ライフサイエンスコーパス: plant

1 ssfully in a full-scale wastewater treatment plant.

2 ereas all species were sensitive to invasive plants.

3 ilar defenses rather than on closely related plants.

4 as strongly reduced only in ABCG37 deficient plants.

5 transactivated gene expression in yeast and plants.

6 novel activities affecting tocochromanols in plants.

7 households by proximity to major industrial plants.

8 iR156-impervious 35S::SPL13m over-expression plants.

9 the clock influences the performance of crop plants.

10 make to the overall growth and viability of plants.

11 ombined with late flowering, as found in ltm plants.

12 ty of a vast array of signalling pathways in plants.

13 ly successful Compositae family of flowering plants.

14 accumulation of jasmonic acid in transgenic plants.

15 netic drift in patchily distributed tropical plants.

16 CFKs act as the main CS conversion system in plants.

17 ll wall components are altered in transgenic plants.

18 enzymes responsible for RFO biosynthesis in plants.

19 ttenuation of metal(loid) uptake into higher plants.

20 d pyruvate and provides diverse functions in plants.

21 hologically indistinguishable from wild-type plants.

22 ive picture of SBT structure and function in plants.

23 emperatures and increased moisture stress on plants.

24 e the first eIF4E-eIF4G structural model for plants.

25 between thermosensory growth and immunity in plants.

26 In this study, two CWT plants 10 and 19 km upstream of a reservoir left geochem

27 roved the formation of H2O2 in the leaves of plants 3h after the E. cloacae inoculation, according to

28 The spacing between two synthetic plants, a design consideration introduced by the authors

29 and a geranyl diphosphate synthase from the plant Abies grandis was expressed to optimize the limone

30 However, energy requirements of desalination plants account for half their operating costs, so altern

31 its genome architecture could shed light on plant adaptation and genome evolution.

32 light induced oxidative bursts to prime crop plants against the deleterious effects of environmental

33 An extract of the Texas native plant Amyris texana was found to have selective activity

34 domain to acetylate signalling proteins from plant and animal hosts.

35 strategy, but what determines the balance of plant and animal tissue omnivores consume is relatively

36 ow to analyze the capacity of both the whole plant and individual leaves to cope with excess excitati

37 because they function as the cellular power plant and play a central role in the early stages of pro

38 across environments can encourage efficient planting and maintenance strategies to maximize pollinat

39 the diversity of biological networks across plants and animals and (ii) can be used to predict how t

40 mechanisms remain incompletely understood in plants and animals.

41 e represents a critical battleground between plants and attacking microbes.

42 ynthesis were also up-regulated in resistant plants and electrophoretic mobility shift assay revealed

43 ndophytic fungi have been reported from many plants and several of these fungi have been shown to con

44 es between the root systems of the different plants and the normalizing the surfaces exposed to nanop

45 ol experiments were performed with untreated plants and the obtained electrochemical results clearly

46 evels of miR156, a major regulator of VPC in plants, and corresponding changes in wall ingrowth depos

47 mainly produced naturally, in particular by plants, and its emissions contribute to ozone destructio

48 presents problems for the management of soil-plant-animal systems, because the magnitude and directio

49 In plants, apomixis results in the production of clonal off

50 nisms would be of help, but unlike the model plant Arabidopsis (Arabidopsis thaliana), very little is

51 e, the root hair cell, and between two model plants: Arabidopsis (Arabidopsis thaliana) and soybean (

52 Plants are important in urban environments for removing

53 Phytotelmata in tank-forming Bromeliaceae plants are regarded as potential miniature models for aq

54 the internal structure and physiology of the plant as the template, and an integral part of the devic

55 rving in microbe-microbe competition between plant-associated bacteria.

56 ntally validated candidates from two sets of plant-associated genes: one involved in plant colonizati

57 the CML protein family in the modulation of plant-autoinhibited Ca(2+) pumps.

