ライフサイエンスコーパス: rhizome

1 ed in 1997 from the Polygonatum alte-lobatum rhizome.

2 amples result in higher SPF than P. aureum's rhizome.

3 urcuminoids from turmeric (Curcuma longa L.) rhizomes.

4 e chemical composition of Cyperus esculentus rhizomes.

5 dent on the successful over-wintering of the rhizomes.

6 olic pathways present in dormant switchgrass rhizomes.

7 ered the adaptogenic agents of K. parviflora rhizomes.

8 ndividual buds differentiate into tillers or rhizomes.

9 idium aquilinum (L.) Kuhn (Dennstaedtiaceae) rhizomes.

10 oniopropionate, in detached plant leaves and rhizomes.

11 We measured biomass of rhizomes, aboveground stems and leaves in 20 temperate h

12 ation suggests that leaves protect perennial rhizomes against severe drought stress and hydraulically

13 carbon translocation from the leaf into the rhizome and caused an 85% reduction in rhizome growth, i

14 The selective metabolism of tormentil rhizome and its interaction with gut microbiota may offe

15 Preliminary transcriptomes of D. transversa rhizome and leaves were constructed, annotated, and anal

16 alidated with different extracts of turmeric rhizome and products that use turmeric in their formulat

17 rather than the other parts of the turmeric rhizomes and it was discovered using modern atmospheric

18 ons of primary vascular construction in fern rhizomes and leaf-stem vulnerability segmentation.

19 Iron plaque was present on the rhizomes and roots.

20 ajor weeds rely upon vegetative dispersal by rhizomes and seed dispersal by "shattering" of the matur

21 rameters and elemental composition of roots, rhizomes and shoots.

22 Zn-thiol species were observed in the roots, rhizomes and stems.

23 parts (such as petals, leaves, and slices of rhizomes), and fungal growth on fruits with their faithf

24 nd independent domestication affecting seed, rhizome, and flower traits.

25 we characterized the leaf, stem, fine root, rhizome, and rhizosphere microbiome of < 1-yr-old aspen

26 plants found in foliage, fruit, bark, roots, rhizomes, and seed coats that consist of flavan-3-ol uni

27 Expressed genes in polyploid S. halepense rhizomes appeared to be more frequently derived from the

28 Gentiana lutea rhizomes are known for their bitter tasting properties c

29 Rhizomes are organs of fundamental importance to plant c

30 Vegetative buds that become rhizomes are similar to those that become tillers--one Q

31 first research reporting boiled N. nouchali rhizome as an ideal food material to manage the cause of

32 aerial tissues senesce, and the below-ground rhizomes become dormant.

33 Roots and rhizomes can play an important role in nutrient cycling,

34 as also isolated from a Podophyllum peltatum rhizome cDNA library, whose 834-base pair cDNA clone enc

35 This 2-year study evaluated root-rhizome composition and decomposition of a warm-season r

36 Its rhizome contains several flavonoids, particularly poly-O

37 biological activities is present in turmeric rhizomes (Curcuma longa Linn.).

38 s over growing seasons provides insight into rhizome development and nutrient recycling, processes cr

39 Rhizome displayed potent reducing power, effectively sca

40 Most genes with rhizome-enriched expression appear to have similar numbe

41 The finding that genes with rhizome-enriched expression are distributed across a wid

42 les and 'recruitment' of S. bicolor genes to rhizome-enriched expression in S. halepense, suggesting

43 We suggest that many genes with rhizome-enriched expression in S. propinquum may serve m

44 bicolor than in S. propinquum of genes with rhizome-enriched expression in the latter.

45 A disproportionate share of genes with rhizome-enriched expression was implicated in secondary

46 From cDNA clones showing rhizome-enriched expression, expressed sequence tags for

47 nse genes that were previously shown to have rhizome-enriched expression, we have conducted comparati

48 Tormentil rhizome ethanolic extract (TREE), rich in polyphenols, u

49 components in Drynaria quercifolia methanol rhizome extract (DME) and their probable pharmacological

50 In this study, Curcuma longa (turmeric) rhizome extract was used as a natural reducing and stabi

51 Kaempferia parviflora rhizome extracts obtained by maceration with hexane, chl

52 zation of leaf photosynthates for flowering, rhizome fortification, stress response and tissue-specif

53 fluorescence and HS-SPME-GCMS dataset of 55 rhizomes from four different French mountains (Alpes, Ju

54 hotoperiodically induced to flower, and with rhizomes from S. propinquum and johnsongrass (Sorghum ha

55 Highly expressed rhizome genes were somewhat enriched in QTL likelihood i

56 A cysteine protease from ginger rhizome (GP-II) cleaves peptides and proteins with proli

57 sight into genes and pathways that influence rhizome growth set the stage for genetic and/or exogenou

58 o the rhizome and caused an 85% reduction in rhizome growth, irrespective of light.

59 ere investigated over two growing seasons in rhizomes harvested from field-grown plants.

60 und for the first time in Cyperus esculentus rhizomes, have been isolated and quantified in the extra

61 Although the importance of rhizome health to overall year-upon-year plant productiv

62 n the solvent by repeatedly extracting fresh rhizomes in the same extraction mixture.

