ライフサイエンスコーパス: buoyant

1 from clouds that were previously positively buoyant.

2 e sites, CO(2) stored in these reservoirs is buoyant.

3 ither detergent or lipid molecules neutrally buoyant.

4 with increasing wind speed, suggesting that buoyant aircraft exhaust plumes were the likely source.

5 t spawners, whose eggs tend to be positively buoyant and aggregate at the sea surface.

6 wn" for many years that continental crust is buoyant and cannot be subducted very deep.

7 omalies at depths of 200 kilometres-are more buoyant and entrain both high-(3)He/(4)He and low-(3)He/

8 nt on nonsteady flame convection governed by buoyant and inertial interaction advances both theory an

9 he lateral redistribution of restitic, hence buoyant and relatively low-viscosity, lower lithospheric

10 However, mantle melts are buoyant and should migrate toward the surface.

11 Niemann-Pick type C lysosomes were similarly buoyant and sluggish.

12 advantage, since its micelles are neutrally buoyant and the detergent allows a reversible associatio

13 nodisperse (mean diameter 283 nm), neutrally buoyant, and hydrophilic and exhibited no adsorption on

14 awners, gametes are positively or negatively buoyant, and, as a result, fertilization occurs on a two

15 tyrene microspheres suspended in a neutrally buoyant aqueous solution are used as model particles to

16 ducted Nazca plate appears to be anomalously buoyant, as it levels out at about 100 km depth and exte

17 It is buoyant--being less dense than the crust under the surro

18 This result shows that young and positively buoyant, but weak, lithosphere was the preferred site fo

19 ity and immunoreactivity were extracted into buoyant caveolar fractions with Triton X-100.

20 formation, called a caprock, that keeps the buoyant CO(2) within the injection formation.

21 terly wind that transported large amounts of buoyant cold and fresh water into the northern North Atl

22 LMP2A is not required for LMP2A targeting to buoyant complexes or for function.

23 than predicted from analogy to heat loss by buoyant convection, a theory frequently employed in Mars

24 ealed that HCV RNA is enriched in the highly buoyant COPII vesicle fractions and cofractionates with

25 overcome these barriers, we created porous, buoyant, core-shell hydrogel nanoparticles containing no

26 Necking is triggered by thickened buoyant crust entrained into a subduction zone, in which

27 g by considering a fluid-immersed negatively buoyant cylinder moving along a soft inclined wall.

28 lities and flow-driven collective motions of buoyant, deformable seagrass.

29 tinct populations of vesicles with different buoyant densities and sedimentation coefficients were de

30 into at least two populations with different buoyant densities and unique cargo molecules.

31 hes from a mixture of membranes with similar buoyant densities following Lubrol WX extraction or soni

32 hout disinfection and at successively higher buoyant densities from monthly disposable contact lenses

33 MUC2, and MUC5AC mucins eluted mainly at low buoyant densities in extractions from lenses worn long t

34 ntified in cell lysates; these particles had buoyant densities of 1.06 and 1.12 to 1.17 g/ml in sucro

35 features of beta-retroviruses sedimenting at buoyant densities of 1.12 to 1.18 g/mL in sucrose gradie

36 lucose or [12C,1H]glucose, respectively) had buoyant densities of 1.643 and 1.585 g ml-1, respectivel

37 insulator or boundary elements are found at buoyant densities similar to those of free protein and a

38 subdomains separable by means of their light buoyant densities through sucrose density gradient centr

39 dichalcogenides due to their high intrinsic buoyant densities when encapsulated with ionic small mol

40 in lysates had a surprising range of sizes, buoyant densities, and distinct relative amounts of enca

41 ese putative capsule mutants have dissimilar buoyant densities, suggesting different levels of capsul

42 ious virus subpopulations differing in their buoyant densities, we show that these HCV particles util

43 apolipoprotein (apo) association as well as buoyant densities.

44 s in distribution of HCV in a broad range of buoyant densities.

45 ants to engineer subtle differences in their buoyant densities.

46 kinetics, higher peak titers, and increased buoyant densities.

47 cal sedimentation coefficients and different buoyant densities.

48 ifferentiate hetero-sized liposomes by their buoyant densities.

49 ectious virus particles have low to very low buoyant densities.