58 ulti-mycotoxin method was applied to analyse plant-based beverages such as soy, oat and rice.

59 ogical stress, a further separation of total plant-based chlorophylls into chlorophyll a and chloroph

60 this community is responsible for converting plant-based feeds into accessible nutrients.

61 This process is particularly important in plants, because their sessile nature commands adaptation

62 In plant-beneficial bacteria, this pathway has been shown t

63 This framework may allow plant biologists to unlock powerful global plant predict

64 Phenotyping is important to understand plant biology, but current solutions are costly, not ver

65 Modern plant breeders increasingly seek to circumvent this proc

66 e assembled a dataset of island and mainland plant breeding systems, focusing on the presence or abse

67 s (ALMTs) form a family of anion channels in plants, but little is known about most of its members.

68 by filamentous fungi, are phytotoxic to host plants, but their functions have not been well defined t

69 Unlike animals, plants can pause their life cycle as dormant seeds.

70 Small-scale disturbance of the plant canopy also had no effect on elevation trajectorie

71 d cells are widely recognized as the premier plant cell model for membrane transport, signaling, and

72 uranium (in the U(VI) oxidation state) in a plant cell model of Brassica napus.

73 the general picture of the advanced stage of plant cell specialization and to reveal novel participan

74 actome employs the structural framework of a plant cell to show metabolic, transport, genetic, develo

75 genomic analysis at the level of one single plant cell type, the root hair cell, and between two mod

76 The plant cell wall plays an important role in communication

77 hydrate active enzymes (CAZymes) that modify plant cell wall polysaccharides and other complex glycan

78 lling ion balance and ion homeostasis in the plant cell.

79 Plant cells are embedded within cell walls, which provid

80 and disrupted organization of F-actin in Li1 plant cells by confocal microscopy.

81 ment of Agrobacterium-delivered VirE2 inside plant cells by using a split-GFP approach in real time.

82 organism with characteristics of animal and plant cells provide novel explanations regarding how pH

83 ethylene-dependent and -independent roles in plant cells that affect responses to ABA.

84 Pathogens deliver effectors into plant cells to suppress immunity-related signaling.

85 om a marine plant endophyte can replicate in plant cells.

86 s mechanistic insights into the emergence of plant chemical novelty, and offers a template for invest

87 O3(-), and NH4(+) are major ions taken up by plants, CIPK23 appears to occupy a key position in contr

88 s of plant-associated genes: one involved in plant colonization, and the other serving in microbe-mic

89 vaded was lawn or wooded, but the marsh-edge plant communities that developed in these two environmen

90 Drought can cause major damage to plant communities, but species damage thresholds and pos

91 crease or reduce evolutionary relatedness in plant communities, making it difficult to generalize res

92 d precipitation on the temporal stability of plant community biomass in an alpine grassland located o

93 The carbon use efficiency of plants (CUEa ) and microorganisms (CUEh ) determines rat

94 ndependent bulk autophagy prevents premature plant death, thus extending the lifespan of virus reserv

95 numerous pyrrolizidine alkaloids involved in plant defence.

96 signaling pathway is involved in CP-mediated plant defense .

97 In addition to their function in plant defense, monoterpenes are also used as flavors, fr

98 ponses, including wounding, perhaps to evoke plant defense.

99 tion of lipophilic bioactive compounds using plant-derived proteins as delivery systems has received

100 ion is a major decision point in the life of plants determining future growth and development.

101 ch dorsoventral genes coordinate to regulate plant development by localizing auxin response between t

102 ffecting mRNA export and splicing as well as plant development.

103 e RHIZOtest demonstrated that the species of plant did not drive the phytoavailability, and provided

104 ain how this element reduced the severity of plant diseases.

105 Mutant nrx1 plants displayed reduced catalase activity and were hype

106 ce, and blackberry, blueberry, and raspberry plants displaying yellowing and inedible fruits, were as

107 Both organic farming and higher in-field plant diversity enhanced arthropod abundance, particular

108 ungi and soil fungi from the longest-running plant diversity experiment.

