ライフサイエンスコーパス: ligule

1 edge-shaped tissues called auricles, and the ligule, an epidermally derived fringe.

2 An epidermally derived ligule and a joint-like auricle develop at the blade/she

3 bsence of liguleless1 (Ig1) gene expression, ligule and auricle are not formed, and the blade-sheath

4 The maize ligule and auricle are structures on the maize leaf that

5 ction in narrowing the region from which the ligule and auricle develop in a typical maize leaf.

6 two genes known to be uniquely necessary for ligule and auricle development.

7 re affected before the first visible sign of ligule and auricle formation.

8 The ligule and auricle mark the boundary between distal blad

9 Specialized ligule and auricle structures form at the blade-sheath b

10 unction specifies the precise position where ligule and auricle will develop.

11 ations change the shape and position of both ligule and auricle, thus disturbing the overall pattern

12 ifferentiate into the specialized tissues of ligule and auricle.

13 like members of the Kn1 family, affects the ligule and auricle.

14 mutation, liguleless2-reference (lg2-R), the ligule and auricles are often absent or positioned incor

15 he junction between blade and sheath are the ligule and auricles, both of which are absent in the rec

16 defined boundary even in the absence of the ligule and auricles.

17 icle also develops immediately distal to the ligule and contributes to blade angle.

18 The ligule and the associated auricle are dispensable struct

19 Recessive liguleless1 mutants lack ligules and auricles and have upright leaves.

20 the homologies of enigmatic tissues, such as ligules and stipules, are proposed, tests of these hypot

21 igule displacement, sheath-like with ectopic ligule, and auricle-like.

22 he blade-sheath boundary disruption, shorter ligule, and disrupted auricle morphology of RNAi lines r

23 separated by a linear epidermal fringe, the ligule, and two wedge-like structures, the auricles.

24 e), sheath-like with ectopic ligule (ectopic ligule), auricle-like, macro-hairless blade and wild-typ

25 sed of, in proximal to distal order, sheath, ligule, auricle and blade.

26 ting lg1 and lg2 play different roles in the ligule-auricle induction mechanism.

27 Mutations disturbing the ligule/auricle region disrupt leaf patterning and impact

28 project at an angle from the stem, while the ligule comprises an epidermally derived fringe.

29 we characterize the stages of PLB and early ligule development in terms of topography, cell area, di

30 We discovered that during ligule development, the E class MADS-box TF GRCD5 activa

31 ss1 (lg1), previously defined by its role in ligule development.

32 s phenotype is not a consequence of abnormal ligule development.

33 sector classes: wild type, sheath-like with ligule displacement, sheath-like with ectopic ligule, an

34 gule (sheath-like), sheath-like with ectopic ligule (ectopic ligule), auricle-like, macro-hairless bl

35 1, we reveal LG1 accumulation at the site of ligule formation and in the axil of developing tassel br

36 ithin the PLB, which ultimately produces the ligule fringe.

37 A surprising number of these "ligule genes" have also been shown to function during le

38 se change gene tsh4 upstream of tsh1 and the ligule identity gene liguleless2 (lg2).

39 axis of wild-type leaf primordia undergoing ligule initiation and compared transcript accumulation i

40 an undifferentiated leaf base just above the ligule into highly specialized mesophyll cells (MCs) and

41 g3-O) transforms the leaf blade, auricle and ligule into sheath around the midrib region.

42 pe and tassel architecture, and suggests the ligule is a boundary similar to that at the base of late

43 The maize ligule is an adaxial membranous structure on the leaf th

44 The maize ligule is an epidermis-derived structure that arises fro

45 LA1 promoter activity was observed in roots, ligules, leaves, sheaths, pollen grains, and surrounding

46 r indirectly) to transmit and receive a make-ligule-make-auricle inductive signal.

47 was highest in the basal-most 3 cm above the ligule of an approximately 50-cm growing adult leaf.

48 Stipules and ligules: ontogeny of primordial elaborations 715 VII.

49 branch initiation are redeployed to regulate ligule outgrowth from leaf primordia.

50 e specified within the ligular region before ligule outgrowth.

51 adoption of the sheath-like phenotype at the ligule position (a proximal cell fate), whereas later Lg

52 Most aspects of the Gn1-R phenotype, such as ligule position, inhibition of auricle development, and

53 s LG2 mRNA expression in meristem/developing ligule regions.

54 ypes in the leaf: sheath-like with displaced ligule (sheath-like), sheath-like with ectopic ligule (e

55 at carry the B73 version of Sympathy for the ligule (Sol-B) fail to grow under hot conditions, but th

56 n regulating the elongation of showy ventral ligules that play a major role in pollinator attraction.

57 violet (UV)-absorbing flavonol glycosides in ligules (the 'petals' of sunflower inflorescences).

58 rentiation as well as the development of the ligule, which separates the distal blade and proximal sh

59 The proximal region produces the ligule, while the distal region contributes to one epide

60 Ligules with larger ultraviolet patterns, which are foun