/apoptosis o

48 en shown to be involved in early bone marrow hemopoiesis, its role in thymopoiesis has not been thoro

49 SDF-1/CXCR4 axis plays an important role in hemopoiesis, neurogenesis, cardiogenesis, and angiogenes

50 7D also demonstrated an inhibitory effect on hemopoiesis of myeloid progenitor cells in colony format

51 s implicate Ikaros proteins as regulators of hemopoiesis, particularly in the lymphoid lineages.

52 a crucial role in the localization of human hemopoiesis, stem cells from distinct tissue sources sho

53 unknown whether these negative regulators of hemopoiesis suppress stem cells by activating a common s

54 can act as a negative regulator of in vitro hemopoiesis, that both rHuMig and IP-10 can suppress an

55 t showed an indirect effect of SDF-1alpha on hemopoiesis through substance P production.

56 Hemopoiesis was intact in TNFR1/RelA-deficient newborns,

57 To study the effects of Notch on hemopoiesis we used a bone marrow transduction/transplan

58 e pattern of SLP-76 expression during murine hemopoiesis, we stained cells isolated from various tiss