ライフサイエンスコーパス: drag

1 een R genes and deleterious alleles (linkage drag).

2 which sliding speed is proportional to basal drag.

3 the environmental noise and the intensity of drag.

4 , by animal's muscles) and the environmental drag.

5 e capture at stroke reversal, and rotational drag.

6 mber through the process of electro-osmostic drag.

7 id molecules and experienced greater viscous drag.

8 fouling, self-cleaning, anti-smudge, and low-drag.

9 ectly influences the consequences of linkage drag.

10 resistance and less sensitive to aerodynamic drag.

11 and collisions within the cloud or later gas drag.

12 experiencing both thermal kicks and viscous drag.

13 even if this results in higher hydrodynamic drag.

14 it from early transition, reducing friction drag.

15 imited by brake proteins or other sources of drag.

16 o "waterskate" along the duplex with minimum drag.

17 domain of UNC-40 that are crucial for UNC-40-DRAG-1 interaction and UNC-40 function.

18 owed LAPPEL, 32 eyes (33.7%) showed vascular dragging, 30 eyes (31.6%) had venous-venous shunts, and

19 s of slippage and Ekman drift and/or surface drag; 59% are directly driven by the sea surface current

20 mes covalently attached to the inhibitor, is dragged 75 A apart, and is irreversibly inhibited.

21 vessel straightening concerning for macular dragging (8 eyes, 61.5%) and thick stage 3 membranes wit

22 s and coordinate their movements in order to drag a common air cavity and dig deeper.

23 We dragged a grid barrier through an oblate superfluid Bose

24 is undiminished when walking backward while dragging a heavy food item [3-5].

25 ese lags may contribute to canceling viscous drag, a requirement for many models of cochlear amplific

26 ions (power setting, 30/50 W; point-by-point/drag ablations) were analyzed.

27 cy application especially in 50-W ablations, drag ablations, and steam pop.

28 reas high-power radiofrequency applications, drag ablations, and steam pops produced most of the micr

29 We use this model to show that a drag-activation-competition mechanism accurately describ

30 ed by electrophoresis on a microchip that is dragged along a polyvinylidene fluoride membrane so that

31 , in which case auxin in the apolar part is 'dragged along' by the polar part in a somewhat diffuse d

32 Hydrodynamic drag analysis is used to augment the single phase flow m

33 Tooth drag and bone puncture marks have been documented on sug

34 retically, both phases are affected by fluid drag and Brownian motion, which are themselves governed

35 have remained under-utilized due to linkage drag and cross-incompatibility.

36 s of targeted particles by equilibrating the drag and DEP forces acting on targeted particles.

37 onal tracks can be added by users via simple drag and drop to an existing visualization instance.

38 on the relative strengths of electrophoretic drag and electro-osmotic shear forces.

39 predicted ballistic nanofriction (ultra-low drag and enhanced lubricity) of gold nanocrystals on gra

40 f, climb and landing can result in increased drag and fuel consumption for aircraft with laminar-flow

41 asing recombination rates can reduce linkage drag and generate new genetic combinations.

42 devices, but may also be harnessed to reduce drag and generate power.

43 phases would theoretically result in higher drag and greater energetic costs.

44 icro-CT scans, and used to model rotational, drag and lift forces.

45 t is unclear how the particle's hydrodynamic drag and momentum vary locally and how they are mechanic

46 targets of reverse engineering mechanisms of drag and noise reduction.

47 dation of sensing performance due to viscous drag and relies on the availability of capture molecules

48 tion of these objects is dominated by Stokes drag and settling or rising effects, rather than stochas

49 jects) are first concentrated by aerodynamic drag and then gravitationally collapse to form objects 1

50 s to manipulate DNA, experiences significant drag and thereby obscures supercoil dynamics.

51 ts of the body are simultaneously generating drag and thrust.

52 to the flow stagnation region by the Stokes drag and thus form a continuous particle beam.

53 realistic conditions that include parasitic drag and vehicle brake temperatures (advanced vehicle si

54 e application for organizing domain terms by dragging and dropping terms to appropriate locations.