109 triction of the cortex inward, cells of land plants divide by initiating a new cell-wall segment from

110 ng large seeds has been a main target during plant domestication.

111 We conclude that plants encode proteins that appear to function as effect

112 tested if mycoviruses derived from a marine plant endophyte can replicate in plant cells.

113 r conidial pigmentation and development in a plant endophytic fungus, Pestalotiopsis fici.

114 y excretion of Phe derivatives; however, how plants endure Phe accumulating conditions in the absence

115 Plants engineer the rhizosphere to their advantage by se

116 matal development and patterning across land plant evolution.

117 ther experiments showed that ZxAKT1-silenced plants exhibited a significant decline in net uptake of

118 AM In agreement, SP-overexpressing wild-type plants exhibited precocious doming of vegetative SAMs co

119 achypodium Physiological analyses on SC-less plants experimentally support classic hypotheses that SC

120 Markets for Bt products and transgenic plants expressing their toxins are driven by their speci

121 models of scale-dependent feedbacks, whereby plants facilitate neighbours while competing with distan

122 phloem sap-consuming pest of more than fifty plant families.

123 mmonly consume plants, to estimate how often plant feeding has arisen and to test whether this dietar

124 We review the phylogenetic distribution of plant feeding in the Crustacea, the other major group of

125 critical for the development of specialized plant feedstocks for bioenergy.

126 eering hormone cross talk for improvement of plant fitness and crop production.

127 eir importance for leaf growth and hence for plant fitness and crop yield.

128 of mycorrhizal fungi, which are critical for plant fitness, biogeochemical cycling and other processe

129 cs in the notch-drives-growth model and real plants following excision.

130 sfer proteins (LTPs) are important causes of plant-food allergies often associated with severe allerg

131 ich is one of a group of polyphenols in many plant foods.

132 rtunately, all of Aristotle's writings about plant forms are lost.

133 ding cassettes and repair templates into the plant genome.

134 Detailed characterization of plant genomes and genetic diversity is crucial for meeti

135 GBS is most commonly used on crop plant genomes, and because crop plants have highly varia

136 veries and, by interrogating newly available plant genomes, we advance the story of stomatal developm

137 Importantly, the C1 (OE) rice plants grown on soil contain higher endogenous iron conc

138 - the phenomenon of touch-induced changes in plant growth and development.

139 results thus reveal a mechanism coordinating plant growth and drought tolerance.

140 s between plant roots, mycorrhizal fungi and plant growth-promoting rhizobacteria (PGPR) can improve

141 ing us yet further towards the Holy Grail of plant growth.

142 ll b is necessary for advanced monitoring of plant growth.

143 r, the instability of naked dsRNA sprayed on plants has been a major challenge towards its practical

144 used on crop plant genomes, and because crop plants have highly variable ploidy and repeat content, t

145 Plants have mechanisms to recognize and reject pollen fr

146 Plants have significantly more transcription factor (TF)

147 Plants have undergone 470 million years of evolution on

148 h-promoting rhizobacteria (PGPR) can improve plant health via enhanced nutrient acquisition and primi

149 gth OsbZIP48 in rice transgenics reduced the plant height considerably.

150 es with dispersal structures on their seeds, plant height is very weakly related to dispersal investm

151 ance has been a major goal of researchers of plant-herbivore interactions.

152 ogen-fixation in legumes is regulated by the plant hormone ethylene, but it has remained unclear whet

153 nced nutrient acquisition and priming of the plant immune system.

154 e signaling, and sugar allocation related to plant immunity, revealing the complex nature of SSR resi

155 isition, growth, and competition, as well as plant impacts on ecosystem processes.

