ライフサイエンスコーパス: long distance

1 that can move within plants cell to cell and long distance.

2 grate into the host, extending fibers over a long distance.

3 short distance or incoherent hopping over a long distance.

4 esult in cooperative folding kinetics across long distances.

5 onnect new functional neuronal circuits over long distances.

6 tional transport of intracellular cargo over long distances.

7 on and coordinate growth and physiology over long distances.

8 hat is unusually robust and can operate over long distances.

9 g and, in particular, to be distributed over long distances.

10 t robust to typical transmission losses over long distances.

11 s can pattern the structure of water even at long distances.

12 rapid conduction of electrical impulses over long distances.

13 ation between solid-state spin qubits across long distances.

14 y itself, is the major mobile GA signal over long distances.

15 g dispersal into diverse conditions and over long distances.

16 hat contact other mitochondria at relatively long distances.

17 voltammetry and optical spectroscopy reveal long-distance (10-11 bonds) electronic interaction betwe

18 se elements are known to regulate genes over long distances, a contiguous genome assembly is crucial

19 Cutting down on long-distance air travel is the best way to reduce the e

20 peripheral nervous system and have to travel long distances along axons.

21 nism seems to be the only sensitizing one at long distance and probably contributes to the sensitizat

22 still not possible to regenerate axons over long distances and accurately reconnect them with an app

23 till not possible to regenerate neurons over long distances and accurately reconnect them with an app

24 arms of gregarious individuals that disperse long distances and affect areas from western Africa to I

25 communities near large fires but can extend long distances and affect larger urban areas.

26 nections onto SPNs are made exclusively over long distances and onto distal dendrites.

27 et of rapamycin (mTOR), RGC axons regenerate long distances and re-innervate the brain.

28 to inaccuracies when modeling transport over long distances and/or times.

29 the neural, molecular, and genetic basis of long-distance animal migration.

30 trade are greater than those associated with long-distance atmospheric pollutant transport.

31 e along the root of c-CA-treated plants, and long-distance auxin transport assays showed no inhibitio

32 induces cytoskeletal rearrangements in cells long distances away.

33 scription factor 9 (KLF9) via shRNA promotes long-distance axon regeneration after optic nerve injury

34 ue architecture and fail to re-establish the long-distance axonal tracts and circuit physiology prese

35 E by exposing more unpaired bases, and (iii) long distance base pairing transfers this complex to the

36 , may also enable signalling over relatively long distances, because the biophysical constraints impo

37 Ants can navigate over long distances between their nest and food sites using v

38 f these macromolecules are capable of moving long distances between tissues, thus providing support f

39 nd were responsible for more than 49% of all long-distance (beyond 1 km) pollen-dispersal events.

40 t mammalian organ, PCP aligns over extremely long distances, but the global cues that orient tissue p

41 t universally assumed that light is the best long-distance carrier for quantum information.

42 Short and long distance cell dispersal can have a marked effect on

43 We propose that bidirectional short- and long-distance cell interactions between epithelial and m

44 n signaling mediate hepatoblast motility and long-distance cell-cell contacts with the LPM beyond imm

45 he NCNs structure and dynamics, resulting in long-distance changes reminiscent of a protein.

46 carrier transport in the axial direction for long-distance charge separations.

47 te loci, which demonstrate unique subsets of long-distance chromatin interactions enriched for both e

48 ach experiment, CATCH-seq peaks representing long-distance chromatin interactions were centred near t

49 to senescence has revealed the existence of long-distance chromatin loops that dictate the expressio

50 of limbs in snake evolution by focusing on a long-distance cis-acting enhancer of Sonic Hedgehog.

51 inistic detection and will be invaluable for long distance classical and quantum communication.

52 ments show that SOM neurons are required for long-distance coherence across the visual cortex.

53 areer researchers, those working in small or long-distance collaborations, and those responsible for

54 oots to phosphate (Pi) deficiency implicates long-distance communication between roots and shoots, bu

55 We identified a function for these cells in long-distance communication during postembryonic tissue

56 elRs should be considered as candidates for long-distance communication in higher plants.

57 h polarization encoding are not suitable for long-distance communication, because they suffer from hi

58 tion and offer opportunities for biosensors, long-distance communications, and photoconversion applic

59 of local information processing and reduced long distance compensatory dynamics that supports a smal

60 These long-distance conformational changes link the C terminus

61 such as fractionally smaller and much weaker long-distance connections in the macaque than in mouse.

