ライフサイエンスコーパス: reproductive phase

1 nding of how growth is controlled during the reproductive phase.

2 hich in annual crop plants overlaps with the reproductive phase.

3 with peak levels of expression during early reproductive phase.

4 he progression from late vegetative to early reproductive phase.

5 ensitivity to temperature mainly during late reproductive phase.

6 ing the switch from vegetative growth to the reproductive phase.

7 colony transition from the ergonomic to the reproductive phase.

8 alt stress under field conditions during the reproductive phase.

9 ollected during the juvenile, vegetative and reproductive phases.

10 various processes during the vegetative and reproductive phases.

11 ccuracies ranging from 0.763 to 1.000 across reproductive phases.

12 uted uniformly throughout the alga; in early reproductive phase, Aaknox1 is present in a gradient wit

13 During the reproductive phase, AGL15 accumulates transiently in flo

14 n take 2-20 years to transition to the adult reproductive phase and produce fruit.

15 Eps-2B acted more specifically in the early reproductive phase and slightly altered FLN without affe

16 QTLs associated with length of the reproductive phase and time to flower were found on YL-0

17 how that prolonged flowering leads to longer reproductive phases and activity periods when plants are

18 the TS, and stem elongation during the early reproductive phase, and that downregulation of SVP genes

19 s, changed the amount of overlap between the reproductive phases, and created possibilities for an al

20 s TERMINAL FLOWER 1, both the vegetative and reproductive phases are greatly extended.

21 of the transition from the vegetative to the reproductive phase, as LEAFY is both necessary and suffi

22 istems that undergo arrest at the end of the reproductive phase behave at the transcriptomic level as

23 fy candidate genes involved in vegetative-to-reproductive phase change in Norway spruce.

24 ox transcription factor in the vegetative-to-reproductive phase change in Norway spruce.

25 The vegetative-to-reproductive phase change in tulip (Tulipa gesneriana) i

26 Retention of juvenile traits in the adult reproductive phase characterizes a process known as neot

27 The transition from vegetative to reproductive phases during Arabidopsis development is th

28 a temporal sequence of juvenile, adult, and reproductive phases, each marked by the expression of ph

29 transition from the vegetative phase to the reproductive phase entails the orchestration of new grow

30 During the reproductive phase ERA promotes the establishment of the

31 mental transition from the vegetative to the reproductive phase in Arabidopsis, whereas its closest p

32 ruption of gene expression timing during the reproductive phase in field-grown rice panicles acclimat

33 The end of the reproductive phase in monocarpic plants is determined by

34 formation during both the vegetative and the reproductive phase in snapdragon.

35 in the transition from the vegetative to the reproductive phase in the facultative long-day plant Ara

36 Monocarpic plants have a single reproductive phase in their life.

37 f these two variables, especially during key reproductive phases in important temperate food crops, s

38 Transition to the reproductive phase, inflorescence formation and flower d

39 ateral shoots at its flanks, while the later reproductive phase is characterized by the formation of

40 In rice (Oryza sativa), the reproductive phase is initiated by exposure to short day

41 et how this response is coordinated with the reproductive phase is unclear.

42 em to the developmental needs of the ensuing reproductive phase it had originally set into motion.

43 wering with the seasons to ensure that their reproductive phase occurs in favorable conditions.

44 al meristem that it is time to switch to the reproductive phase of its development.

45 orphological indicator, is indicative of the reproductive phase of the animal, lengthening during mat

46 e 4-5 doublings in nuclear DNA that mark the reproductive phase of the erythrocytic cycle.

47 ifferences between species in the growth and reproductive phase of the life cycle that promote storag

48 stress during the late vegetative and early reproductive phases of crop growth accounting for the ma

49 demethylation prolonged both vegetative and reproductive phases of development.

50 Most research is focused on the early and reproductive phases of organisms, which are rather brief

51 ricted cell types during both vegetative and reproductive phases of the Arabidopsis life cycle.

52 owering stages led to shorter vegetative and reproductive phases, respectively, which resulted in sho

53 emperatures below 20/10 degrees C during its reproductive phase resulting in substantial loss of flow

54 ptible to cold stress, especially during its reproductive phase, resulting in significant flower and

55 y molecular composition across six different reproductive phases spanning six pregnant and seven pseu

56 previous observation that at the end of the reproductive phase the arrested SAM behaves as a dormant

57 ersely, restoring egg production at the late reproductive phase through mating with males or inducing

58 a transition from the juvenile phase to the reproductive phase to be competent to produce flower bud

59 lowering within a season), to vegetative and reproductive phases, to the total lifespan of the indivi

60 e Ontology (GO) categories in 'vegetative to reproductive phase transition of meristem'.

61 a role for the lg2 gene in the vegetative to reproductive phase transition of the shoot apex.

62 scence architecture and in the vegetative to reproductive phase transition.

63 on is required for an accurate vegetative to reproductive phase transition.

64 A successful transition from vegetative to reproductive phase was initiated by salt-induced early f

65 Mites in their reproductive phase were then fed a diet composed of one

66 ALA1 (AP1) are pivotal for the switch to the reproductive phase, where instead of leaves the shoot ap