156 Overexpressing PEX1 in wild-type plants impaired growth, suggesting that excessive PEX1 c

157 ells mediated glomerular injury when MPO was planted in glomeruli.

158 endogenous iron concentration than wild-type plants in both brown and white grains.

159 Plants in drier sites also exhibited the greatest shifts

160 equencing of 16SrRNA genes demonstrated that plants in the growth system support a microbial rhizosph

161 the increased richness of taxa that include plants in their diet likely results from access to a nov

162 We grew Arabidopsis plants in very short photoperiods and used a combination

163 In many plants, including Arabidopsis, the sepals and petals for

164 Most terrestrial plants, including crops, engage in beneficial interactio

165 looding is detrimental for nearly all higher plants, including crops.

166 osome dynamics during fungal development and plant infection.

167 Metabolism in plants is compartmentalized among different tissues, cel

168 of the secondary root system in flooded rice plants is controlled not only by altered gas diffusion b

169 ajor obstacle to studying this phenomenon in plants is the difficulty of isolating certain types of c

170 o changes in light intensity and in vascular plants, is primarily triggered by a pH gradient across t

171 mportance of aluminum (Al) phytotoxicity for plants, it remained unknown if, and how, calcineurin B-l

172 (iii) gaseous emissions from waste treatment plants, (iv) long-term gaseous and liquid emissions from

173 mong the most compositionally variant in the plant kingdom, arise from specialized fatty acid biosynt

174 mpatibility expands between the metazoan and plant kingdoms, illustrating striking conservation of th

175 ility, whereas a myb83 mutation rendered the plants less susceptible.

176 rious molecular and physiological changes in plants like gene expression, hormonal modulation, induce

177 A group of "plant-like" Ca(2+)-dependent protein kinases (CDPKs) tra

178 togenomes) are available from all major land plant lineages except ferns.

179 nophyletic clades corresponding to the major plant lineages.

180 that shape the great amount of variation in plant longevity, reproductive output and growth rate is

181 oth defences were negatively correlated with plant mass, compatible with a growth-defence trade-off.

182 oned active compounds) in a greenhouse study plant material was cryo-milled and extracted with water/

183 ms subjected to prolonged invasion by exotic plants may be instrumental in distinguishing the role of

184 ing how pH may drive cellular processes; how plants may respond to, and perhaps sense stresses; and h

185 udy was the HDH enzyme from the model legume plant, Medicago truncatula (MtHDH).

186 tics of a self-organising system, similar to plant meristems.

187 e instrumental in distinguishing the role of plant-microbe-mineral interactions from the broader edap

188 standing of the biological processes of this plant model but also of other species.

189 Plant mortality rates and biomass declines in response t

190 rom two major municipal wastewater treatment plants (MWWTPs) (Waterloo, Kitchener), including three u

191 nal diversity had additional effects on both plant N pools and rates of soil N cycling that were inde

192 Paullinia cupana is a plant native to Brazil that is widely used in traditiona

193 We highlight several plant natural products that are either in the clinic or

194 AM fungi enhanced plant nutrient acquisition with both lower and more vari

195 aling in roots of flooded and water stressed plants of Carrizo citrange revealed that the hormone dep

196 Secondly, several emulsions based on plant oils differing in their n-3 fatty acid content wer

197 st reducing the deleterious impacts of dense planting on product quality.

198 In plants, one of the most understated developmental phenom

199 Raf) plants overexpressing Brevibacterium linens methionine-g

200 water availability, for instance increasing plant P uptake more with a pulsed water supply compared

201 es of PopP2, a YopJ effector produced by the plant pathogen Ralstonia solanacearum, in complex with i

202 system in which to study the consequences of plant-pathogen interactions on fertility and the evoluti

203 suggesting that IP hydrolysis has a role in plant pathogenesis.

204 biocontrol agent Trichoderma atroviride, the plant pathogens Fusarium graminearum and Colletotrichum

205 riences that shaped my career as a molecular plant pathologist.

