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 and at early times, but not at late time and long distances.

4 d to airborne particles and transported over long distances.

5 unication between cell bodies and axons over long distances.

6 genes these loci interact with, often across long distances.

7 adaptations for individuals to navigate over long distances.

8 cluding the transport of vesicle cargos over long distances.

9 enhancers could be generally acting through long distances.

10 hat contact other mitochondria at relatively long distances.

11 namic structures that may connect cells over long distances.

12 g between distinct neuronal types and across long distances.

13 sequential migration events over arbitrarily long distances.

14 need to transport waste and fresh water over long distances.

15 ng noise, or transmitting information across long distances.

16 and supported temperature-robust timing over long-distances.

17 rtion of breeders and most non-breeders made long-distance (5-77 km) movements during the breeding se

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

19 showed that Austfonna had the most frequent long-distance air flow, but showed lower amounts of chlo

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

21 ayer of quiescent fluid and they travel over long distances along inclined or horizontal surfaces.

22 At long distances, an isolation by distance pattern dominat

23 An ideal tag can communicate over a long distance and be seamlessly integrated onto everyday

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

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

26 How cargoes move within a crowded cell-over long distances and at speeds nearly the same as when mov

27 umor cells use EVs as vehicles to carry over long distances and deliver to immune cells a metabolic c

28 quired not only for transporting cargos over long distances and generating higher forces, but also fo

29 igma(54)-dependent promoters, which supports long distance, and hence multi-input regulation with hig

30 intenance, the transport of a radical over a long distance, and the dynamics of subunit interactions

31 eously capture disease risks associated with long-distance animal movement as well as local spatial d

32 Plants transmit signals long distances, as evidenced in grafting experiments tha

33 Standby can occur over long distances, as in the active, +42 tisB mRNA, encodin

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

35 induces cytoskeletal rearrangements in cells long distances away.

36 nal population in the subplate being sparse, long-distance axonal connection tracing with carbocyanin

37 Long-distance axonal trafficking plays a critical role i

38 As), as well as a substantial improvement on long-distance base pairs (500+ nt apart).

39 so that efficient resonant tunneling across long distances becomes possible without thermal assistan

40 een the GO-coated surface and the relatively long distance between these photoluminescent complexes a

41 ate that multiple Corylus lineages dispersed long distances between Europe and Asia and colonised Nor

42 uctures shed light on the mechanism by which long distance binding (25 angstrom) of single-stranded D

43 ion axon systems.SIGNIFICANCE STATEMENT Many long-distance brain connections depend on neurons whose

44 es a new, unsuspected level of complexity in long-distance brain connections.

45 Migrating sanderlings defy long distances but may end up in winter areas with poor

46 ation of hunting, tree chopping, and walking long distances, but not tool manufacture.

47 that pathogens are probably transported over long distances by migrating females.

48 Whereas the golgins mediate long-distance capture of the carriers, GARP promotes ass

49 red one of the most important reservoirs and long-distance carriers of highly pathogenic avian influe

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

51 ace (GNW) theory, conscious access relies on long-distance cerebral connectivity to allow a global ne

52 Long-distance charge transport, which is observed routin

53 ated by a pathogenic allele of TNPO3 through long-distance chromatin looping.

54 nowledge of epigenetic regulation, including long-distance chromatin remodeling, DNA methylation, pos

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

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

57 These results indicate that LBC orchestrates long-distance communication between the iab-6 regulatory

58 mutation is transmitted through a network by long-distance communication not necessarily relying on p

59 Vascular plants are wired with a remarkable long-distance communication system.

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

61 hich suggests that the backbones mediate the long-distance conduction in dsDNA, contrary to the commo

62 lution-state NMR that ligand binding induces long-distance conformational changes in the TTR that hav

63 Only damage to long-distance connections correlated with a more abnorma

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

65 Building long distance connectivity requires interfaces that map

66 on analysis demonstrated that alterations in long-distance connectivity were associated with an incre

67 rotein is "swelling" and gradually loses its long-distance contacts, thus resembling the "molten glob

68 esonance imaging and neurotracer labeling of long-distance corticospinal axons suggest that recovery

69 hypertension among 206 889 participants in a long-distance cross-country skiing event and 505 542 peo

70 ircular dichroism, surface modification, and long-distance crosslinking data.