63 Application of the CMC=CIN gel to ginger rhizomes inhibited spore germination in all evaluated wo

64 We correlated relative rhizome investment with clonal traits, environmental gra

65 Curcuma longa rhizome is used extensively in culinary preparations in

66 Powder of turmeric rhizomes is consumes as curry spicy worldwide, especiall

67 Asexual propagation via infected rhizomes is the only means of Jiaobai production, and th

68 Bioactivity guided isolation of rhizome isopropanol extract led to the identification by

69 diversity of vascular construction in their rhizomes, making them an ideal group in which to examine

70 was a strong direct effect of terpenoids on rhizome mass, suggesting service to both storage and def

71 conductance, desiccation-tolerant seeds, or rhizomes may allow them to prioritize toward a more effi

72 r, these data provide a detailed overview of rhizome metabolism, especially during dormancy, which ca

73 asized on extracting the Colocasia esculenta rhizome mucilage (CEM) using different green extraction

74 Curcumin, derived from the rhizome of Curcuma longa L. and having both antioxidant

75 he bioactive molecules are turmeric, a dried rhizome of Curcuma longa that has been used for centurie

76 polyphenolic phytochemical isolated from the rhizome of the medicinal plant Curcuma longa.

77 curcumin, a polyphenol compound found in the rhizome of the turmeric plant (Curcuma longa) with known

78 natural products recently isolated from the rhizomes of Acorus tatarinowii Schott plants.

79 date, studies have focussed on the tubers or rhizomes of Dioscorea, neglecting the foliage as waste.

80 Rhizomes of Drynaria quercifolia have long been traditio

81 Rhizomes of each P. australis lineage were planted in ea

82 The roots and rhizomes of licorice plants (genus Glycyrrhiza L.) are c

83 he stems of E. giganteum, aerially-suspended rhizomes of M. hirsuta, and the vertical leaves of P. ps

84 e rhizomes of P. pseudoaureum or the aquatic rhizomes of M. hirsuta.

85 ned Dh across aquatic and aerially suspended rhizomes of Marsilea hirsuta L.

86 ge in Dh was observed along the soil-surface rhizomes of P. pseudoaureum or the aquatic rhizomes of M

87 cetoxychavicol acetate (ACA), extracted from rhizomes of the commonly used ethno-medicinal plant Lang

88 A lectin was purified from rhizomes of the fern Phlebodium aureum by affinity chrom

89 Curcumin, a polyphenol extracted from rhizomes of the plant Curcuma longa, is a widely studied

90 vanillin, starting with the more accessible rhizomes of the plant Curcuma longa.

91 -quality cell atlases for rice tiller nodes, rhizomes of wild rice and maize crown roots grown under

92 anscriptional profiling of leaves, stem, and rhizomes over growing seasons provides insight into rhiz

93 of feeding flaxseed meal (FSM) and turmeric rhizome powder (TRP) supplementation on tissue lipid pro

94 Boiled rhizome powder exhibited potent antihyperglycemic activi

95 Boiled rhizome powder exhibited potent antihyperglycemic activi

96 morphism mapping, variation in the number of rhizomes producing above-ground shoots was associated wi

97 st Miscanthus crop is M x giganteus which is rhizome propagated and therefore difficult to multiply a

98 areas, cordgrass decreases belowground root:rhizome ratios, causing substrate hardness to decrease t

99 al hundred differential poly(A) sites in the rhizome-root system were identified.

100 ntially have a vital role in the underground rhizome-root system.

101 in traditional Chinese medicine, wherein its rhizome/roots are particularly valued.

102 leads to diminished oxygen levels around the rhizome/roots.

103 Roots and rhizomes (RR), stems and leaves (SL), and liquid samples

104 ng incubation indicate large amounts of root-rhizome-soluble C at initiation of incubation.

105 ryl transferase showed the highest degree of rhizome-specific expression, with several transcriptiona

106 ating the gibberellins in regulation of many rhizome-specific genes.

107 ecific candidates including some of the most rhizome-specific genes.

108 s suggest that clonal expansions through the rhizome structures are involved in the mechanism by whic

109 We demonstrate that "rhizome structures", in which the basal glands run horiz

110 s of the epiphytic biofilm on the blades and rhizomes support the ubiquity of microbial ammonificatio

111 ptional mechanism for the development of the rhizome system in bamboo has not been comprehensively st

112 and alternative polyadenylation (APA) in the rhizome system.

113 the world, due in part to its well-developed rhizome system.

114 Bamboo, which has dense culms and root rhizome systems, can alter soil properties when it invad

115 a large number of AS events associated with rhizome systems.

116 expressed at substantially higher levels in rhizomes than other plant parts, and explored their func

117 Equisetum giganteum L.; in the soil surface rhizome that roots at each node of Phlebodium pseudoaure

118 nes that were relatively highly expressed in rhizome tip tissues were enriched for cis-element motifs

119 We analysed relative investments to rhizomes to see to which of these explanations they alig

120 carbon into belowground storage organs (e.g. rhizomes) to support growth when photosynthetic acquisit

121 These data indicate that RP root-rhizome turnover is more responsive to season than defol

122 Overall, rhizome vulnerability to embolism was correlated most st

123 Boiled rhizome was also found to preserve the loss of cellular

124 F.) boiled rhizome was carried out utilizing UPLC-Q-TOF-MS(E), LC-Q

125 Tormentil rhizome was used for centuries in traditional medicine t

126 all the major components present in turmeric rhizomes were detected in positive and/or in negative io

127 d us to measure vulnerability to embolism in rhizomes, which are notoriously difficult to work with.

128 Unexpectedly, large woody rhizomes with adventitious roots and aerial branch syste

129 s (GP-I and GP-II), isolated from the ginger rhizome Zingiber officinale, have an unusual substrate s

130 Ginger rhizome (Zingiber officinale), known commonly as ginger,