ライフサイエンスコーパス: surface epithelia

1 scribed, translated, and expressed by ocular surface epithelia.

2 1) and Muc5AC mRNA transcripts by the ocular surface epithelia.

3 re typically organized into large bundles in surface epithelia.

4 eir expected biosynthetic pathways in ocular surface epithelia.

5 y occurs in nonkeratinized stratified ocular surface epithelia.

6 r Pax6 in controlling dynamics of the ocular surface epithelia.

7 n of several aspects of keratin filaments in surface epithelia.

8 ecific mutations on expression in a range of surface epithelia.

9 e mechanism of regulation is similar in most surface epithelia.

10 oligosaccharides in the protection of ocular surface epithelia.

11 voided due to sequestration of microflora by surface epithelia.

12 rtant role in mucin regulation in the ocular surface epithelia.

13 tment of the epidermis and other stratifying surface epithelia.

14 to identify sialomucin complex RNA in ocular surface epithelia.

15 iation-appropriate expression in stratifying surface epithelia.

16 ll fate decisions and differentiation in wet-surfaced epithelia.

17 to preventing damage to and infection of wet-surfaced epithelia.

18 ranscripts were detected in the human ocular surface epithelia and in corneal cell cultures.

19 membrane protein, is expressed by the ocular surface epithelia and localized on the tips of the surfa

20 nds on water and ion transport across ocular surface epithelia and on fluid secretion by lacrimal gla

21 In contrast, immortalized ovarian surface epithelia and ovarian cystadenoma cells showed m

22 including the lung, where it is found in the surface epithelia and serous cells of the submucosal gla

23 mucin MUC16 is expressed by the human ocular surface epithelia and that MUC16 carries the H185 carboh

24 stribution of GalNAc-Ts in the normal ocular surface epithelia and to compare their distribution with

25 iferation or differentiation in any of these surface epithelia are central in the pathogenesis of man

26 membrane mucin produced by the human ocular surface epithelia but is also found in the tear fluid, p

27 e SEAM, cells within it that resemble ocular-surface epithelia can be isolated by pipetting and FACS

28 tissues, including primary cancers, ovarian surface epithelia cells, and cystadenoma cells.

29 Human body-surface epithelia coexist in close association with comp

30 To determine whether ocular surface epithelia express MUC16, the relative expression

31 atin proteins and the filaments they form in surface epithelia has long been appreciated.

32 After replicating in surface epithelia, herpes simplex virus type-1 (HSV-1) e

33 unctional Pax6 in both the optic vesicle and surface epithelia in order to mediate the interactions b

34 tion of MUC16 mRNA and protein in the ocular surface epithelia, in situ hybridization and immunohisto

35 ral protein that is selectively expressed in surface epithelia, including corneal epithelial cells.

36 ferentiation-appropriate expression in other surface epithelia, including epidermis, cervix, and esop

37 The ocular surface epithelia, including the stratified but non-kera

38 tream regulatory region are not expressed in surface epithelia, indicating that loss of the DRR (nucl

39 However, homeostatic regulation of surface epithelia is poorly understood.

40 d by keratin intermediate filaments (IFs) in surface epithelia likely requires that they be organized

41 in combination with demonstrated defects in surface epithelia, may play a role in the vulnerability

42 mbrane-associated mucins expressed by ocular surface epithelia, MUC1 and MUC4, are multifunctional an

43 The membrane-associated mucins of the ocular surface epithelia, MUC1, -4, and -16, are differentially

44 cells, and identify mitosis and apoptosis in surface epithelia of Drosophila imaginal discs.

45 VDR was localized to the surface epithelia of germ-free mice, but to crypt epithe

46 Ocular surface epithelia of Muc1 null mice of the C57BL/6 strai

47 ntly been shown to be produced by the ocular surface epithelia of rats.

48 n the embryo, Pax-6 is expressed strongly in surface epithelia of the adult cornea and conjunctiva.

49 the pattern of Pax-6 gene expression in the surface epithelia of the late embryonic and adult eye.

50 Pax6 continues to be expressed in the ocular surface epithelia of the postnatal eye.

51 n cancer cell lines derived from the ovarian surface epithelia (OSE) of mice with conditional mutatio

52 nditional deletion of Notch1 from the ocular surface epithelia partially recapitulated OS(dnMaml1) ph

53 nt animals in that pustules did not form and surface epithelia remained intact.

54 f keratinocytes in the epidermis and related surface epithelia remains an open question.

55 gative mastermind-like 1 (dnMaml1) in ocular surface epithelia resulted in complete suppression of go

56 sure to desiccating stress stimulates ocular surface epithelia to produce cornified envelope precurso

57 dentify vitamin A-responsive genes in ocular surface epithelia using gene microarray analysis of cult

58 Structure of the ocular surface epithelia was examined by light microscopy, scan

59 y the direct autoimmune insult to the ocular surface epithelia, whereas in MGD patients, with an epit