ライフサイエンスコーパス: sustentacular

1 LacZ staining also was observed in sustentacular and basal cells and in immature ORNs.

2 For example, sustentacular and duct cells give rise only to themselve

3 tion of HBCs observed after tissue injury or sustentacular cell ablation is caused by the reduction/e

4 ssessed HBC activation after neuron-only and sustentacular cell death.

5 n apical orientation in direct apposition to sustentacular cell end feet.

6 del where Notch2 is required for maintaining sustentacular cell function.

7 ained by GBC-3, and colabeled with GBC-3 and sustentacular cell or HBC markers.

8 The electrical properties of sustentacular cells (SCs) in the olfactory epithelium (O

9 ctory sensory neurons (OSNs) and surrounding sustentacular cells (SCs) with apical microvilli.

10 n of globose basal cells committed to making sustentacular cells after methyl bromide lesion.

11 ST biotransformation enzymes in basal cells, sustentacular cells and Bowman's glands of the olfactory

12 cifically upregulated in GBCs as compared to sustentacular cells and differentiated neurons.

13 Many of the GBC-related clones contain sustentacular cells and horizontal basal cells as well.

14 tivated to multipotency and proliferate when sustentacular cells are killed, but not when only OSNs d

15 We found that sustentacular cells are the major target cell type in th

16 y restricted expression patterns in OSNs and sustentacular cells but not in Bowman's glands, suggesti

17 n this work, we demonstrate that a subset of sustentacular cells endowed with a support role, are in

18 RALDH 1 immunoreactivity was localized to sustentacular cells in the OE and to Bowman's gland cell

19 lutathione S-transferase (GST) expression by sustentacular cells is reduced.

20 We found that ablation of sustentacular cells is sufficient for HBC activation to

21 on HBCs; elimination of Jagged1 expressed by sustentacular cells may be the ligand responsible.

22 oth the lumen microvilli and end feet of the sustentacular cells of the olfactory epithelium.

23 antineurogenic factor Hes1 is limited to the sustentacular cells of the unlesioned olfactory epitheli

24 an's glands, and clones that are composed of sustentacular cells only.

25 xenobiotic metabolizing enzymes expressed by sustentacular cells or Bowman's glands, reinforcing the

26 the GBC population and does not stain either sustentacular cells or horizontal basal cells (HBCs) in

27 ogenitor that gives rise to duct, gland, and sustentacular cells resides within the ducts, based on t

28 Environmental stressors also affect both the sustentacular cells that support the neurons and the res

29 ate that transient insufficient support from sustentacular cells triggers transient olfactory dysfunc

30 tic chemical transformation enzyme Cyp2a5 in sustentacular cells, and both naris occlusion and methim

31 r horizontal basal cells, Bowman's gland and sustentacular cells, and neurons.

32 , give rise to globose basal cells, neurons, sustentacular cells, and several other kinds of non-neur

33 ng cells of the olfactory epithelium, termed sustentacular cells, appeared to reflect a response to o

34 in cells of non-neuronal lineage, including sustentacular cells, basal cells, and Bowman's glands.

35 that RALDH-1, -2, and -3 are enriched in the sustentacular cells, deep fibroblasts of the lamina prop

36 nds of cells in normal epithelium, including sustentacular cells, horizontal basal cells, and some gl

37 zed in the postnatal olfactory epithelium by sustentacular cells, previously proposed to function onl

38 ecially at the apical junctional belt of the sustentacular cells.

39 2,100 genes that are upregulated compared to sustentacular cells.

40 dicarbonyl/L-xylulose reductase, relative to sustentacular cells.

41 spite apparently normal functional cilia and sustentacular cells.

42 , knobs, and plasma membranes of OSNs and in sustentacular cells.

43 thelium, Cbr2 is a new anatomical marker for sustentacular cells.

44 mina, shift apically, and differentiate into sustentacular cells.

45 he epithelium containing nuclei belonging to sustentacular cells.

46 s contain gland cells, and some also include sustentacular cells.

47 ry neurons in addition to the primary target sustentacular cells.

48 ory neurons relative to olfactory epithelial sustentacular cells.

49 tor expression and inflammatory responses in sustentacular, endothelial, and myeloid cell clusters al

50 expressed in olfactory receptor neurons and sustentacular support cells.

51 omposed of olfactory sensory neurons (OSNs), sustentacular supporting cells, and several types of non

52 eas in olfactory epithelial cells, including sustentacular (SUS) and Bowman's gland cells (BGC), type

53 y acts to suppress Ascl1 via HES1 and drives sustentacular (Sus) cell differentiation during adult ep

54 revealed that the perikarya and processes of sustentacular (Sus) cells expressed apoE-like immunoreac