50 of PI4KIIalpha and its association with low buoyant density "raft" domains are critically dependent

51 esistant membranes (DRM-H) exhibits a higher buoyant density ( approximately 1.16 g/ml) because of as

52 yant density (1.21 to 1.24 g cm(-3)) and low buoyant density (1.169 to 1.171 g cm(-3)).

53 zed in the OM, which contained areas of high buoyant density (1.21 to 1.24 g cm(-3)) and low buoyant

54 entation value of approximately 100S, have a buoyant density (1.28 g/ml) on cesium chloride similar t

55 (approximately 65 to 70 nm) but different in buoyant density (approximately 1.15 to 1.20 g/ml) from e

56 centrifugation and identified by appearance, buoyant density (rho), and cytochrome b content.

57 were associated with a membrane fraction of buoyant density 1.10-1.14 g ml-1, which partially overla

58 ional analyses, including PCR amplification, buoyant density analysis in a CsCl gradient, and immunop

59 lt, HCV virions display a characteristic low buoyant density and a deceiving coat, with host-derived

60 ed a membrane bilayer and displayed a higher buoyant density and a lower infectivity-to-HCV RNA ratio

61 Here, we show dynamic changes in the buoyant density and abundance of EVs that are secreted b

62 Viral mRNAs segregate at a higher buoyant density and are likewise scant in immunopurified

63 -protein crosslinked material has an altered buoyant density and can be purified by banding in cesium

64 R were enriched on the basis of their unique buoyant density and composition of cholesterol, caveolin

65 EV subset was smaller and exhibited a higher buoyant density and distinct phospholipid composition co

66 opurified with RNA polymerase complexes, and buoyant density and polymerase studies suggest that C. p

67 fied recombinant vesicles: (i) have the same buoyant density as mammalian caveolae; (ii) appear as ap

68 ent-resistant fraction was isolated as a low buoyant density band on sucrose density gradients and ex

69 rkedly increased numbers of nonadherent, low buoyant density cells per liver.

70 Maximal release of low buoyant density cells propagated from control livers was

71 nlarged heteromorphic lamellar structures by buoyant density centrifugation and subsequent SDS-PAGE a

72 lectrophoresis after partial purification by buoyant density centrifugation.

73 by transmission electron microscopy, with a buoyant density characteristic of coronaviruses.

74 These organelles had a buoyant density consistent with vacuoles, and alpha-TIP

75 The buoyant density difference between competent and non-com

76 d two-surfactant micelle, leading to a large buoyant density difference between the electronic specie

77 radient centrifugation: one subpopulation of buoyant density equivalent to 22% to 28% (w/w) Suc; the

78 Surprisingly, buoyant density fractionation revealed that only a minor

79 disk membranes because detergent-treated low buoyant density fractions isolated from homogenates with

80 tched and caveolin-1 can be co-isolated from buoyant density fractions that represent caveolae/raft m

81 erential centrifugation (DC) and equilibrium buoyant density gradient centrifugation (EBDC).

82 A glycogen selection/screening regimen of buoyant density gradient centrifugation and iodine vapor

83 dithiothreitol (DTT)-mediated reduction, and buoyant density gradient centrifugation.

84 y of Golgi-derived or endosomal membranes in buoyant density gradients, although changes in ionic str

85 -tagged Och1p reside in a compartment with a buoyant density identical to that of wild-type Och1p and

86 chains that effectively reduces the overall buoyant density in aqueous solution.

87 gments (DRMs) that exhibit a relatively high buoyant density in sucrose (DRM-H; d approximately 1.16

88 X-100 insolubility; and (ii) their discrete buoyant density in sucrose gradients.

89 0-100 nm) and morphology (cup-shaped) with a buoyant density in sucrose of 1.12-1.18 g/ml.

90 ere enriched in a minor membrane fraction of buoyant density intermediate between that of cytoplasmic

91 fferent chromatin regions according to their buoyant density may bias chromatin immunoprecipitation r

92 ranes, since adenylyl cyclase targets to low buoyant density membrane fractions of HEK cells that lac

93 for enhancement of its association with low buoyant density membrane fractions, commonly termed lipi

94 us particles produced from the culture had a buoyant density of 1.13 to 1.15 g/ml in sucrose and coul

95 HCV-LPs showed a buoyant density of 1.17 to 1.22 g/cm(3) in a sucrose gra

96 phology, with a diameter of 36 nm, and has a buoyant density of 1.37 g/ml.