71 ormation and maintenance of synapses require long-distance delivery of newly synthesized synaptic pro

72 e found that AAV1 can be transported through long-distance descending projections from various brain

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

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

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

76 s a significant negative correlation between long distance dispersal ability and competitive ability

77 Long-distance dispersal (LDD) can be especially importan

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

79 enetic hypothesis or Corylus and reveals how long-distance dispersal can shape the distribution of bi

80 In species with long-distance dispersal capacities and inhabiting a larg

81 lain their key role at pine invasions: their long-distance dispersal capacity, the establishment of p

82 litate Lejeunea dispersals, and (4) a single long-distance dispersal event was inferred between the N

83 nge expansion was facilitated by stochastic, long-distance dispersal events.

84 the sampled range, demonstrating that recent long-distance dispersal has occurred within this species

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 ilitated by terrestrial land bridges and not long-distance dispersals are likely to explain the subco

88 conflict from local theta oscillations to a long-distance distributed theta network suggest a reconf

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

90 fying and treating weak interactions between long-distance domains with flexible and anharmonic conne

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

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

93 le BIR-mediated RMD (BIR/RMD) can act over a long distance (e.g., ~ 100-200 kb) when the DSB is close

94 with surface irradiance forcing to quantify long-distance effects of anthropogenic emissions on the

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

96 water and flexible polypeptide structure for long-distance electron transfer could provide a new dire

97 The mechanism of long-distance electron transfer via redox-active particu

98 sformations in distant cells are coupled via long-distance electron transport rather than an exchange

99 idation with oxygen or nitrate reduction via long-distance electron transport.

100 icipation in endurance training, competitive long distance endurance events, and high-intensity inter

101 ganizes neuronal chromatin including through long-distance enhancer-promoter and transcriptionally ac

102 Long-distance entanglement distribution can be realized

103 d development remain unclear, as they do for long-distance exchanges among African foragers more broa

104 anges within specialized functional systems, long-distance exchanges from the dorsal brain to the ven

105 their rapid colonization of roots and their long-distance exploration type.

106 During long-distance fall migrations, nocturnally migrating Swa

107 or limitations to the achievable capacity in long distance fiber optic transmission systems.

108 lt provides indirect support for the role of long-distance fibre pathways in the spread of neurodegen

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

110 tical and horizontal airstreams during their long-distance flights.

111 de spectroscopy of weak scattered light over long distances, fluorescence spectroscopy of single trap

112 mbryonic medial ganglionic eminence, migrate long distances following transplantation into the hippoc

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

114 within reach, even when kidneys are shipped long distances for highly sensitized recipients.

115 e monarch's global range, 2) whether initial long-distance founders were particularly suited for migr

116 anscriptional regulation of localized mRNA a long distance from corresponding nuclei.

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

118 Axons extend for tremendously long distances from the neuronal soma and make use of lo

119 ear the female's flight tone at surprisingly long distances-from several meters to up to 10 m-and tha

120 mechanisms of light signal transduction over long distances-from the site of photon absorption to the

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

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

123 l of type 1 diabetes mellitus (T1DM) affects long-distance genomic interactions.

124 collaborative or antagonistic dynamics over long distances (>2 kb) through transcription-induced DNA

125 d on the bacterial cell surface, function as long-distance (>10 nm) electron conduits linking intrace

126 How the Chi-dependent signal travels this long distance has been unknown.

127 for influenza that integrates both short and long distance human mobility, along with realistic data

128 ings show that dispersal caused by repeated, long-distance, human-mediated introductions has allowed

129 he spread of Ae. aegypti is characterized by long distance importations, while Ae. albopictus has exp

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

131 g base radical cations that can migrate over long distances in duplex DNA, ultimately generating 8-ox

132 exposure to such contaminants, littered over long distances in marine or terrestrial habitats, is due

133 of green turtles (Chelonia mydas) migrating long distances in the Indian Ocean to small oceanic isla

134 s of deformed gel, extending to surprisingly long distances in the intercellular medium.

135 how these hydrophobic molecules spread over long distances in the mammalian brain.

136 152) transported in a retrograde manner, the long-distance indirect projections (two to three synapse

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

138 ta complexes, and SATB1 further mediates the long-distance interaction of the distal enhancer with th

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

140 es (TNTs) are membrane conduits that mediate long-distance intercellular cross-talk in several organi

141 Caucasus, and providing a rare example of a long-distance, intercontinental population movement asso

142 bule-based motors, dynein and kinesin, drive long-distance intracellular cargo transport.