55 By dragging and dropping tools and connecting them to indic

56 the dependence on the elastic load, viscous drag, and the mass.

57 y friction at the ice-bed interface and form drag, and the resistance to ice flow that arises as ice

58 s the metal-insulator transition and Coulomb drag, and to the realization of functional devices, such

59 quid spreading directionality, control fluid drag, and tune optical transmittance over a large range.

60 ttracting the droplets into the track, fluid drag, and wall friction, with the droplet radius.

61 ynamic modelling shows that doing so reduces drag-and in turn, the cost of transport-by around 10% co

62 FASTA with Qualities (FASTQ) format through drag-and-drop operations, (ii) rapid prediction of micro

63 Greater drag anisotropy in the sediment medium is observed to bo

64 nti-fouling, self-cleaning, anti-smudge, low-drag, anti-fog, and oil-water separation applications.

65 swimming in water with the same stroke using drag-assisted propulsion.

66 t color and precisely visualized the linkage drag associated with wild introgressions.

67 America is likely due (at least in part) to drag at the base of the lithosphere.

68 rbulent regime, provided there is sufficient drag at the bottom of the atmosphere and ocean.

69 tmospheric jet streams and/or low frictional drag at the bottom of the atmosphere.

70 pendent of basal drag (friction), even where drag balances most of the driving stress.

71 issipation by vortex annihilation and vortex drag becomes efficient.

72 amic flows in the cytoplasm and the relative drag between the cytoskeleton network phase and the wate

73 ns are related to a time evolving frictional drag between the moving charged glass particles and the

74 ent of tractional retinal detachment, folds, dragging, breaks, rhegmatogenous detachment, or worsenin

75 'super'-Cu atoms to/from the tip with their drag by and diffusion on the tip.

76 erally thought to result mainly from viscous drag by the surrounding fluid.

77 ity gradients that fish use to avoid getting dragged by flowing water.

78 between robust states, through "passes" or "dragging" by drug effects.

79 nsition from solid-like friction to Stokes's drag, can be induced by coating F-actin with polymeric b

80 Here, a novel methodology, water-surface drag coating, is demonstrated to fabricate high-quality

81 tion to enlarge the grain size, and a unique drag-coating process to achieve the unidirectional growt

82 Results show that the relationship between drag coefficient and wind speed is parabolic.

83 examine and present the relationship between drag coefficient and wind speed.

84 -1) when regressed from the medium number of drag coefficient for each bin.

85 these patterns results in the control of the drag coefficient of spherical samples by up to a factor

86 ithin the canopy volume, and C(d) is a local drag coefficient per unit frontal area derived to includ

87 ncy of swimming and flying, analogous to how drag coefficient quantifies aerodynamic drag on vehicles

88 hreshold is 22.33 ms(-1) when regressed from drag coefficient, and it is 22.65 ms(-1) when regressed

89 rated wind speed threshold, we regressed the drag coefficients for wind speed scope from 10 ms(-1) to

90 velocity relationships, yielding nonconstant drag coefficients that are not captured by original resi

91 ematode's body shape along with the measured drag coefficients to predict the forces generated by a c

92 surface electrons, both diffusion and phonon drag contributions are essential for the hole surface ca

93 ing entails a high energetic cost due to the drag created by an open mouth at high speeds [1,2].

94 of three fundamental forces (gravity, fluid drag, diffusion) provide a sufficient approximation of o

95 f mass at low Reynolds numbers where viscous drag dominates inertia.

96 ideos portraying seven manipulative actions (drag, drop, grasp, push, roll, rotate, squeeze) in four

97 The parrotlets repurpose lift and drag during these flights with lift-to-drag ratios below

98 ommon among behavioral economists who aim to drag economics southward but not eastward.

99 riches to partial dislocations and imposes a drag effect on dislocation movement, thus reducing the c

100 s in both harmonic generation and the photon drag effect, correlated to the resonance behavior in the

101 n first-principles computation of the phonon drag effect--a coupling phenomenon between electrons and

102 can be achieved by the field-induced surface dragging effect on an aligning layer with a weak surface

103 high purity, there was a negligible impurity-drag-effect on boundaries.