62 en structural and functional connectivity of long-distance connections was observed in both SZ offspr

63 ependent, with most disruptions appearing in long-distance connections within the FPN but in short-di

64 he promise of characterizing many aspects of long-distance connectivity in the brain, but requires qu

65 his study, given the insight it provides for long-distance connectivity, and the importance of region

66 e concentrated on few cortical areas, termed long-distance connectors (LDCs).

67 Our work elucidates that hierarchy and long-distance cooperativity between gene-regulatory elem

68 these classes differed in the proportion of long-distance cortical inputs originating from deep vers

69 latter lends credence to the prediction that long-distance cortico-cortical connections could be very

70 it SST+ cells, might be a general feature of long-distance corticocortical and thalamocortical circui

71 ered in this intermediate, and a biological, long-distance CR model was proposed.

72 e sense of smell enables animals to react to long-distance cues according to learned and innate valen

73 o forage the environment and/or to target to long-distance destinations.

74 l lamellae in plants, similarly sustained by long-distance diffusion of electron carriers.

75 he membrane, so PSI turnover is sustained by long-distance diffusion of the electron donors at the me

76 trained, information can be transferred over long distances directly by the transmission of mechanica

77 son between exchanges occurring at short and long distances directly demonstrates that communication

78 pathogenic microorganisms in streams enables long-distance disease transmission.

79 For the latter, long distance dispersal because of trade within the inva

80 licit simulations, we examined the impact of long-distance dispersal (LDD) events on introgression of

81 provides empirical data on the importance of long-distance dispersal and time-lags on population esta

82 aphic realm during the Paleogene, with a few long-distance dispersal events.

83 during the last glaciation, and that little long-distance dispersal has occurred since the recoloniz

84 The long-distance dispersal of N. tenuis might be affected b

85 ains such as 'Ug99' (5,6) pose a threat from long-distance dispersal out of East Africa to the large

86 rsal of pathogens, but the complex nature of long-distance dispersal poses significant challenges for

87 It follows that long-distance dispersal was crucial for the long-term pe

88 rom native sources as well as mechanisms for long-distance dispersal within invaded continents.

89 equent due to environmental changes and rare long-distance dispersal, often facilitated by anthropoge

90 lization rates, massive spore production and long-distance dispersal, which may separately or togethe

91 in the atmosphere, where they are capable of long-distance dispersal.

92 nded to location cue treatments suggest that long-distance dispersers may rely more heavily on these

93 experimental treatments and quantify whether long-distance dispersers use different social cues to se

94 e essential elements in quantum networks for long-distance distribution of quantum entanglement.

95 nducted statistical analysis of the expected long-distance downstream migrations of their larvae and

96 -F-coated artificial cargoes over micrometer-long distances during both growing and shrinking phases.

97 nt we estimate that the monthly P input from long distance dust transport during the period with high

98 d), suggesting a significant contribution of long-distance dust P transport.

99 e distance distribution (proportionally more long-distance edges), and greater resilience to targeted

100 he structural composition of the Fc may have long-distance effects.

101 Variation potentials (VPs) are a type of long-distance electrical signal that are generated in pl

102 adical is generated in the alpha2 subunit by long-distance electron transfer involving an essential t

103 of sulfur-oxidizing microorganisms inducing long-distance electron transport, can delay the onset of

104 During long-distance fall migrations, nocturnally migrating Swa

105 Tracking confirmed long-distance flights of more than 3000 km, highlighting

106 er these long-lived hot carriers can migrate long distance for efficient collection.

107 be difficult for patients who have to travel long distances for clinic follow-up.

108 response is that it can occur rapidly and at long distance from the initial site of stimulation, sugg

109 ection to promote Delta-Notch signaling over long distances from cells of the xanthophore lineage to

110 ly infested area, suggesting that MPB spread long distances from infestation boundaries via spots fol

111 postnatal rodent brain, neuroblasts migrate long distances from the subependymal zone of the lateral

112 ating their potential to be transported over long distances from their point of origin.

113 iety of selection pressures from herbivores, long distance gene flow, genome properties, and lack of

114 Limited long-distance gene flow was supported by within-populati

115 serves as a starting point for understanding long-distance gene regulation in this genetically tracta

116 graphy, efficient quantum communication over long distances (>/= 1000 km) remains an outstanding chal

117 More patients traveled long distances (>100 kilometers) to receive specialty se

118 th variations and is relatively precise over long distances (>30 microm), suggesting that cells sense

119 This enabled extensive long-distance (>25 mm) regeneration of both myelinated a

120 model for CAM-specific carbohydrate flux and long-distance hexose transport.