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

144 Signal propagation over long distances is a ubiquitous feature of multicellular

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

146 lity to communicate quantum information over long distances is of central importance in quantum scien

147 of both genomic RNA and subgenomic RNA1 via long-distance kissing stem-loop interaction to facilitat

148 eriments involving the SBF factor, suggest a long-distance loop transiently forms at the HO promoter.

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

150 compared pre- and post-breeding movements of long-distance migrant shorebirds on a continent-wide sca

151 led free-living individuals of a long-lived, long-distance migrant, the Brent goose Branta bernicla h

152 Long-distance migrants are assumed to be more time-limit

153 All long-distance migrants must cope with changing environme

154 eciated complexity in migratory decisions by long-distance migrants that contrast with the current pa

155 Here, we show for six trans-Saharan long-distance migrants that weather at the wintering and

156 Flexibility in spring migration timing of long-distance migrants to exogenous factors has been con

157 In some species, including avian long-distance migrants, plastic responses to early sprin

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

159 As migrants-especially long-distance migrants-may be particularly vulnerable to

160 catchers - the largest bird family - suggest long-distance migration contributes to reproductive isol

161 aves, how resource tracking and memory guide long-distance migration has not been reconciled.

162 e may thus profoundly influence the costs of long-distance migration in the future.

163 Long-distance migration of insects impacts food security

164 that some species of Anopheles mosquito use long-distance migration(3).

165 and provide valuable guidance cues for their long-distance migration.

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

167 t have extensive carbohydrate needs, such as long-distance migrators.

168 These include a broad host range, long-distance migratory behavior, and resistance to mult

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

170 a 25-year dataset in which individuals of a long-distance migratory bird, the alpine swift Tachymarp

171 We suggest that the timing programs of long-distance migratory birds may have greater adaptive

172 Long-distance migratory flights are predicted to be asso

173 Long-distance migratory organisms are under strong selec

174 an experimental study of the annual cycle of long-distance migratory pied flycatchers (Ficedula hypol

175 and potential reversible state effects in a long-distance migratory shorebird, the Hudsonian Godwit

176 Here, we studied the ontogeny of long-distance migratory strategies and related patterns

177 nesin-14 has been found to naturally exhibit long-distance minus-end-directed processive motility on

178 ive admixture during the Neolithic period to long-distance mobility within the globalized societies o

179 that 1) initial founders are well suited for long-distance movement and 2) loss of seasonal migration

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

181 C modification in mRNAs is crucial for their long-distance movement.

182 and avoid harsh climates, but these regular, long-distance movements also have implications for paras

183 We argue that similarly long-distance movements likely exist in many other speci

184 their navigation capacity for accomplishing long-distance movements remains remarkably understudied

185 uite of large mammals that had potential for long-distance movements to test which species displayed

186 ns of small changes, but more often involved long-distance moves into unknown ranges.

187 We mapped long-distance muscle precursor migrations with unprecede

188 response (PSR) by a combination of local and long-distance N signaling pathways in plants.

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

190 n of the desert ant Cataglyphis, a marvelous long-distance navigator.

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

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

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

194 amentation in open-air has been utilized for long distance optical communication and remote sensing,

195 local, continuum-based models to capture the long-distance particle motions characteristic of steepla

196 tion with gene expression, and observe ultra-long-distance pieQTLs (>1 megabase away), including seve

197 Because beech has long distance pollen and seed dispersal, these results i

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

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

200 timing and environmental context of a third long-distance population movement in Central Asia, durin

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

202 to various organelles and is crucial to the long-distance processivity of dynein-based complexes.

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

204 Diminished 22q11 gene dosage reduces long-distance projections, limits axon and dendrite grow

205 0 nm), (2,6-aza)Ind undergoes N(1)-H to N(6) long-distance proton transfer in neutral H2O, resulting

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

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

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

209 aves the way for mechanical systems enabling long-distance quantum information networking over optica

210 The long-distance quantum transfer between electron-spin qub

211 e and ice within which it can likely survive long-distance rafting dispersal due to its varying lifec

212 The EACBE is required for long-distance regulation of the Ealpha on the proximal V

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

214 tem by entering nerve endings and sustaining long-distance retrograde axonal transport to reach neuro

215 Long-distance RNA transport enables local protein synthe

216 e, coronaviruses are critically dependent on long-distance RNA-RNA interactions to regulate the viral

217 key channels of information transfer across long distances separating key protein components.