104 hown evidence for precession(1) due to frame-dragging effects that occur when the black-hole spin axi

105 ees C) form wormlike micelles that provide a drag equivalent to an uncharged DNA fragment with a leng

106 of rotation indicated that the lower viscous drag experienced by spherical spindles prevented recaptu

107 Plate drag experiments demonstrate that granular yield stresse

108 ntraflagellar Ca(2+) elevations in trailing (dragging) flagella only, acting to specifically clear th

109 Fluid drag force actuates the hydrogel cupula and deflects the

110 lective effect of acoustic streaming induced drag force and non-Newtonian fluid induced elastic lift

111 n the viscosity of the solvent increases the drag force and slows down the gating.

112 gatively displaced heads will impart minimal drag force because of S2 buckling.

113 ft equipped with a thrust and subjected to a drag force can be bounded at specific altitudes as funct

114 It is found that the drag force could affect the particle's movement through

115 Moreover, it is shown that the viscous drag force exerted by flow on a translocating DNA can be

116 ne and produce localized secondary Dean flow drag force in addition to global Dean flow drag force.

117 y arises due to a competition between upward drag force increased locally by gas channeling and downw

118 eometric confinement of the PSM, because the drag force is increased substantially due to hydrodynami

119 e electrostatic force, and (c) the diffusive drag force that is a central feature of the Maxwell-Stef

120 spheric foundering induces an asthenospheric drag force, which drives continued underthrusting of the

121 y migration in grain growth by imposing less drag force.

122 ation force and acoustic-streaming Stokesian drag force.

123 w drag force in addition to global Dean flow drag force.

124 be detached by the streaming-induced Stokes drag force.

125 ternal magnetic field gradient to generate a dragging force.

126 the attractive DLVO-force and the shear and drag forces acting on a bacterium near collector surface

127 ation which, when combined with hydrodynamic drag forces and electric field forces, provides a rich r

128 are of great interest given the substantial drag forces and torques they face when moving down the s

129 e to pH-dependent protein charge and viscous drag forces caused by electro-osmosis.

130 A growing aggregate experiences frictional drag forces exerted on it by fluid moving over or throug

131 t of opposing optical scattering and fluidic drag forces for selective separation of exosome size bio

132 inhibition may be at least partially due to drag forces from weakly attached myosin heads.

133 rimental data, we measured flow profiles and drag forces imposed to trapped red blood cells of living

134 ce measurement technique, we have probed the drag forces involved in Caenorhabditis elegans locomotio

135 alignment of optical scattering and fluidic drag forces is a fundamental shortcoming of this techniq

136 , bond formation was insufficient to balance drag forces on an early thrombus and keep it intact.

137 he bonds existing at any time to sustain the drag forces on the aggregate determines whether it remai

138 due to the high shear stress or/and viscous drag forces operating there.

139 This relative motion generates drag forces which the fluid and thrombus exert on one an

140 uses the balance between optical and fluidic drag forces within a microfluidic channel to determine t

141 d by the optical gradient and radial fluidic drag forces working together to align the particles alon

142 fast glacier sliding is independent of basal drag (friction), even where drag balances most of the dr

143 n--"body-friction legged crawling" with body drag, friction-dominated leg thrust, but no media flow a

144 This may be due to the effect of viscous drag from surrounding nurse cells together with confinem

145 s predict symmetric upwelling due to viscous drag from the diverging tectonic plates, but have been c

146 within the curved liquid meniscus and fluid drag from the pillars at ultra-low Reynolds numbers [For

147 its rate of diffusion due to the additional drag from the stalk-like connection between the two memb

148 , which they drag to find surface asperities-dragging further when they can squeeze less.