121 sments of coral connectivity have emphasized long-distance horizontal dispersal of propagules from on

122 gh-risk plant pathogens are transported over long distances (hundreds of meters to thousands of kilom

123 This method could be adapted to long distance imaging, such as satellite imaging, which

124 s in which the mobile entities interact over long distances in a well-defined and controllable manner

125 dly moving puncta that were seen trafficking long distances in nearly all hyphal compartments.

126 nces that drive the transport of sugars over long distances in plants.

127 They can be transported long distances in the atmosphere before depositing to th

128 e rapidity with which it disseminated across long distances indicate that novel strains of influenza

129 here also seems to be parallel processing of long-distance information between delta, theta, alpha1 a

130 ojection neurons play a key role in carrying long-distance information between spatially distant area

131 n by interneurons and to even greater degree long-distance innervation by cortical neurons were marke

132 Long distance inter-electrode distances exhibited greate

133 rength declines, allowing for an increase in long-distance inter-TAD interactions.

134 the ribosome-binding kl-TSS that provides a long-distance interaction with the 5' end is unique.

135 ntains an internal pseudoknot along with the long-distance interaction, and the pseudoknot is not com

136 recombinase along chromatin, and to regulate long-distance interactions between RSSs, independent of

137 ssibility, RAG tracking, and RAG-independent long-distance interactions.

138 ontain genetic and proteomic information for long distance intercellular communication.

139 actions (elRs) are presumed to contribute to long-distance intercellular communication between distan

140 les by bulk electrolysis owing to efficient, long-distance intraparticle charge transfer.

141 ression profiles of transporters involved in long-distance ion translocation.

142 Improved understanding of the mechanism of long-distance iron signaling will allow improved strateg

143 n its host's sleeping area manages to travel long distances is not yet clear.

144 as "greenbeard" genes, involved in mediating long-distance kind recognition that involves actively se

145 The long distance, ligand-dependent ordering of residues rev

146 unexplained by the best trade-off model were long-distance links, which are concentrated on few corti

147 ion of IAV diversity in swine resulting from long-distance live swine trade.

148 ults suggest that although seeds were traded long distances, long-term cultivation has instead been o

149 different cells, it does not account for all long distance macrophage interactions.

150 he soil and likely play an important role in long-distance microbial interactions.

151 Although most mortality in long-distance migrant birds is thought to occur during m

152 present the first documentation of obligate long-distance migrant birds undertaking a facultative mi

153 Estimating how much long-distance migrant populations spread out and mix dur

154 d play a central role in the demography of a long-distance migrant, the light-bellied Brent goose (Br

155 r (Setophaga caerulescens), a double-brooded long-distance migrant, we used Pradel models to analyze

156 Although diverse long-distance migrants accomplish natal homing [1-8], li

157 ions of hot-dwelling species and declines in long-distance migrants and farmland specialists.

158 e the possibility to stop en route, but most long-distance migrants must also undertake large non-sto

159 Populations of long-distance migrants were negatively affected by May t

160 te change, but potentially at the expense of long-distance migrants, habitat specialists and cold-ass

161 ut productivity was only marginally reduced; long-distance migrants, short-distance migrants and resi

162 nced spring migratory phenology by more than long-distance migrants.

163 Many moths finish their long distance migration after consecutive nights, but li

164 During long-distance migration, birds migrating greater distanc

165 To accomplish this long-distance migration, CVM cells receive input from th

166 We mapped the inferred long-distance migrations of four species of Amazonian go

167 All whales undertook mid- to long-distance migrations, crossing some of the world's b

168 nding the evolution of flight strategies and long-distance migrations.

169 and autumn migration timing of 13 species of long-distance migratory bird changed across a period of

170 ral responses and fitness consequences for a long-distance migratory bird, the continental black-tail

171 contributed to recent population declines of long-distance migratory birds in particular.

172 Long-distance migratory organisms are under strong selec

173 Although long-distance migratory songbirds are widely believed to

174 Long-distance migratory species may be particularly vuln

175 mosquitoes, likely reflecting their limited long-distance movement compared to avian species.

176 dence suggesting the existence of short- and long-distance movement of GAs in plants(3-8), the nature

177 n productivity, recruitment, and patterns of long-distance movement.

178 eraction in plants, nucleolar targeting, and long-distance movement.

179 One of the StBELs, StBEL5, functions as a long-distance mRNA signal that is transcribed in leaves

180 lt life before they switch to visually based long-distance navigation to forage.

181 d of copying demonstrators moving balls over long distances, observers solved the task more efficient

182 istribution of a short distance of 7 A and a long distance of 15-20 A, indicating that the phenylene

183 Our results imply that, for plants with long distance of pollen dispersal, models assuming niche

184 ry to our predictions, large-bodied and some long-distance omnivorous migrants departed later in the

185 hort distances in a dense fog to seeing over long distances on a clear day.