206 most structurally complex glycan known: the plant pectic polysaccharide rhamnogalacturonan-II, cleav

207 e of anthocyanins, one of the most important plant pigments, which are responsible of the intense red

208 Sphingolipids are a major component of plant plasma membranes and endomembranes, and mediate a

209 ntial for restoration to re-establish native plant-pollinator interactions critical for production of

210 for changes in water availability to impact plant-pollinator interactions through pollinator respons

211 en high-fat, high-sugar (HFHSD) and low-fat, plant-polysaccharide rich (LFPPD) diets.

212 me, but not all, insect herbivores influence plant population densities.

213 bility that is function of initial inoculum, plant population size and nodulation cycle length.

214 tional perspectives for the study of ancient plant populations and, in time, will provide higher taxo

215 Cross-tolerance, in which plants pre-treated with chitin (a fungal microbe-associa

216 w plant biologists to unlock powerful global plant predictions from a handful of open-access field me

217 The influence of plant presence, species, inflow frequency, and inclusion

218 ds showing elevation responses to changes in plant productivity.

219 entified compounds typically associated with plant products, including a series of phenolic lipids (a

220 ealth policies, despite strict regulation of plant protection product and biocide use.

221 Following the application of two plant protection products (containing the above-mentione

222 s, bacterial biomarkers (D-amino acids), and plant protein biomarkers (hydroxyproline).

223 many computational methods exist to predict plant protein subcellular localization, they perform poo

224 nt identification and genetic studies of the plant purinoceptor, P2K1 (also known as DORN1), have dem

225 late insect behavior and fitness by altering plant quality and defense.

226 Plant Reactome employs the structural framework of a pla

227 In plants, regulated cell death (RCD) plays critical roles

228 ability of GIPCs, and their functions in the plant remain poorly characterized.

229 To carry out photosynthesis, plants require a large cohort of genes.

230 omplex data are not easily accessible to the plant research community, leaving most of the valuable g

231 ce and genetically determined levels of host-plant resistance and tolerance.

232 arrying rock2 and rock3 alleles revealed how plants respond to locally enhanced cytokinin signaling.

233 ents from the leaves of polyprenol-deficient plants revealed impaired photosystem II operating effici

234 Exposure of hydrated cysts to host plant root exudates resulted in different transcriptiona

235 de rind, or Fe plaque, that forms on aquatic plant roots is an important sorbent of metal(loid)s and

236 Belowground interactions between plant roots, mycorrhizal fungi and plant growth-promotin

237 ls of sucrose were observed, suggesting that plant sanctions affect carbon supply to nodules.

238 of their development is of high interest for plant science research because of their importance for l

239 In vivo ethylene measurement showed that UHb plants significantly decrease ethylene production and ex

240 partitioning of PSI into stromal lamellae in plants, similarly sustained by long-distance diffusion o

241 The bioconcentration factors (BCFs; plant/soil ratios) were highest in foliage, while the to

242 de an example of the convergent evolution of plant specialized metabolism.

243 isoprene emission capacity is determined by plant species distributions and can substantially explai

244 of the expression patterns of genes between plant species is limited by the quality of the genomic a

245 BP) uptake and transformation in the wetland plant species Phragmites australis and the underlying me

246 netic analysis of SNAP genes from 22 diverse plant species showed that SNAPs were distributed in six

247 With more than 80% of flowering plant species specialized for animal pollination, unders

248 ate for investigating the 300,000 non-model plant species that remain underexplored.

249 ds of berries and leaves of thirteen various plant species were extracted with aqueous ethanol and an

250 ression of recombinant proteins in different plant species, allowing function analyses at different s

251 has a reported capacity to protect different plant species, but its application to favor grape and gr

252 Using Arabidopsis as a host plant species, we conducted a comparative analysis of cy

253 olution of gene transcription in and between plant species, we performed a comparative transcriptomic

254 ysis of rhizosphere chemicals from different plant species.

