ライフサイエンスコーパス: stem cell identity

1 et gene) is a master regulator of intestinal stem cell identity.

2 ted a remarkably dynamic view of pluripotent stem cell identity.

3 entral in regulating epidermal and embryonic stem cell identity.

4 the niche, a microenvironment that specifies stem cell identity.

5 milieu may be important determinants of the stem cell identity.

6 ls "drifting away" from the niche and losing stem cell identity.

7 nd that neither WUS nor CLV3 is a marker for stem cell identity.

8 sions can repopulate the niche and revert to stem cell identity.

9 ng of maintenance and loss of pluripotential stem cell identity.

10 asymmetrically, with one daughter retaining stem cell identity.

11 ovel WUS-independent CLV1 pathway regulating stem cell identity.

12 h Wnt responsive and Wnt dependent to define stem cell identity.

13 gest that the MR does not inherently dictate stem cell identity, although its stereotypical inheritan

14 s the JAK-STAT signaling that is crucial for stem cell identity and activity, comparatively little is

15 croenvironments, or "niches", which regulate stem cell identity and behavior.

16 g the expression of genes that contribute to stem cell identity and by reprogramming the expression o

17 V1) receptor kinase in Arabidopsis regulates stem cell identity and differentiation through its repre

18 Wnt signalling is known to be important for stem cell identity and epithelial regeneration in severa

19 tein SALL4 plays a vital role in maintaining stem cell identity and governing stem cell self-renewal

20 ons regulate developmental genes involved in stem cell identity and lineage choice.

21 Intestinal epithelial stem cell identity and location have been the subject of

22 s a potent resource for the investigation of stem cell identity and regulation from functional as wel

23 Regulatory factors controlling stem cell identity and self-renewal are often active in

24 regulatory genes important for hematopoietic stem cell identity and self-renewal in human leukemia ce

25 tinct fate upon division: one cell retaining stem cell identity and the other cell destined to differ

26 ting the APC/C inhibitor Emi1 causes loss of stem cell identity and trophoblast differentiation of mo

27 bility may have an equally important role in stem-cell identity and function.

28 Pathways that regulate epigenetic control of stem cell identity are critical to the molecular etiolog

29 hematopoietic stem cells (HSCs) to maintain stem cell identity are not fully understood.

30 us, asymmetric division is not necessary for stem-cell identity but rather is a tool that stem cells

31 that Polycomb Group (PcG) proteins maintain stem cell identity by repressing differentiation genes,

32 ng information that prevents self-renewal of stem cell identity by the germ cell they enclose.

33 We further show that stem cell identity correlates with the mode of MR inheri

34 Stem cell identity depends on the integration of extrins

35 The precisely timed repression of the stem cell identity gene WUSCHEL (WUS) by the floral home

36 ibitors ARR7 and ARR15, and induction of the stem cell identity gene WUSCHEL Furthermore, plastid str

37 ops involving the phytohormone cytokinin and stem cell identity genes.

38 tate by looking for coordinate expression of stem cell identity genes.

39 size of the organizing center that maintains stem cell identity in neighboring cells.

40 athway activity, that perpetuates intestinal stem cell identity in response to Wnt/R-spondin stimulat

41 The Wnt signaling pathway controls stem cell identity in the intestinal epithelium and in m

42 is that the existing SCN actively suppresses stem cell identity in the PZ.

43 istem that is essential for specification of stem-cell identity in overlying cells.

44 This loss of stem cell identity is not associated with defects in the

45 ell types, but their function in maintaining stem cell identity is unclear.

46 d, because p63 and p73 are now implicated in stem cell identity, neurogenesis, natural immunity and h

47 etric division: daughter cells either retain stem cell identity or initiate differentiation.

48 es daughter cells that either maintain their stem cell identity or undergo differentiation to form ma

49 ncover that mitochondrial dynamics regulates stem cell identity, self-renewal, and fate decisions by

50 in leaf primordia, causing a proliferative, stem cell identity to persist in these cells.

51 ana, WUSCHEL (WUS) is a key factor promoting stem cell identity, whereas the CLAVATA (CLV1, CLV2, and

52 er cell remains in the niche and self-renews stem cell identity, whereas the other, displaced away, i