186 ulated 250-fold in RGC development, promotes long-distance optic nerve regeneration in adult rats of

187 ed, fast and slow, to either haul cargo over long distances or ascertain high-precision targeting, re

188 Long-distance pairing between the RSE and a 3' terminal

189 When bird populations spread, long-distance pioneering populations are often backfille

190 explained by strong outcrossing and regular long-distance pollen flow.

191 ed bees play a critical role in facilitating long-distance pollen-mediated gene flow.

192 ssini) have long been hypothesized to act as long-distance pollinators of many low-density tropical p

193 teins to form a transport machine capable of long-distance processive movement along microtubules.

194 to fire spikes that propagate radially over long distances, producing GABA-ergic inhibition of other

195 evelopment, the identity of major classes of long-distance projection neurons is established by the e

196 l mouse cortex, are functional and establish long-distance projections, as shown using iDISCO whole-b

197 0 nm), (2,6-aza)Ind undergoes N(1)-H to N(6) long-distance proton transfer in neutral H2O, resulting

198 explore the capability of employing FMF for long distance quantum communication.

199 To realize long-distance quantum communication and quantum network,

200 High-bit-rate long-distance quantum communication is a proposed techno

201 tum networking, future quantum Internet, and long-distance quantum communications.

202 els orthogonal to all that have been used in long-distance quantum experiments so far.

203 ew clones have emerged in Europe, which show long-distance, rapid dispersal.

204 t (1)O2 retrograde signal for both local and long distance RBOH-dependent acclimation signaling that

205 oaches challenge this view by showing robust long-distance regeneration.

206 to maintain functional connectivity between long-distance regions even after controlling for other c

207 ankia spp.-infected cells is involved in the long-distance regulation of nodulation in actinorhizal s

208 the bps signal pathway has the potential for long-distance regulation through modification of CK sign

209 hows that this approach is inadequate due to long-distance regulation via chromatin looping.

210 e obtained non-invasively and collected from long-distances remaining viable during transportation.

211 transport such quantum states robustly over long distances remains challenging.

212 pseudoknot, designated SL9266/PK, involving long distance RNA-RNA interactions between unpaired loop

213 ought to be exceptions, since they contain a long-distance RNA-RNA connection with the 3' end.

214 Exercise is rewarding, and long-distance runners have described a runner's high as

215 Five male amateur long-distance runners underwent an MR examination (DTI,

216 of Pseudomonas syringae pv tomato generates long-distance SAR signals that travel from locally infec

217 he feasibility of the swapping protocol in a long-distance scenario, where the independence of the no

218 rous diet, could also be effective secondary long distance seed dispersers, potentially establishing

219 The study demonstrates that long-distance sensory axon regeneration over a normal pa

220 However, the molecular basis of this long-distance shoot-root coordination is little understo

221 Long-distance, shoot-root, mobile siRNAs influence DNA m

222 ysl1ysl3 shoots fail to send an appropriate long-distance signal of shoot iron status to the roots.

223 s spectral region, making it interesting for long-distance signal transmission.

224 is a valuable resource for understanding SAR long-distance signaling and the dynamic nature of the ph

225 e role that macrophages play in facilitating long-distance signaling between the cells that make stri

226 of the mir1, signifying a potential role of long-distance signaling in maize defense against the phl

227 lant organs via sieve elements as a putative long-distance signaling molecule.

228 Long-distance signalling is important for coordinating p

229 nd grafting studies have identified multiple long-distance signalling molecules which are crucial for

230 t-root communication, which involves diverse long-distance signalling molecules.

231 Understanding this mode of long-distance signalling within plants is important for

232 how DLK, a predicted soluble kinase, conveys long-distance signals and why homologous kinases cannot

233 In this minireview, the long-distance signals implicated in systemic responses t

234 close to an adult, (2) mate choice involves long-distance signals, (3) adults or their surrogate gam

235 cted and consumed materials but do not cover long distances, so their impact is visible mainly at the

236 -chain pairs are dynamically correlated over long distances (spanning protein lengths up to 7 nm), in

237 nstrate the lasting impact of human-mediated long-distance species dispersal on current day biodivers

238 ave the way towards near unity efficiencies, long distance splitting, and post-splitting electron man

239 ment of cattle between trade hubs caused its long-distance spread within the country.