255 ltransferase, an essential enzyme in forming plant-specific Le(a) structure, were present in separate

256 nt allele of ESKIMO1 (ESK1), which encodes a plant-specific polysaccharide O-acetyltransferase involv

257 oles during development and is essential for plant-specific responses to abiotic and biotic stresses.

258 es provide a useful framework to investigate plant strategies for resource acquisition, growth, and c

259 at extracellular ATP is a signal involved in plant stress responses, including wounding, perhaps to e

260 The discovery of three new plant STSs is reported that produce a suite of sesterter

261 g the DR5 promoter fails to fully rescue lfs plants, suggesting that additional, auxin-independent re

262 ased by 1.5 and 3.8x for the water treatment plants supplied by Pockwock Lake and Lake Major.

263 ng sequence of MYB83 significantly increased plant susceptibility, whereas a myb83 mutation rendered

264 ly and to map the phosphorylation site(s) of plant symbiotic receptor-like kinases.

265 ry laboratory and field studies of a "banker plant system" for sustainable management of the rice bro

266 locene, was mitigated by the rapid spread of plant taxa.

267 or (TF) families than animals and fungi, and plant TF families tend to contain more genes; these expa

268 temperature, created by captured sunlight or plant thermogenesis.

269 The extracellular space (apoplast) of plant tissue represents a critical battleground between

270 is an important episodic event that damages plant tissues through the formation of ice crystals at o

271 lved in modulating carotenoid homeostasis in plant tissues.

272 omatal and mesophyll conductance may allow a plant to improve water-use efficiency without necessaril

273 h as competition, physiological responses of plants to changes in atmospheric CO2 concentrations, and

274 roliferate in distinct niches, from soil and plants to diverse tissues in human hosts.

275 Thicker leaves allow plants to grow in water-limited conditions.

276 or group of arthropods that commonly consume plants, to estimate how often plant feeding has arisen a

277 green depending on the initial conditions of plant trait abundance (i.e., founder controlled) due to

278 However, extant plant trait distributions will not allow extrapolations

279 availability, and provided evidence for soil-plant transfers at concentrations lower than those usual

280 t and proline content than the control wheat plants under drought and salt stresses.

281 even as it redistributes, without additional plant uptake over this timescale.

282 Plants use context-dependent information to calibrate gr

283 Plants utilize this conserved phospho-regulatory feedbac

284 fungus Olpidium bornovanus While a number of plant viruses are transmitted via insect vectors, little

285 O production under drought conditions in UHb plants was associated with increased drought tolerance.

286 out the dry season can emerge from disparate plant water potential trajectories, and vice versa.

287 Using the vascular system and organs of a plant, we manufactured organic electronic devices and ci

288 Medicago truncatula plants were cocultured with the AM fungus Rhizophagus ir

289 ne and chaperonin-60 (cpn60) showed that the plants were infected with phytoplasma subgroup16SrXIII-(

290 ivated carbon in a drinking water production plant, which cannot be labeled with (13)C.

291 s an important traditional Tibetan medicinal plant with pharmacological properties effective in the t

292 the presence of specific signals, whereas in plants with multiple Galpha proteins, an even more compl

293 of FRS7 and FRS12 results in early flowering plants with overly elongated hypocotyls mainly in short

294 Plants with photosynthetic stems have extra carbon gain

295 of Strawberry Green Petal (SbGP), periwinkle plants with virescence, and blackberry, blueberry, and r

296 a in hornworts that is ancient and common to plants without sporophytic leaves.

297 s expected to be light independent, and thus plants without stomata should continue to take up COS in

298 es PPCPs from different wastewater treatment plants (WWTPs) situated along the river and Lake Erie.

299 and LCCPs in Australia wastewater treatment plants (WWTPs).

300 The lysolipid and food and plant xenobiotic pathways were most strongly associated