149 The first, the Nansen wave-making drag, generates a stationary internal wake which produce

150 structures, concurrent precipitation, solute drag, grain growth and texture evolution are discussed i

151 To determine how birds use lift and drag, here we report aerodynamic forces and kinematics o

152 ition at which ATP binding occurs and by the drag imposed on the axle as it rotates within the ring o

153 A ship encounters a higher drag in a stratified fluid compared to a homogeneous one

154 the distance-dependent change of the viscous drag in directions perpendicular and parallel to the cel

155 undulatory swimmers spend energy to overcome drag in the direction of swimming is inappropriate.

156 necessarily spend muscle energy to overcome drag in the direction of swimming needs revision.

157 They control misting and reduce drag in the same manner as ultralong covalent polymers.

158 are also multifunctional, with hydrodynamic drag (in fish), coloration for camouflage or intraspecie

159 adding surfactants yields barely measurable drag increases.

160 monotonic variation in run length as viscous drag increases.

161 It relies on the cytoplasmic drag induced by organelle movement and readily accounts

162 Fluid drag is conceptualized via a critical Reynolds number: [

163 a vertical force that supports weight, while drag is considered a horizontal force that opposes thrus

164 The brake drag is estimated to contribute about 34% to the total a

165 It was found that viscous drag is more effective than elastic load in enhancing th

166 The induced cytoplasmic drag is predicted to depend mainly on the distribution o

167 and further reveals that although the phonon drag is reduced in heavily doped samples, a significant

168 The second, the Ekman wave-making drag, is characterized by velocity oscillations caused b

169 precession, an effect of relativistic frame dragging, is a prediction of general relativity.

170 a few steps forward, return to the food, and drag it backward in a now-corrected direction defined by

171 Ants often walk backwards to drag large prey to their nest.

172 etical basis for the phenomenological Stokes drag law as well as strengthening assertions that nonhyd

173 es, for different formulations of the bottom drag law.

174 ion-based shortening is countered by viscous drag, leading to an unexpected, non-monotonic variation

175 A moving medium drags light along with it as measured by Fizeau and expl

176 tes a rapid capillary-driven flow capable of dragging liquid samples as well as gold nanorods into a

177 ticle dispersion, pathogenic infections, and drag manipulation by surface topology.

178 udskipper), a physical robot model, granular drag measurements, and theoretical tools from geometric

179 Frictional drag measurements, performed inside a bespoke Taylor-Cou

180 female reproductive tract (FRT) of humanized DRAG mice have a high level of human lymphocytes and a h

181 se intravaginal HIV-1 challenge of humanized DRAG mice results in 100% infectivity with accumulation

182 may contribute to the high susceptibility of DRAG mice to HIV-1 infection.

183 gammacKO) mice expressing HLA-DR4 molecules (DRAG mice) and those co-expressing HLA-DR4 and HLA-A2 mo

184 te samples and identified the best-available drag model to quantitatively describe their sinking beha

185 Depending on drag model utilized, the drag power may be greater than

186 three seed release mechanisms: (i) a simple drag model; (ii) a seed deflection model; and (iii) a 'w

187 tly affect the evaluation of shape-dependent drag models.

188 hat they can have tuning in water, where the drag more heavily dampens the tuning than in air.

189 ying a single allele of the BC supergene and dragging multiple non-synonymous mutations to high frequ

190 r via active location recall or by passively dragging objects to predetermined locations.

191 eologically stronger zones that transmit the drag of the major plates to the microplate and of the me

192 A drag of water flow at the first water layer is revealed,

193 he foot trajectory as well as diminished paw drag often observed after hemisection.SIGNIFICANCE STATE

194 n bias, but larger clusters also induce more drag on collective motion.

195 ysis shows how the interplay between viscous drag on filaments and motor-induced forces governs force

196 organizing fast phase is a result of viscous drag on kinesin-driven cargoes that mediates equal and o

197 s problem, we suddenly increased the viscous drag on motors by a large factor, from very low loads ex

198 d the polarity patch and act as an effective drag on patch movement.

199 caudal fin, substantially decreasing the net drag on the anterior body.

200 e forward thrust from swimming movements and drag on the body.

