ライフサイエンスコーパス: rachis

1 is inserted into the skin, and a more distal rachis.

2 parallel barbs branch from the sides of the rachis.

3 iption, but not in the equally proliferative rachis.

4 ion, leading to the fusion and creation of a rachis.

5 ges toward the source and created an ectopic rachis.

6 pidermis hair cells of the lemma, glume, and rachis.

7 ed to a common pool of cytoplasm, termed the rachis.

8 still produce significant concentrations in rachis.

9 n pool of cytoplasm, which we term the proto-rachis.

10 homologous with the ventral groove of modern rachises.

11 e identified the causal mutations in Brittle Rachis 1 (TtBtr1) genes controlling shattering, a key do

12 ssessed barbules when they fused to form the rachis [19].

13 CAP-1 depletion require contractility of the rachis actomyosin corset.

14 Extracts of acai seed and of grape rachis alone or in combination with alpha-tocopherol wer

15 mation and barb fusion, and noggin enhancing rachis and barb branching.

16 ferentiated cortex and medullary pith of the rachis and barb rami.

17 rphogenesis of the ventral components of the rachis and barb rami.

18 of pinnate feathers, which clearly feature a rachis and barbs, on a small, non-avian dromaeosaur from

19 works as a key hub of Wnt signaling to build rachis and converts radial downy to bilateral symmetry.

20 c ring progressively moves towards the proto-rachis and eventually integrates with it.

21 e shown in the NILs and include thinner leaf rachises and stems, twisted leaf rachises, increased ser

22 ue ventrally concave and dorsoventrally thin rachis, and a dorsal groove (sometimes pigmented) that w

23 with actomyosin structures in the cortex and rachis, and its depletion or overexpression led to sever

24 s similar, with higher expression in leaves, rachises, and flowers and lower transcript levels in roo

25 d myosin or Rho kinase demonstrated that the rachis architecture defects associated with CAP-1 deplet

26 Variations in rachis, barb and barbule morphology result in other feat

27 vidence that centralspindlin function at the rachis bridge involves ZEN-4 action on the microtubules

28 ally at 40 mM showed less weight loss (35%), rachis browning (30%) and decay incident (63%) compared

29 gana, with distinctive variation in leaf and rachis characters, exhibits three centers of geographic

30 lter MP concentrations in Cabernet Sauvignon rachis compared to own-rooted varieties, but whether Shi

31 incision experiments revealed an increase in rachis contractility.

32 ed by feather inclusions including a partial rachis-dominated feather.

33 e") with lithic, two-dimensionally preserved rachis-dominated feathers, first recognized in the Jehol

34 an elongate central pair of fully pennaceous rachis-dominated plumes, constituting a new tail plumage

35 ntify as the "medial stripe" visible in many rachis-dominated rectrices of Mesozoic birds.

36 MPs are readily extracted from rachis during fermentation, producing Shiraz wines with

37 ity not dependent on concentration for grape rachis extracts and a concentration-dependent prooxidati

38 Acai seed and grape rachis extracts served as good sources of procyanidins a

39 ant potential of AhJ33 fruit waste (rind and rachis) extracts from three different extraction methods

40 pact of chemotherapeutic agents, whereas the rachis (feather axis) remains unperturbed.

41 f xylem anatomical traits of leaf pinnae and rachises for 20 cycad species.

42 le in feather branching, with BMP4 promoting rachis formation and barb fusion, and noggin enhancing r

43 Rachis fragility, glume shape, and glume tenacity mimick

44 ted traits such as glume shape and tenacity, rachis fragility, spike length, plant height, and spike

45 es disconnect prematurely from the defective rachis, generating embryos of varying sizes.

46 elical barb ridge organization-->creation of rachis-->bilateral symmetry sequence.

47 lusion trials, which significantly increased rachis IBMP concentrations.

48 unolocalisation studies in leaves, stems and rachis in plants at flowering showed GS protein to be pr

49 hinner leaf rachises and stems, twisted leaf rachises, increased serrations of the leaflets, and dram

50 e to three single-flowered spikelets at each rachis internode.

51 two lateral spikelets) are produced at each rachis internode.

52 uted to changes in canopy coverage impacting rachis light exposure.

53 tissues, including seedlings, inflorescence rachis, mature leaves, and flowers.

54 Nanocellulose obtained from banana rachis (NCBR) was loaded (through simple impregnation) w

55 e an inchworm, and twine around and grab the rachis of a flower based on their geometry.

56 3-sec-butyl-2-methoxypyrazine (SBMP) in the rachis of Shiraz bunches sampled during multiple vintage

57 were also found in the epidermis of the leaf rachis of stp mutants.

58 gest that the concave ventral surface of the rachis of these Cretaceous feathers is not homologous wi

59 Analysis of the rachises of their primary feathers shows that the rachis

60 ne," converting the brittle floral axis (the rachis) of the wild-type into a tough, non-brittle form

61 of flexible blades attached to a transverse rachis on the trunk segments; these blades probably func

62 ific adventitious shoot development from the rachis or rachillae of the leaves.

63 e, with leaflets arranged in succession on a rachis, or palmate, with leaflets clustered together at

64 leaf margins, shortened petioles, increased rachises, petioles acquiring motor organ characteristics

65 eristems on leaves, and by the conversion of rachis-petiolule junctions into "axillary" positions whe

66 pithelial cells became permanent structures (rachis, ramus, barbules).

67 cant decrease (p < 0.01) in Fusarium-damaged rachis rate, Fusarium-diseased kernel rate and DON conte

68 1 resulted in dwarf plants with petioles and rachises reduced in length, and the epidermal cells gain

69 The nonbrittle rachis, resulting in a seed head which does not shatter

70 verse traits, including increased cob width, rachis segment length, and cupule width.

71 In general, rachis showed higher antioxidant capacity than pomace ex

72 ons that gave rise to types with non-fragile rachises, soft glumes, and free-threshing seed.

73 ous histodifferentiation of the barb rami or rachis suggests that these feathers could have been form

74 arogyasri Community Health Insurance Scheme (RACHIS) that provides access to free tertiary care for m

75 g oogenesis to maintain the structure of the rachis, the central core of cytoplasm that connects the

76 For both rind and rachis, the maceration technique yielded extracts with t

77 It was defective in infectious growth in rachis tissues and spreading in wheat heads.

78 4600 which is upregulated in wheat spike and rachis tissues during FHB infection.

79 spreading and mainly grew intercellularly in rachis tissues.

80 is important for infectious growth in wheat rachis tissues.

81 ells connect to a shared cytoplasm core (the rachis) via intercellular bridges.

82 t selections of germplasm with a non-brittle rachis were made during the domestication of barley by f

83 ses of their primary feathers shows that the rachises were much thinner and weaker than those of mode

84 Only if the primary feather rachises were solid in cross-section (the strongest stru

85 ical similarities (e.g., proportionally wide rachis with a "medial stripe") with lithic, two-dimensio

86 Many feathers exhibit a short, slender rachis with alternating barbs and a uniform series of co

87 pike) comprises a multi-noded central stalk (rachis) with tri-partite clusters of uni-floretted spike