97 density gradient ultracentrifugation, had a buoyant density of 1.375 g/cm3 and consisted of a head (

98 r peak at 1.4 M sucrose, consistent with the buoyant density of catecholamine storage vesicles.

99 A decrease in the buoyant density of chromaffin granules was observed afte

100 The virus particles in the medium had the buoyant density of extracellular enveloped viruses (EEV)

101 The buoyant density of formaldehyde-fixed ribosomes in cesiu

102 since NP-40 did not significantly affect the buoyant density of HCV replication complexes or protease

103 actors in the lower density fractions at the buoyant density of membrane-associated proteins.

104 In an equilibrium gradient, Tgl bands at the buoyant density of membranes and with the NADH-oxidase a

105 ficients as well as the molecular weight and buoyant density of rat mitochondrial ribosomes were dete

106 A determination of the buoyant density of the cross-linked particle in CsCl led

107 By measuring additionally the buoyant density of the cross-linked particle in CsCl we

108 The buoyant density of the enzyme in Cs2SO4 is 1.42 g/ml, wh

109 evels are low, even at 30 degrees C, and the buoyant density of the OM is correspondingly lower.

110 We also modify the buoyant density of the particles by altering the copolym

111 Moreover, the buoyant density of the virion was not changed when MHV w

112 repares an insoluble membrane fraction whose buoyant density permits its flotation in discontinuous s

113 usage did not correlate with a change in the buoyant density profiles of the variants, suggesting an

114 D81-LEL) inhibition, entry factor usage, and buoyant density profiles.

115 in-rich membranes obtained by detergent-free buoyant density separation.

116 oped a novel approach based upon a selective buoyant density shift of the brain lysosomes in a mutant

117 In buoyant density sucrose gradients performed with and wit

118 (HCV) particles display a distinctly higher buoyant density than do secreted virus particles, sugges

119 V correlated with virions of a lower average buoyant density than HCVcc, suggesting that physical ass

120 e 2B and 2C proteins, membranes identical in buoyant density to those observed during poliovirus infe

121 ecular-weight protein complexes shifts their buoyant density to values much lower then that of bulk c

122 tal tissue membranes yielded material with a buoyant density typical of mucins.

123 Buoyant density ultracentrifugation analyses showed that

124 t VLDL maturation (as assessed by changes in buoyant density) was associated with conformational chan

125 cholesterol and sphingolipids, have a light buoyant density, and function in both endocytosis and ce

126 for lacking cell attachment protein sigma1), buoyant density, and particle morphology by scanning cry

127 that have the sedimentation coefficient, the buoyant density, and the protein composition similar to

128 rticle complexes of progressively decreasing buoyant density, approaching the density of protein alon

129 4p were similar morphologically and in their buoyant density, but larger than normal COPII vesicles (

130 subunit of the rod CNG channel) with the low buoyant density, caveolin-1-enriched membranes was also

131 le from the vesicles formed in vivo by their buoyant density, protein composition, topology, and morp

132 man B lymphocytes, isolated as a function of buoyant density, require activation for up-regulation of

133 These subfractions resemble, in low buoyant density, structures of the plasma membrane terme

134 Using buoyant density-dependent isolation and further enrichme

135 entry of HCV particles independent of their buoyant density.

136 iwall nanotubes through differences in their buoyant density.

137 les, and in membrane structures with a lower buoyant density.

138 form, also brings about a similar change in buoyant density.

139 ry granules and were similar to lysosomes in buoyant density.

140 h full-length genomes based on their lighter buoyant density.

141 nrelated extracellular vesicles with similar buoyant density.

142 d little or no impact on apoB28 secretion or buoyant density.

143 lose and separated by rate sedimentation and buoyant density.

144 Gp and Pex3p budded vesicles sediment as low-buoyant-density membranes on a Nycodenz gradient and cop

145 n-1 in ROS almost exclusively resides in low-buoyant-density, cholesterol-rich, detergent-resistant m

146 ched fractions were isolated and purified as buoyant, detergent-resistant membranes (DRMs) in OptiPre

147 dering appears to be independent of particle buoyant direction, suggesting only minor centrifugal con

148 n isoform and active beta1 integrin from the buoyant domains in the heart; (4) increased expression o

149 owing that encounter rates between neutrally buoyant elongated cells are up to 10-fold higher than fo

150 es become congested when they try to consume buoyant, exotic crust.