201 ns included physiologically relevant viscous drag on the cargo and interrogated a large parameter spa

202 the result of a force balance between fluid drag on the cell and matrix adhesion tension and is ther

203 Simulation indicated hydrodynamic drag on the chiral cell shape caused rotation, and the p

204 titative information, e.g., the hydrodynamic drag on the dumbbell.

205 environments, generating thrust to overcome drag on the elongate body via contacts with heterogeneit

206 frictional forces that can dominate viscous drag on the micrometer-sized hair bundle.

207 ce contamination problems but also increases drag on these surfaces.

208 how drag coefficient quantifies aerodynamic drag on vehicles.

209 ty measurements, while models lacking either drag or competition do not.

210 rising from chiral asymmetry in hydrodynamic drag or propulsion bending the swimming path into a heli

211 re locomotion is challenged by large viscous drag, organisms must generate time-irreversible deformat

212 ed effective strategies to reduce their body drag over a long period of time.

213 nifested 1 or more of the following: macular dragging, partial retinal detachment, falciform folds, o

214 s, predicated as the magnon-mediated current drag phenomenon.

215 o produce pressure surface maps and lift and drag polar diagrams at various angles of attack.

216 rly eighty years ago, Gray reported that the drag power experienced by a dolphin was larger than the

217 ate lateral undulations of the body, and the drag power is balanced not by the muscle power but by th

218 Depending on drag model utilized, the drag power may be greater than muscle power without bein

219 Dynein drags RabE(RAB11) carriers away if engagement of MyoE(MY

220 from a cross-sectional study conducted at a drag racing event on September 12-13, 2015 in Madison, I

221 Modeled flight properties indicate that lift:drag ratios and glide ratios for P. sandersi were near t

222 t and drag during these flights with lift-to-drag ratios below two.

223 gliding at high-lift coefficients (low lift/drag ratios).

224 ous epidermis of plant seeds, as inexpensive drag reducers in large Reynolds number turbulent flows.

225 a common synthetic polymer widely used as a drag reducing agent in aqueous flows.

226 ve and eco-friendly substitute for synthetic drag reducing polymers in large scale turbulent flow app

227 e catheters, adaptive wings for aircraft and drag-reducing wind turbines.

228 elf-cleaning, stain-proof, anti-bio-fouling, drag-reducing, or anti-fogging, for smartphone screens,

229 significance of surfactants in deteriorating drag reduction and thus the importance of including surf

230 sed onto using superhydrophobic surfaces for drag reduction applications.

231 ffective slip length, corresponding to a 23% drag reduction at an optimal theta approximately 10 degr

232 ar skin friction coefficient and the related drag reduction due to the formation of finite velocity a

233 -cleaning capabilities, we have demonstrated drag reduction effects of the fabricated films through d

234 seeds (Linum usitatissimum) and compare its drag reduction efficacy to that of poly(ethylene oxide)

235 s (SHSs) have the potential to achieve large drag reduction for internal and external flow applicatio

236 ly discovering active control strategies for drag reduction in turbulent flow.

237 We showed that the flow drag reduction induced by the presence of the porous med

238 er that loach could move quickly in mud, the drag reduction mechanism of Paramisgurnus dabryanus loac

239 This corresponds to a theoretical drag reduction of about 27%.

240 es enable switchable and tunable aerodynamic drag reduction of bluff bodies.

241 gy method provides a potential reference for drag reduction of underwater machinery.

242 While researches have focused on drag reduction of various coated surfaces such as superh

243 hat the as-extracted mucilage has comparable drag reduction performance under turbulent flow conditio

244 insight into the physical mechanisms of the drag reduction process.

245 self-adaptation characteristic can keep the drag reduction rate always at high level in wider range

246 that flexible deformations can maximize the drag reduction rate.

247 limiting the widespread adoption of polymer drag reduction techniques in large-scale engineering app

248 The soot covered cylinders achieved a 30% drag reduction when comparing the superhydrophobic state

249 ts, our measurements correspond to up to 21% drag reduction when theta is in the range of -2 degrees

250 anti-biofouling, anti-icing, anti-corrosion, drag reduction, droplet manipulation and drop-wise conde

251 for developing liquid-repellent surfaces for drag reduction, water desalination, and preventing bio-f

252 occur across the surface which results in a drag reduction.