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

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

220 In the model plant Arabidopsis thaliana, long-distance signaling and SAR activation in uninfected

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

222 cusing on the role of peptides as short- and long-distance signaling molecules in plant cell communic

223 rafting has facilitated the discovery of new long-distance signaling molecules that function in coord

224 It highlights a thus-far unexplored long-distance signaling phenomenon that may regulate soi

225 tween organs and local coupling, rather than long-distance signaling.

226 Long-distance signalling is important for coordinating p

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

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

229 Multiple long-distance signals have been identified for pathogen-

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

231 generate and transduce these rapidly moving, long-distance signals referred to as systemic wound sign

232 Participation in a long-distance skiing event was associated with a 41% low

233 reversed at short distances and preserved at long distances so that two objects can remain without co

234 nce in signaling between local, adhesion and long-distance, soluble cues.

235 r before becoming infectious, result in more long-distance sparking events and less predictable disea

236 ve activity of newborn neurons that organize long-distance spatiotemporal patterning of differentiati

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

238 Based on the CLIP-read mapping, the long-distance standby effect in +42 tisB mRNA (~100 nt)

239 Our findings support the hypothesis that long-distance structural connectivity within the GNW pla

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

241 onnected by abundant local synapses and rare long-distance synapses.

242 interictal population spikes that spread via long-distance synapses.

243 elegans nervous system, we demonstrate that long-distance synaptic AMPAR transport is bidirectionall

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

245 Long-distance terrestrial migrations are imperiled globa

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

247 se are small songbirds (passerine) migrating long distances that need to alternate their migratory fl

248 alpha helices that carry information through long distances, the fine combination of loose and specif

249 lateral deformation emerge collectively over long distances; they increase with the distance from the

250 nd significant power can be transmitted over long distances through corrosion-free, lightweight fiber

251 ly though cell adhesion interactions or over long distances through diffusible gradients.

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

253 ying two immobile sperm cells that grow over long distances through the carpel toward the ovules, whe

254 Electron deficient "holes" migrate over long distances through the pai-system in free DNA.

255 apidly disperse the population of organelles long-distance throughout the cytoplasm.

256 r referral were identified for patients with long distance to the Phase I Unit compared with short di

257 in the prioritised countries have to travel long distances to access HIV treatment and few have acce

258 and birds inhabit dynamic systems, traveling long distances to locate food.

259 Although the key role of long-distance trade in the transformation of cuisines wo

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

261 PATs are present in neuronal axons, although long-distance trafficking of palmitoyl-proteins is impor

262 Long distance translocation arises when successive bouts

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

264 for applications in content recognition and long-distance transmission (>1 m), respectively.

265 olesterol modification in the processing and long-distance transmission of the Hh ligand, we have ana

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

267 in is a purine oxidative product involved in long distance transport of organic nitrogen in nodulatin

268 Along with its local production, long-distance transport coordinated by the efflux/influx

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

270 of sugars in plants, serving inter alia as a long-distance transport molecule, a carbon and energy st

271 Although we know that long-distance transport of AMPARs is essential for this

272 ociated microtubule tracks are essential for long-distance transport of cellular cargos.

273 In plants, long-distance transport of chemicals from source to sink

274 Reducing long-distance transport of dredged sediment is a priorit

275 attributable to complex NO(x) chemistry and long-distance transport of fine particulate matter with

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

277 rease the likelihood for cellular uptake and long-distance transport of MoS(2).

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

279 dary layer of leaves, which would enable the long-distance transport of plant pathogens through the a

280 Seed development largely depends on the long-distance transport of sucrose from photosynthetical

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

282 to physically break apart and reassemble the long-distance transport system, enabling the discovery o

283 static conditions indicate that PSI supports long-distance transport that is electrochemically gated

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

285 en brain areas either via local diffusion or long-distance transport via white matter fibre pathways.

286 )nes are ideal fuel components for aviation, long-distance transport, and shipping.

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 We find that long-distance travel was reduced disproportionately stro

290 Distributing entanglement over long distances using optical networks is an intriguing m

291 d cardiovascular events in a cohort of older long-distance walkers.

292 in I concentrations and clinical outcomes in long-distance walkers.

293 Most long-distance water transport in plants, or xylem sap fl

294 iew the mechanistic principles that underpin long-distance water transport in vascular plants, with a

295 , enabling mechanical stability in trees and long-distance water transport in xylem.

296 acellular vesicles (EVs) to communicate over long distances, which requires EVs to traverse the extra

297 to afford neuronal activity propagation over long distances while avoiding runaway excitation.

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

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

300 The signal can travel long distances without significant loss of fidelity, as