ライフサイエンスコーパス: sex differentiation

1 proteins known to play an important role in sex differentiation.

2 In mice, CYP17A1 deficiency interferes with sex differentiation.

3 ed by distorted sex ratios that arise during sex differentiation.

4 genes and signaling pathways associated with sex differentiation.

5 candidate master regulator of avian gonadal sex differentiation.

6 These markers also exhibited sex differentiation.

7 element required to complete mammalian male sex differentiation.

8 mals at embryonic day 11.5, prior to gonadal sex differentiation.

9 ress or defense response, or associated with sex differentiation.

10 c expression, preceding the onset of gonadal sex differentiation.

11 ts time of activation is critical in gonadal sex differentiation.

12 this may be a key factor of their autonomous sex differentiation.

13 identify a single gene that integrates both sex differentiation and hormone signalling with sexual a

14 Sex differentiation and hormones are essential for the d

15 est that GABA is involved in mediating brain sex differentiation and may act in both males and female

16 hompsoni revealed genes associated with male sex differentiation and spermatogenesis are expressed as

17 ssion of key genes and proteins during human sex-differentiation and onset of steroidogenesis was eva

18 orphic expression pattern, preceding gonadal sex differentiation, and is capable of responding rapidl

19 thermosensitive genetic triggers for gonadal sex differentiation are largely unknown.

20 The genetic mechanisms involved in sex differentiation are poorly understood, and progress

21 Androgens drive sex differentiation, bone and muscle development, and pr

22 o a defect in dosage compensation or somatic sex differentiation, but to the presence of the Y chromo

23 ibutions of nonrandom sampling to signals of sex differentiation can be excluded.

24 of BgElo12 between the sexes is modulated by sex differentiation cascade.

25 ale) is largely controlled by genes, whereas sex differentiation (development of reproductive structu

26 Genetic control of female sex differentiation from a bipotential gonad in mammals

27 on somatic factors controlled by the somatic sex differentiation gene transformer.

28 d CSP production are coordinately induced by sex differentiation genes and juvenile hormone (JH) sign

29 processing in zebrafish larvae, a stage when sex differentiation has not yet occurred.

30 ted to the hormonal differences arising once sex differentiation has occurred.

31 Here we describe sex differentiation in a wild grayling (Thymallus thymal

32 n distinguish male and female chromatin upon sex differentiation in developing germ cells.

33 he in-depth studies on sex determination and sex differentiation in the closely related B. hebetor.

34 ism and suggest that processes that regulate sex differentiation in the neurotypical brain contribute

35 understanding of the complicated process of sex differentiation in this species and possibly other c

36 est that TGFalpha may regulate postpubertal, sex differentiation in ventricular and periventricular a

37 ursaphelenchus nematodes and find that their sex differentiation is more likely triggered by random,

38 A key player in fern sex differentiation is the phytohormone abscisic acid (A

39 in expression of key genes involved in human sex-differentiation is defined, with identification of n

40 role in embryonic brain development prior to sex-differentiation is unclear.

41 After sex differentiation, LacZ-positive cells were exclusivel

42 The downstream sex differentiation mechanism has been studied via the s

43 a wide variety of brain processes, including sex differentiation, mood, and learning.

44 By contrast, our genetic screen for sex differentiation mutants identifies a Bursaphelenchus

45 AMSDT (which stands for associated with male sex differentiation of tongue sole) in Chinese tongue so

46 ich has been implicated in the regulation of sex differentiation, oogenesis and spermatogenesis.

47 sex- and fruitless-independent branch of the sex differentiation pathway downstream of transformer.

48 opment, and disrupted gene expression of the sex differentiation pathway.

49 pendent of KRAS status, whereas a SNP in the sex-differentiation pathway gene, DMRT1, is strongly pre

50 epithelium is a cellular mosaic of different sex differentiation pathways, and displays extensive sex

51 orate these results and provide insight into sex-differentiation pathways in Platyplectrum Genome ski

52 nscript expression patterns shift during the sex differentiation phase, and ceRNA modulation occurs t

53 led us to discover a recent expansion of the sex-differentiation region and unique evolutionary chang

54 mosomes, have been speculated to function in sex differentiation, spermatogenesis, and Turner syndrom

55 We conclude that sex differentiation starts before hatching, goes through

56 Though no age/sex differentiation was observed, the mean concentration

57 gulated, while three genes related to female sex differentiation were down-regulated in genetic femal

58 zebrafish, of either sex, prior to complete sex differentiation, were examined in this study.

59 w of estrogen sensitivity impacting AVP(PVN) sex differentiation, which is impacted by prenatal BPA e