ライフサイエンスコーパス: Asteraceae

1 collina, all belonging to tribe Eupatorieae (Asteraceae).

2 ly related woody species of the daisy group (Asteraceae).

3 e of the Moroccan plant Cladanthus arabicus (Asteraceae).

4 elf-incompatible daisy Senecio squalidus L. (Asteraceae).

5 um L. and Silphium terebinthinaceum Jacquin (Asteraceae).

6 of the Hawaiian and North American Madiinae (Asteraceae).

7 cestor of the Hawaiian silversword alliance (Asteraceae).

8 olite in species of gumweed (Grindelia spp., Asteraceae).

9 he plant kingdom, most notably in the family Asteraceae.

10 basis of which is not well understood in the Asteraceae.

11 generated the enormous species diversity of Asteraceae.

12 well as in the closely related tribes of the Asteraceae.

13 the elaborate inflorescence architecture in Asteraceae.

14 rnates hosts between the Grossulariaceae and Asteraceae.

15 older than previously known records for the Asteraceae.

16 than five folds higher than to Oleaceae and Asteraceae.

17 economically important angiosperm families, Asteraceae.

18 the elaborate inflorescence architecture of Asteraceae.

19 include Myrtaceae, Lauraceae, Lamiaceae, and Asteraceae.

20 emical composition of Cirsium spinosissimum (Asteraceae), a perennial thistle.

21 raits and habitat associations in Lasthenia (Asteraceae), a small clade of predominantly annual plant

22 ecological divergence in Achillea borealis (Asteraceae), a widespread tetraploid plant with localize

23 n families Betulaceae, Oleaceae, Poaceae and Asteraceae across Europe.

24 nt databases cover the Solanaceae (SolR) and Asteraceae (AMIR) families while an update from NCBI Tax

25 tetraploid populations of Achillea borealis (Asteraceae), an autopolyploid complex consisting of tetr

26 Elephantopus elatus (Asteraceae), an herbaceous savanna plant with low-growin

27 y for six microgreen genotypes, belonging to Asteraceae and Brassicaceae: P, S, K, Ca, Cl, Mn, Fe, Ni

28 Seed oils of a number of Asteraceae and Euphorbiaceae species are enriched in 12-

29 vestigated the degree of size matching among Asteraceae and their pollinators and its relationship wi

30 barbeyi (Ranunculaceae), Erigeron speciosus (Asteraceae), and Polemonium foliosissimum (Polemoniaceae

31 ncluding large and recent transfers from the Asteraceae, and also from Lamiaceae.

32 restriction site analysis of Argyranthemum (Asteraceae: Anthemideae), the largest endemic genus of p

33 Asteraceae are clearly monophyletic, yet resolving phylo

34 r than expected given its overall diversity, Asteraceae are the most diverse family on oceanic island

35 Here, we use Tragopogon (Asteraceae) as a model system to discover patterns and t

36 Here, we present the genus Senecio (Asteraceae) as an excellent system to integrate these de

37 Our study places the origin of Asteraceae at ~83 MYA in the late Cretaceous and reveals

38 Psiadia lithospermifolia (Lam.) Cordem (Asteraceae) at 25 ug/ml was the most cytotoxic on both E

39 us group, the paper daisy tribe Gnaphalieae (Asteraceae), based on the hitherto largest taxon samplin

40 plants from three different families, viz., Asteraceae, Boraginaceae and Fabaceae.

41 widely distributed flowering plant families (Asteraceae, Brassicaceae and Solanaceae).

42 leaves from plants of the Poaceae, Fabaceae, Asteraceae, Brassicaceae, and Cucurbitaceae that were gi

43 ide extracted from Artemisia annua L (family Asteraceae; commonly known as sweet wormwood), is highly

44 onium (Solanaceae), and Xanthium strumarium (Asteraceae), comparing metabolites of individual plants

45 The sunflower family, Asteraceae, comprises 10% of all flowering plant species

46 acid desaturase-like enzyme in seeds of the Asteraceae Crepis palaestina and Vernonia galamensis.

47 At the level of single flowers, the Asteraceae CYC genes show a unique function in regulatin

48 iversification rate of Poaceae (grasses) and Asteraceae (daisies), two exceptionally species-rich gra

49 alues database, and GSAD, the Genome Size in Asteraceae database.

50 s of three IAS species: Chromolaena odorata (Asteraceae) Datura stramonium (Solanaceae), and Xanthium

51 with island biogeography predictions, native Asteraceae diversity increases with area and decreases w

52 Most plant species from Asteraceae, Ebenaceae, Erythroxylaceae, and Sapotaceae i

53 nvestigated Mauritius endemic plant families Asteraceae, Ebenaceae, Sapotaceae, and Erythroxylaceae,

54 ng the first committed step emerged early in Asteraceae evolution and identify residues governing pro

55 belongs to the Asteraceae family and is widely used.

56 type; VI-Astragalus type and Myrtaceae; VII-Asteraceae family and VIII-unknown.

57 diversity and evolution, as well as for the Asteraceae family as a whole.

58 The Asteraceae family was found to contain senecionine and l

59 s a perennial herb from the Cichorium genus, Asteraceae family, and is worldwide cultivated.

60 perennial herbaceous plant belonging to the Asteraceae family.

61 cinerariaefolium and related members of the Asteraceae family.