253 for both applied and fundamental aspects of drag reduction.

254 ale engineering applications, such as marine drag reduction.

255 lectrodeposited copper mesh cylinders showed drag reductions of up to 32% when comparing the superhyd

256 a precise evaluation of the thermal load and drag reductions.

257 eed to generate propulsive force to overcome drag, regardless of whether they swim steadily or accele

258 many-body effects, and find that the Coulomb drag resistivity significantly increases for temperature

259 rs old or younger) identifies potential wind-drag ripple stratification formed under a thin atmospher

260 Rather, these structures resemble fluid-drag ripples, which on Earth include water-worked curren

261 RBT employs gold nanoparticles as bright low-drag rotational and extensional probes, which are monito

262 NS and CNS myelination and remyelination, to drag Sox10 out of the nucleus.

263 onor, we further demonstrated the ability of DRAG strategy to measure subtle quantitative differences

264 lded edges of Dickinsonia, felled fronds and drag structures generated by uprooted frond holdfasts.

265 Effects of drag-tag polydispersity are not observed, despite the in

266 The large drag-tag size of the CiEj buffers leads to steric segreg

267 hat the use of wormlike nonionic micelles as drag-tags in end-labeled free-solution electrophoresis (

268 first study, we observed that the click-and-drag test was better than the conventional static test a

269 are more effective in counteracting viscous drag than providing elastic energy to the system.

270 lel to flow, (3) is characterized by greater drag than typical sharks across all attack angles, and (

271 lows us to estimate the torque and resistive drag that act on the flagella of these major spirochetal

272 elongated aggregate, drastically increasing drag that consequently slows droplet rising velocity.

273 tensification, but also provides some of the drag that limits intensity and intensification.

274 ng of the paws had reversed to a tendency to drag the dorsum of the paws.

275 , depend on astral microtubule dynamics that drag the nucleus through the zygote; known as horsetail

276 Instead, the motor moves EEs that drag the POs through the cell.

277 change of transmembrane potential V, further drag the S4 segment and induce opening/closing of the io

278 Moreover, when we dragged the Golgi out of dendrites with an activated kin

279 These results support an attentional drag theory, whereby attentional engagement is prolonged

280 ric effect-electron spiral motion and magnon-drag thermopower-as well as enhancing phonon scattering.

281 e defect site because of increased hydraulic drag through damage site during filtration.

282 The pyocin is then dragged through this narrow channel following delivery o

283 For example, we demonstrate that the drag-thrust separation framework helps to predict the ob

284 We also show how drag-thrust separation leads to models that can predict

285 listic friction from their claws, which they drag to find surface asperities-dragging further when th

286 wing how avian precursors may have relied on drag to take off with flapping wings.

287 gy, Dual Reactions for Analytical Glycomics (DRAG), to quantitatively compare neutral and sialylated

288 We focus on the Coulomb drag transport measurements, which are sensitive to many

289 which orients lift forward to accelerate and drag upward to support nearly half of their bodyweight.

290 helicase has the potential to break linkage drag utilizing widespread gene conversions.

291 ripheral vascular leakage (LAPPEL), vascular dragging, venous-venous shunts, and arteriovenous shunts

292 We designed a click-and-drag version of the Raven test in which participants cou

293 This yield drag was not observed in the DmGSTE6-expressing Arabidop

294 Tick drags were conducted 3-4 weeks after treatment on 10% of

295 ces in aerodynamic attributes (e.g., foliage drag) were accounted for.

296 the major phonons contributing to the phonon drag, which are spectrally distinct from those carrying

297 e use of angular probes with high rotational drag, which prevents detection of short-lived intermedia

298 st abatement in thermal load and aerodynamic drag, while subsonic or fluctuating ones can also provid

299 ary internal wake which produces a kinematic drag with a noticeable hysteresis.

300 a planetesimal disk that, evolving under gas drag, would have driven any preexisting short-period pla