ライフサイエンスコーパス: Muller glial cell

1 tinal pigment epithelium and for neighboring Muller glial cells.

2 tion of rod photoreceptors at the expense of Muller glial cells.

3 er modified LDL induces apoptosis in retinal Muller glial cells.

4 f cone proteins, and decreased activation of Muller glial cells.

5 differentiation and/or survival of postnatal Muller glial cells.

6 ordinately switched from horizontal cells to Muller glial cells.

7 ted locus of Chx10 expression in a subset of Muller glial cells.

8 progenitor cells or partially differentiated Muller glial cells.

9 tor cells at the expense of interneurons and Muller glial cells.

10 as by coculturing with either astrocytes or Muller glial cells.

11 ipal K(+) channel subunit expressed in mouse Muller glial cells.

12 sed in the retinal pigment epithelium and in Muller glial cells.

13 clones containing amacrine interneurons and Muller glial cells.

14 the receptor in the horizontal, bipolar and Muller glial cells.

15 ence some properties of rods or the adjacent Muller glial cells.

16 zed cycle, which appears to involve adjacent Muller (glial) cells.

17 uggest that a Cx43 isoform may be present in Muller glial cells and neurons of the distal catfish ret

18 We show that targeting both Muller glial cells and photoreceptors with CRB2 ameliora

19 eas CA XIV is expressed within the retina in Muller glial cells and retinal pigment epithelium.

20 In addition to being expressed by Muller glial cells and the inner nuclear layer, addition

21 poproteins might allow communication between Muller glial cells and the neurons that they support, in

22 ound to be sufficient to drive production of Muller glial cells and/or RPCs.

23 , appearance of prominent GFAP expression in Muller glial cells, and a fourfold increase in the numbe

24 inwardly rectifying K+ (KIR) channels of the Muller (glial) cells are pathways for the redistribution

25 Instead, excess amacrine, bipolar, and Muller glial cells are generated in the mutant.

26 Muller glial cells are the major support cell for neuron

27 Muller glial cells are the major type of glia in the mam

28 Muller glial cells are the source of retinal regeneratio

29 es of retinal neurons, as well as non-neural Muller glial cells, are specified in young embryos.

30 r cells significantly increases the ratio of Muller glial cells as observed by modulation of NM23 act

31 laminin beta2 is present before the birth of Muller glial cells; at this stage of development, lamini

32 Muller glial cells, but not retinal astrocytes or microg

33 ACBP was localized to Muller glial cells by hybridization histochemistry and b

34 B2 in adult mouse photoreceptors, but not in Muller glial cells, causes sporadic loss of adhesion bet

35 (Rock2b) similarly disrupted INM and reduced Muller glial cell cycle reentry.

36 ng injury-induced Muller glia, and that each Muller glial cell divides asymmetrically only once to pr

37 produces rod photoreceptors from infrequent Muller glial cell division, yielding neuronal progenitor

38 In this report, we examine the genesis of Muller glial cells during zebrafish (Danio rerio) eye de

39 ost retinal neural cell types and promotes a Muller glial cell fate decision.

40 predominantly localized in nuclei of retinal Muller (glial) cells, ganglion cells, and astrocytes, bu

41 Muller glial cell hypertrophy and progressive cone degen

42 dentify the molecular machinery that defines Muller glial cell identity and function, single cell gen

43 tion of the Notch signaling pathway restores Muller glial cell identity to Sox2 mutant cells, but doe

44 brillary acidic protein) was observed within Muller glial cells in areas of retina overlying drusen.

45 e receptor-inducing activity) is produced by Muller glial cells in culture, because significant activ

46 idence for selective biosynthetic changes of Muller glial cells in diabetes.

47 rtially rescue the production of bipolar and Muller glial cells in the absence of Notch1 in mitotic a

48 ith the appearance of significant numbers of Muller glial cells in the developing retina.

49 Barhl2 inhibits the formation of bipolar and Muller glial cells, indicating that Barhl2 is able to fu

50 ree cultures of Muller glia, as well as by a Muller glial cell line but not several neuroblastoma cel

51 line is a novel, conditionally immortalized Muller glial cell line isolated from the P10 mouse retin

52 study was to generate and characterize novel Muller glial cell lines from the postnatal mouse retina.

53 y immortalized (C57M10 [C57BL/6 Muller P10]) Muller glial cell lines were selected by differential ad

54 waves reliably induce calcium transients in Muller glial cells (MCs).

55 l nervous system (CNS) tissue, we eliminated Muller glial cells (MG) from the zebrafish retina.

56 ersely, overexpression of sEH in the retinal Muller glial cells of non-diabetic mice resulted in simi

57 ctivity of multiple types of ion channels in Muller glial cells of the mammalian retina.

58 We tested if CRB expression restricted to Muller glial cells or photoreceptors or co-expression in

59 t increased proliferation and apoptosis, and Muller glial cell overproduction in the developing retin

60 ting neuronal populations, yet expression in Muller glial cells persists into adulthood.

61 We conclude that p27Kip1 regulates Muller glial cell proliferation during reactive gliosis.

62 )(nt20) retina led to rod precursor, but not Muller glial, cell proliferation.

63 regeneration response that is marked by the Muller glial cells reentering the cell cycle to produce

64 a, neuronal alterations, and loss of retinal Muller glial cells resembling human macular telangiectas

65 structural markers of disease may represent Muller glial cell response to photoreceptor stress and a

66 retinae of diabetic rats and in rat retinal Muller glial cells (rMC-1) cultured in high glucose.

67 nd in rod photoreceptors, amacrine cells and Muller glial cells, suggesting that Sonic hedgehog promo

68 Shortly thereafter, Muller glial cells upregulate genes typical of gliosis a

69 Indirect evidence suggests that the Muller/glial cell water channel aquaporin-4 (AQP4) modul

70 abnormalities observed in photoreceptors and Muller glial cells were confined to retinal regions dire

71 he subretinal space and weaker activation of Muller glial cells were exhibited by Tlr3(-/-)Rdh8(-/-)

72 Muller glial cells were far fewer in the experimental re

73 ping retina, CRB2 has redundant functions in Muller glial cells, while CRB2 has essential functions i