151 Although buoyant extrusion is accentuated in this region by the g

152 ess this knowledge gap, we used a negatively buoyant fish, the clearnose skate Raja eglanteria, and t

153 motion across speeds, at least in negatively buoyant fish.

154 ensity, low-viscosity conduits through which buoyant flow is rapid, yielding transport times commensu

155 ng the example model is presented simulating buoyant fluid (CO2) migration and resulting saturation d

156 sliver fault provides a natural pathway for buoyant fluids attempting to migrate upward after being

157 ving depth, and counterbalance the increased buoyant force of a denser, glacial ocean.

158 ties greater than the cell density where the buoyant force should push the amoeba upward.

159 correlated (R(2) = 0.96) with variations in buoyant forces and contact forces (between bead and micr

160 tely 600 km arises from combined viscous and buoyant forces resisting slab penetration into the lower

161 analyses showed that the organelles in this buoyant fraction contain enveloped infectious HSV partic

162 Reductase also appears in a buoyant fraction of sterol-treated cells that co-purifie

163 uoyant membrane fractions (BF) and heavy/non-buoyant fractions (HF); beta2-adrenergic receptors (AR)

164 NMDAR2B distributed to buoyant fractions and heavy fractions, partially colocal

165 P-Src and P-ERK1/2, redistributed NMDAR2B to buoyant fractions, and enhanced NMDAR2B localization to

166 Galpha(s), and adenylyl cyclase (AC)5/6 from buoyant fractions, decreasing AC5/6 and tyrosine-phospho

167 nce of contaminating proteins in LD-enriched buoyant fractions.

168 gas vesicle protein (gvpAC) genes specifying buoyant gas vesicles.

169 on system and arsenic resistance, as well as buoyant gas-filled vesicles and a two-component regulato

170 cessary and sufficient for the production of buoyant gas-filled vesicles.

171 d envelope gp120 proteins accumulated in low buoyant, high-density fractions.

172 Tcf1-/- mice resides predominantly in large, buoyant, high-density lipoprotein (HDL) particles.

173 nd buoyant oceanic plateau crust, creating a buoyant 'Hikurangi' melange beneath the Moho that intera

174 n acoustic scattering cancellation shell for buoyant hollow cylinders submersed in a water background

175 Neutrally buoyant immobilized paramecia also align with their long

176 from excess of blood cells using gas-filled buoyant immuno-microbubbles (MBs).

177 O renders the cell's water content neutrally buoyant in both measurements, and thus the paired measur

178 Although carbonate melts may still be buoyant in the lower mantle, an increased viscosity by a

179 We modeled the buoyant jet of petroleum liquid droplets, gas bubbles, a

180 accumulation of material from a thin, weak, buoyant layer present beneath the entire oceanic lithosp

181 = 0.56); LDL cholesterol (r = 0.70); large, buoyant LDL [Svedberg flotation rate (S(f)) 7-12; r = 0.

182 o increases HDL cholesterol and larger, more buoyant LDL particles.

183 sity and that the relative resistance of the buoyant LDL to oxidation, compared with the dense LDL, i

184 susceptible to glycation in vitro than more buoyant LDL.

185 in action of converting small dense to light buoyant LDL.

186 ividuals whose profiles peak in larger, more buoyant LDL.

187 DL and the LDL mass concentrations of large, buoyant LDL; LDL-I; HDL cholesterol; and apolipoprotein

188 own to high density, merlin shifts to a more buoyant lipid raft fraction in a density gradient.

189 ndependent of MTP and events associated with buoyant lipoprotein formation and 2) domain-specific fol

190 and -20.1 underwent efficient conversion to buoyant lipoproteins when coexpressed with MTP.

191 tribution: A fast convergence rate and young buoyant lithosphere are not required to produce mega-ear

192 decay-accelerating factor) expression in the buoyant low-density Triton-insoluble (LDTI) fraction of

193 g the boreal winter monsoon, the wind drives buoyant, low-salinity Java Sea surface water into the so

194 onged amphiphile treatments, a population of buoyant lysosomes appeared that exchanged cholesterol wi

195 "virtual" particles either floating (such as buoyant macroplastics) or neutrally-buoyant (smaller mic

196 Conversely, relatively buoyant mafic crust and hotter geothermal gradients on E

197 to arise from a three-dimensional process of buoyant mantle upwelling and melt migration focused bene

198 eal the equally important dynamics of a hot, buoyant, mantle-wide upwelling below the Azores.

