ライフサイエンスコーパス: lentoid

1 rmation of the lens-like structures known as lentoids.

2 me course nor extent of dye transfer between lentoids.

3 The lentoids, a unique morphologic structure that is an indi

4 scriptome analysis of hESC- and iPSC-derived lentoid bodies at differentiation day 25.

5 criptome profiling of hESC- and iPSC-derived lentoid bodies at differentiation day 25.

6 quencing (RNA-Seq) of hESC- and iPSC-derived lentoid bodies detected expression (>=0.659 RPKM) of 13,

7 Lentoid bodies expressed and accumulated lens-specific m

8 Here, we report generation of lentoid bodies from human embryonic stem cells (hESCs) a

9 structure analysis of hESC- and iPSC-derived lentoid bodies identified closely packed lens epithelial

10 Generation of lentoid bodies or lens-like structures using pluripotent

11 scriptome analysis of hESC- and iPSC-derived lentoid bodies revealed 13,563 (>96%) genes common in bo

12 l transcriptomes with hESC- and iPSC-derived lentoid bodies transcriptomes and identified > 96% overl

13 The formation of lentoid bodies was most efficient in the presence of FGF

14 -like cells and differentiated 3-dimensional lentoid bodies.

15 Prox-1 and beta-crystallin-positive ectopic lentoid bodies.

16 re allowed to differentiate in vitro to form lentoid bodies.

17 FGF2 and Wnt-3a, yielding approximately 1000 lentoid bodies/30-mm well.

18 scriptomes and identified > 96% overlap with lentoid body transcriptomes.

19 differentiate into gamma-crystallin-positive lentoids by high-dosage bFGF treatment.

20 -TPA-sensitive isoform) were detected in the lentoid cell.

21 ation of PKC gamma to the plasma membrane of lentoid cells and significantly reduced the transfer of

22 me, present in lens fibers, was activated in lentoid cells by TPA, a known activator of PKC.

23 of differentiated, fiber-like cells (termed lentoid cells) express Cx49 and connexin46 (Cx46), but n

24 minimal amounts of PKC alpha were present in lentoid cells.

25 cifer Yellow dye between epithelial, but not lentoid, cells.

26 In contrast to the epithelial connexins, the lentoid connexins Cx49 and Cx46 were unaffected by even

27 (PKC) isoenzymes in the chicken lens and in lentoid-containing cultures and to study the effects of

28 d S118 were constitutively phosphorylated in lentoid-containing cultures, and that treatment with TPA

29 Analysis of lentoid cultures by immunofluorescence revealed that PKC

30 In spite of lentoid dye transfer being refractory to beta-TPA, signi

31 ays in culture, cell morphology changed, and lentoid formation was evident.

32 Lentoids, multicellular structures with characteristics

33 s accompany a previously unknown spheroid to lentoid shape transition of the lens as detected by our

34 ired lentoids was monitored by observing the lentoid-to-lentoid transfer of fluorescent dyes, either

35 ds was monitored by observing the lentoid-to-lentoid transfer of fluorescent dyes, either calcein or

36 Dye transfer between lentoids was inhibited upon the addition to the medium o

37 p junction formation between cells of paired lentoids was monitored by observing the lentoid-to-lento

38 c chicken lens epithelial cells that develop lentoids were used for differentiation-related studies,