ライフサイエンスコーパス: body axes

1 responding to rotation around three distinct body axes.

2 nding on their positions with respect to the body axes.

3 velopment is the establishment of the future body axes.

4 udding animals establish and maintain linked body axes.

5 animals with linked but completely opposite body axes.

6 sential for the development of the embryonic body axes.

7 ng the anterior-posterior and dorsal-ventral body axes.

8 rient diverse structures with respect to the body axes.

9 low resulting from rotation around different body axes.

10 bit precise orientations with respect to the body axes.

11 simultaneous recordings along the different body axes.

12 mining how such polarity is aligned with the body axes.

13 orthogonal dorsoventral and anterioposterior body axes.

14 ture is highly polarized with respect to the body axes.

15 coordinated patterning of tissues along the body axes.

16 ential for proper establishment of the major body axes.

17 dorsal-ventral and anterior-posterior (A-P) body axes, although the molecular mechanism underlying p

18 involves cell fate decisions that define the body axes and establish pools of progenitor cells.

19 unagi/Y14 is required to establish the major body axes and for the localization of primordial germ ce

20 indicate that pbx promotes pole formation of body axes and formation of regenerative progenitors for

21 als play important roles in establishing the body axes and germ layers in the vertebrate embryo.

22 t developing hemichordates retain the larval body axes and major larval tissues after metamorphosis i

23 le cell-to-oocyte signal to define the major body axes and to localize components necessary for deter

24 The Drosophila body axes are established in the oocyte during oogenesis

25 ed by proper cell polarity in the developing body axes are fundamental to the elongation of the notoc

26 that control their alignment relative to the body axes are unknown.

27 pole, which is key to forming the embryonic body axes as well as the germline in most vertebrates.

28 (MTOC) relative to the cell nucleus and the body axes, as a marker of cell polarity.

29 ventral mesoderm, induce extensive secondary body axes, block mesoderm induction by BMP4 and directly

30 xplain regional specification of tissues and body axes during animal development.

31 The ectopic and primary body axes form side-by-side conjoined twins, with the se

32 g in the regeneration and maintenance of the body axes have been uncovered, among other regulatory fa

33 sing antisense morpholinos (MOs) led to bent body axes, hydrocephalus and oedema.

34 The two main body axes in Drosophila become polarised as a result of

35 rfamily, play a key role in establishing the body axes in many vertebrates, but their role in teleost

36 ed by the mother to the embryo determine the body axes in most animals.

37 ord coordinates the development of all three body axes in the vertebrate body plan.

38 The ability of CKI to induce secondary body axes in Xenopus embryos was reduced by the B56 regu

39 Defining the three body axes is a central event of vertebrate morphogenesis

40 al orientation of hair cells relative to the body axes is established through an interaction between

41 Patterning along developing body axes is regulated by gradients of transcription fac

42 To establish the major body axes, late Drosophila oocytes localize determinants

43 ining transcription factors that pattern the body axes of animal embryos.

44 The body axes of Drosophila are established during oogenesis

45 tial domains along the anteroposterior (A/P) body axes of many organisms.

46 ly leading to the establishment of the major body axes of the animal.

47 The establishment of the major body axes of the Drosophila egg and future embryo requir

48 nterior-posterior (A-P) and left-right (L-R) body axes of the vertebrate embryo.

49 t, and molecules involved in determining the body axes provide a coordinate system for subsequent pat

50 nto distinct territories and act to organize body axes, regulate growth, maintain stem cell niches, o

51 s a wide range of developmental events, from body axes specification in insects to cardiac developmen

52 quires regional specification along multiple body axes, the proliferation and differentiation of prog