ライフサイエンスコーパス: stolon

1 sues and induced by short days in leaves and stolons.

2 ole of PP2A in the tuberization induction in stolons.

3 sport from the leaf to the stem and into the stolons.

4 sect predation on leaves, and photoperiod in stolons.

5 o a short-day photoperiod in both leaves and stolons.

6 sues and induced by short-days in leaves and stolons.

7 d high in the apical 1 to 2 mm of tuberizing stolons.

8 being detected in leaves and the highest in stolons.

9 eristem dome and primordia and in developing stolons.

10 Structures such as stolons and nematocyst-laden tentacles, induced to deter

11 Instead, polyps transformed into stolons and then budded polyps.

12 d a significant reduction in LOX activity in stolons and tubers.

13 scripts was restricted to developing tubers, stolons, and roots and that mRNA accumulation correlated

14 Stolons appear to be juvenilized zooids and to originate

15 Although individual stolons are eventually overgrown by conspecifics, they r

16 We conclude that StPP2Ac2b acts in stolons as a positive regulator tuber induction, integra

17 As the degree of stolon branching influences the number and size distribu

18 3'-untranslated region, are not expressed in stolons but display a gradual increase in expression lev

19 Stolons can be produced by colonies of Membranipora memb

20 nvertase in the subapical region of swelling stolons, consistent with the switch from apoplastic to s

21 Here, we show that the stolon deficiency trait of the runnerless (r) natural mu

22 ogy of potato plants and also in controlling stolon development and maintaining tuber dormancy.

23 tuberosum), tubers develop from underground stolons, diageotropic stems which originate from basal s

24 axillary meristem is essential for inducing stolon differentiation.

25 Stolons (elongated stems) are used for asexual reproduct

26 d main branches than control plants, reduced stolon formation, together with a dwarfing phenotype and

27 The expression profile of StBEL5 induced in stolons from plants grown under long-day conditions reve

28 Stolons from StPP2Ac2b-OE plants show higher tuber induc

29 strategy of large colonies, we suggest that stolons function to limit space occupied by small coloni

30 at is transcribed in leaves, moves down into stolons in response to short days, and induces tuber for

31 ion during the developmental transition from stolons into tubers, in which there is an increased dema

32 originates in the leaf, and its movement to stolons is induced by a short-day photoperiod.

33 d seven distinct interacting proteins from a stolon library of potato.

34 a complex life history of multigenerational, stolon-like asexual reproduction, interspersed with disp

35 GA up-regulates StPP2Ac2b expression in stolons, possibly as part of the feedback system by whic

36 In strawberry, stolon production is essential for vegetative propagatio

37 Since stolon production is primarily a strategy of large colon

38 blastema developed at the aboral pole after stolon removal.

39 s and (14)C sugar partitioning in tuberizing stolons revealed a distinct difference between the apica

40 ase activity in nontuberizing and tuberizing stolons revealed a marked decline in soluble invertase i

41 e within the family, such as modified stems (stolons) that develop into edible tubers.

42 ) gene was obtained while screening a potato stolon tip cDNA expression library with 35S-labeled calm

43 formation by mediating hormone levels in the stolon tip.

44 udied with higher expression in the stem and stolon tip.

45 NA resulted in its preferential transport to stolon tips and enhanced tuber production.

46 ease in the levels of GA 20-oxidase1 mRNA in stolon tips from long-day plants.

47 t but insensitive to photoperiod, whereas in stolon tips growing in the dark, promoter activity is en

48 This movement of RNA to stolon tips is correlated with enhanced tuber production

49 the induction of StBEL5 promoter activity in stolon tips under short days.

50 preferential accumulation of the BEL5 RNA in stolon tips under short-day conditions.

51 ecific promoter, the movement of BEL5 RNA to stolon tips was facilitated by a short-day photoperiod,

52 tBEL5 transcripts move through the phloem to stolon tips, the site of tuber induction.

53 and move across a graft union to localize in stolon tips, the site of tuber induction.

54 and move across a graft union to localize in stolon tips, the site of tuber induction.

55 reased by almost 80% during development from stolons to mature tubers but it increased about seven-fo

56 anscribed in leaves and moves into roots and stolons to stimulate growth.

57 n gene expression during the transition from stolons to tubers coincides with an increase of histone

58 in abundance of miR156 has been observed in stolons under tuber-inductive (short-day) conditions, in

59 In stolons undergoing extension growth, apoplastic phloem u

60 port of their mRNAs from leaves to roots and stolons, whereas suppression lines of these two RNAs exh

61 ze of interacting colonies determine whether stolons will be produced.

62 ion rates in vitro, as compared to wild type stolons, with no differences in the number of tubers obt