62 yza canadensis), a member of the Compositae (Asteraceae) family, was the first broadleaf weed to evol

63 (Asteraceae) flowers and Pteridium aquilinum (L.) Kuhn (D

64 The megadiverse plant family Asteraceae forms an iconic component of island floras in

65 Symphyotrichum ericoides (Asteraceae) from naturally seleniferous habitat (Pine Ri

66 Silphium integrifolium (Asteraceae) has been identified as a candidate for domes

67 Roman chamomile, Chamaemelum nobile L. (Asteraceae), has been used for medicinal applications, m

68 in the heads of the daisy family of plants (Asteraceae), has not been fully explained.

69 Asteraceae have a global distribution on islands, compri

70 intact genes, were acquired by HGT from the Asteraceae hosts. Nine chromosomes concentrate most of t

71 a 6-y study of 6,357 Echinacea angustifolia (Asteraceae) individuals across 35 remnant prairies in Mi

72 Here, we show that Asteraceae inflorescences (flower heads, or capitula) re

73 the distinction of different flower types in Asteraceae is connected with their independent evolution

74 ages on earth, of which the genus Espeletia (Asteraceae) is a prime example.

75 The large sunflower family, Asteraceae, is characterized by compressed, flower-like

76 al vegetables Apiaceae (parsley and carrot), Asteraceae (lettuce), Brassicaceae (cabbage and broccoli

77 of this entrapped insect carrion on tarweed (Asteraceae: Madia elegans) plants under natural field co

78 us, Madia, Raillardella, and Raillardiopsis (Asteraceae-Madiinae).

79 he indigenous LAB communities of field-grown Asteraceae medicinal plants are plant-specific and habit

80 se from the plant family Apiaceae as well as Asteraceae, members of which possess distinct chemical s

81 hial inflorescences of the sunflower family, Asteraceae, mimic a solitary flower but are composed of

82 Our results reveal Asteraceae offer immense potential for research in ecolo

83 biogeographical and evolutionary patterns of Asteraceae on islands to reveal the magnitude and potent

84 LC-MS profile of Asteraceae plants showed the presence of terpenes, terpe

85 Many Asteraceae plants, such as the dandelion, have a hairy p

86 ion-old allotetraploid Tragopogon miscellus (Asteraceae) plants.

87 uration of Betulaceae, Oleaceae, Poaceae and Asteraceae pollen seasons were examined.

88 In Flaveria trinervia (Asteraceae) seedlings, light-induced signals are require

89 ce the evolution of woodiness in Pericallis (Asteraceae: Senecioneae), a genus endemic to the Macaron

90 Being a member of the Asteraceae, SI in S. squalidus is expected to be sporoph

91 iaceae (Cnidium cnidiifolium) along with two Asteraceae species (Artemisia arctica and Petasites frig

92 tified the volatiles and non-volatiles of 17 Asteraceae species and measured their relative contents.

93 these results conclusively demonstrate that Asteraceae species and the Euphorbiaceae E. lagascae hav

94 system and a plant-pollinator system for 24 Asteraceae species growing in an alpine meadow community

95 We compile a global checklist of Asteraceae species native and endemic to islands and com

96 Three invasive Asteraceae species were exposed to diseased litter from

97 ies of ethanol and water extracts from eight Asteraceae species were investigated against three Gram

98 acetylenase gene were also detected in other Asteraceae species, as revealed by PCR analysis of isola

99 we isolated homologs of these genes from an Asteraceae species, Senecio vulgaris (common groundsel).

100 vy, an Araliaceae species, and sunflower, an Asteraceae species.

101 e lost after ancient WGD in the same family (Asteraceae; sunflower family) [6] and with gene dosage s

102 The Asteraceae (sunflowers and daisies) are the most diverse

103 rval survival is greater on the novel hosts (Asteraceae) than on the ancestral host (Apiaceae), but t

104 Stevia rebaudiana (stevia) is a plant in the Asteraceae that contains several biologically active com

105 al innovation that defines the daisy family (Asteraceae), the largest flowering plant group.

106 of diversity observed in Argyranthemum Webb (Asteraceae), the largest genus of flowering plants endem

107 ced in flowers of Tanacetum cinerariifolium (Asteraceae), the monoterpenoid acyl moiety is pyrethric

108 As observed in other Asteraceae, the 22 plastomes assembled here contain two

109 The evolutionary success of Asteraceae, the largest family of flowering plants, has

110 All members of Asteraceae, the largest flowering family, have a unique

111 In Asteraceae, they function at the inflorescence level, an

112 agment was then developed to access first an Asteraceae-type guaianolide and then various Apiaceae co

113 d development (apomixis) in Erigeron annuus (Asteraceae) was evaluated in a triploid (2n=3x=27) popul

114 Weed pollen (Asteraceae) was never dominant, exposure accounted for >

115 diation of New World desert shrubs (Encelia: Asteraceae), we use fine-scale geographic sampling and p

116 opical shrub Baccharis dracunculifolia D.C. (Asteraceae) were modified by the removal of ant species

117 d with those within the Senecioneae lineage (Asteraceae), where HSS expression is reproducibly found

118 on within the Chrysanthemum indicum complex (Asteraceae), which comprises diploid and polyploid plant

119 (Asteraceae) with four modeling methods run with multiple