240 tudy reports a novel technique that analyses long-distance subionospheric very low frequency radiowav

241 e cluster and found that they segregate over long distances, suggesting that a physical elongation of

242 mutant mice displayed an altered pattern of long-distance synaptic inputs into a cortical area impor

243 This leads to long distance synchrony of Golgi cells along the transve

244 ptical microscopy, photothermal therapy, and long-distance telecommunications.

245 lation spread and inter-population mixing in long-distance, terrestrial migrant land-bird populations

246 be well suited for complex sentences and for long-distance textual relations.

247 ability of all adult stages to migrate over long distances, these low temperatures may facilitate th

248 Axons navigate long distances through complex 3D environments to interc

249 times (CIT) associated with shipping kidneys long distances through KPD.

250 iffusive charge transport but can occur over long distances through multiple absorption-diffusion-emi

251 As) communicate from cell to cell and travel long distances through the vasculature.

252 volcanoes is effectively redistributed over long distances to create new upper crust at divergent pl

253 These cells then individually disperse long distances to reach cortical tissue, where they diff

254 Thus, inhibitory neurons migrate relatively long distances to reach their destination in the develop

255 ory and inhibitory neurons must migrate over long distances to reach their final positions within the

256 owth cones on neuronal process navigate over long distances to their targets in the developing nervou

257 the telomeres (Telomere Position Effect-Over Long Distances [TPE-OLD]).

258 f human societies in arid landscapes and for long-distance trade across hostile hot terrains for 3,00

259 provides insight into the reach and scope of long-distance trade routes that serviced the demand of E

260 dosomes that engage dynein motor complex for long-distance trafficking of beta-catenin/E-cadherin com

261 Such long-distance trafficking of inactive SNARE complexes wo

262 We conclude that long-distance trafficking of SlCyp1 acts as a rheostat t

263 Moreover, we show that long-distance trafficking of SlCyp1 is associated with r

264 wards practical realization of efficient and long distance transfer of energy for integrated solid-st

265 Because the network is dense, most long distance transmission chains in fact involve only f

266 agnetoelectronic devices with high speed and long distance transmission of information encoded in cir

267 We present experimental studies of long-distance transmission of ultrashort mid-infrared la

268 Long distance transport in plants occurs in sieve tubes

269 loading of amino acids resulting in improved long distance transport of nitrogen, sink development an

270 tBELs inhibit growth in correlation with the long distance transport of their mRNAs from leaves to ro

271 Trees present a critical challenge to long-distance transport because as a tree grows in heigh

272 These ureides present the primary long-distance transport forms of nitrogen (N), and are e

273 , we provide evidence for importin-dependent long-distance transport from synapto-dendritic compartme

274 that passive loading is sufficient to drive long-distance transport in large plants, and that trees

275 understanding of the potential of KIF3AC for long-distance transport in neurons.

276 es and their collective function during this long-distance transport is lacking because current techn

277 e results suggest that NPF2.4 is involved in long-distance transport of Cl(-) in plants, playing a ro

278 EBOV-infected cells revealed actin-dependent long-distance transport of EBOV nucleocapsids before bud

279 ant stem cell niches, the meristems, require long-distance transport of energy metabolites and signal

280 cells, cytoplasmic dynein-1 is essential for long-distance transport of many cargos, including organe

281 ed increasingly as a tool to investigate the long-distance transport of molecules that is an essentia

282 e range and chronology of historic trade and long-distance transport of natural resources is essentia

283 ial and marine sites, and sheds light on the long-distance transport of tephra in the Southern Hemisp

284 origin of vascular tissues, which ensure the long-distance transport of water, nutrients and organic

285 pment, the homeostasis of which necessitates long-distance transport processes that have remained elu

286 ynthesis in the leaf blade followed by auxin long-distance transport to the petiole leads to prolifer

287 s have roles in amino acid uptake from soil, long-distance transport, remobilization from vegetative

288 mine the ability of passive loading to drive long-distance transport.

289 it sets the pressure head necessary to power long-distance transport.

290 urred frequently when plants were visited by long-distance traplining hummingbird species with specia

291 been highly valued by humans, especially for long distance travel.

292 sts between stereotypy and flexibility: fast long-distance travelling (LDT) requires coherent regular

293 or people, some of whom would have travelled long distances, ultimately being buried there.

294 embolisms formed during drought can disrupt long-distance water transport through plant xylem vessel

295 hat provides mechanical strength and ensures long-distance water transport.

296 functional networks composed of interacting long-distance white-matter tracts.

297 ey can sustain high accelerating fields over long distances with high energy efficiency.

298 gration and high level of gene flow across a long distance within the OC group was detected.

299 le and its ability to spread locally or over long distances without a vector.

300 s, active particles can interact across very long distances without any chemical modification of the