ライフサイエンスコーパス: double fertilization

1 and redundantly control gamete fusion during double fertilization.

2 This process is known as double fertilization.

3 ametophyte is required for sperm release and double fertilization.

4 lation, and contributions of male gametes to double fertilization.

5 rm cells to the female gametophyte to effect double fertilization.

6 -siRNAs in controlling sperm function during double fertilization.

7 plying roles in cell-cell recognition during double fertilization.

8 he degenerating synergid cytoplasm to effect double fertilization.

9 ich generates the two sperm cells needed for double fertilization.

10 nfd1 is also affected in karyogamy during double fertilization.

11 fuse with an egg and central cell to achieve double fertilization.

12 d by the pollen tube to the ovule to achieve double fertilization.

13 to deliver sperm cells to female gametes for double fertilization.

14 of the egg by the B containing sperm during double fertilization.

15 nd PT rupture, releasing the sperm cells for double fertilization.

16 e pollen grain on the stigma and ending with double fertilization.

17 n tubes burst to deliver the sperm cells for double fertilization.

18 plants, two pairs of gametes participate in double fertilization.

19 as it facilitates gametophyte formation and double fertilization, a developmental process of enormou

20 In double fertilization, a reproductive system unique to fl

21 I is expressed during pollen tube reception, double fertilization and early seed development.

22 ube reception, LORELEI also functions during double fertilization and early seed development.

23 Flowering plants might have coevolved double fertilization and imprinting to prevent parthenog

24 rinted gene that functions immediately after double fertilization and supported the model that a pass

25 o because the two sperms that participate in double fertilization are genetically identical.

26 Thus, each female cell type involved in double fertilization displays a characteristic [Ca2+]cyt

27 he endosperm is one of two products from the double fertilization event that occurs during sexual rep

28 A unique feature of flowering plants is a double-fertilization event in which the sperm fertilize

29 loid embryo-nourishing tissue resulting from double fertilization, existing QTL mapping models requir

30 ccumulate in angiosperm tissues derived from double fertilization (i.e. the embryo, suspensor, and en

31 Although double fertilization in angiosperm was discovered in 189

32 As one of two sexual products resulting from double fertilization in angiosperms, the endosperm nouri

33 ially in the organs and tissues derived from double fertilization in flowering plants (i.e. the embry

34 the glc mutant, suggesting that evolution of double fertilization in flowering plants involved acquis

35 The endosperm, a result of double fertilization in flowering plants, is a triploid

36 djusting the sperm cell shape for successful double fertilization in flowering plants.

37 er function that is manifested by incomplete double fertilization in plants defective for both genes.

38 ossible to study the genetic significance of double fertilization in the evolution of higher plants.

39 through the carpel toward the ovules, where double fertilization is executed.

40 Since the discovery of double fertilization, it has been recognized that flower

41 The success of double fertilization largely depends on compatible commu

42 perm cells are vulnerable and rupture before double fertilization, leading to failed seed set, which

43 How double fertilization leads to the establishment of disti

44 In angiosperms, double fertilization of the egg and central cell of the

45 Double fertilization of the egg cell and the central cel

46 , karyogamy occurs three times: twice during double fertilization of the egg cell and the central cel

47 Double fertilization of the embryo sac by the two sperm

48 In angiosperms, double fertilization of the embryo sac initiates the dev

49 al haploid induction (HI), which occurs when double fertilization precedes maternal (egg cell) genome

50 role of [Ca2+]cyto signals during the entire double fertilization process in Arabidopsis.

51 the angiosperm (flowering-plant) life cycle, double fertilization represents the hallmark between dip

52 In plants, double fertilization requires successful sperm cell deli

53 Just prior to double fertilization, sperm nuclei within embryo sacs co

54 he female gametophyte, the embryo sac, where double fertilization takes place.

55 ryos formed during a rudimentary process of "double fertilization" that evolved in the ancestors of a

56 al reproduction in flowering plants involves double fertilization, the union of two sperm from pollen

57 may be transmitted through plasmogamy during double fertilization to effect immediate post-fertilizat

58 ube releases the two sperm cells, permitting double fertilization to take place.

59 In angiosperms, double fertilization triggers the concomitant developmen

60 tness by one of the two original products of double fertilization was the establishment of endosperm,

61 as "flower-like" reproductive structures and double fertilization, were independently derived, wherea

62 Flowering plant sexual reproduction requires double fertilization, yielding embryo and endosperm seed