199 using wind-driven updraft zones, negatively buoyant marine animals may use current-induced updraft z

200 oliter-scale microfluidic control to measure buoyant mass and determine the 'instantaneous' growth ra

201 igital signal processing to extract both the buoyant mass and electrophoretic mobility of each partic

202 Here, we link both buoyant mass and stiffness to gene expression to identif

203 ensity matching method, which eliminates the buoyant mass contributions of detergents/lipids by adjus

204 This method can resolve a buoyant mass difference between uncoated and coated part

205 Particle buoyant mass is determined in a solution with a density

206 We investigate the buoyant mass of bacterial cells in real time with the su

207 ochannel resonators that allow us to monitor buoyant mass of single cells ranging from 40 pg (small p

208 f the core is a larger fraction of the total buoyant mass of the coated particle.

209 amount that is inversely proportional to the buoyant mass of the pellet.

210 mmonly done), we monitor the decrease in the buoyant mass of the solid controlled-release pellet as i

211 btained simultaneously by measuring a cell's buoyant mass sequentially in an H2O-based fluid and a D2

212 ation that relies on differences in particle buoyant mass to characterize particle content in the ran

213 that the bacteria initially have a positive buoyant mass which becomes negative as they recover from

214 (i) the size of a single cell, given by its buoyant mass, (ii) the velocity of the cell entering a c

215 When accounting for cell buoyant mass, we find that cells possessing higher metas

216 and tidal flows that affect the transport of buoyant materials like floating plastics, oil spills, or

217 sphere-asthenosphere boundary, presumably by buoyant melt migration to form the oceanic crust.

218 In either case, the buoyant melts make their way towards the surface to resi

219 t results in increased activated integrin in buoyant membrane domains along with increased associatio

220 tillin is a marker for the Triton-insoluble, buoyant membrane fraction in brain, where to date mRNA s

221 cellular cholesterol cofractionate with this buoyant membrane fraction.

222 cardiac myocytes, we detected Cav-3 in both buoyant membrane fractions (BF) and heavy/non-buoyant fr

223 ow that WT but not MT nicastrin matures into buoyant membrane fractions enriched in gamma-secretase a

224 cts the constitutive association of Itk with buoyant membranes that are the primary site of TCR activ

225 rans-Golgi network (TGN) and partitions with buoyant microdomain fractions.

226 releases caveolae along with other similarly buoyant microdomains and, therefore, requires immunoisol

227 ing caveolae separately from other similarly buoyant microdomains including those rich in glycosylpho

228 protein nanostructures expressed by certain buoyant microorganisms.

229 ers such as manta trawls underestimate total buoyant microplastic amounts by a factor of 1.04-30.0 an

230 zero within 5 m depth, indicating that most buoyant microplastics are present on or near the surface

231 Most studies on buoyant microplastics in the marine environment rely on

232 report measurements of the depth profile of buoyant microplastics in the North Atlantic subtropical

233 s used to classify baseline LDL profiles as "buoyant mode" (density < or = 1.0378) or "dense mode" (d

234 Rates for buoyant-mode subjects were -0.038 +/- 0.007 (mean +/- SE

235 nitial depletion at the meniscus reveals its buoyant molar mass and sedimentation coefficient with an

236 the rigorous determination of macromolecular buoyant molar masses and the thermodynamic study of reve

237 From these data, a buoyant molecular mass is calculated, corresponding to a

238 Our findings can assist with improving buoyant ocean plastic vertical mixing models, mass balan

239 stained subduction: (1) a strong, negatively buoyant oceanic lithosphere; (2) focused magmatic weaken

240 sed southward migration of the thickened and buoyant oceanic plateau crust, creating a buoyant 'Hikur

241 km, thought to result from a combination of buoyant oceanic-plateau subduction and hydrodynamic mant

242 n electron microscopy revealed that the more buoyant OMV population was smaller (<0.1 micro m in diam

243 ast, which likely either make them neutrally buoyant or cause them to sink slowly.

244 nterpret as having been left by walking, not buoyant or swimming, individuals.

245 dapted a coupled hydrodynamic and stochastic buoyant particle-tracking model to the transport and fat

246 annel resonator (SMR) to distinguish between buoyant particles (e.g., silicone oil) and dense particl

247 Model results suggest that buoyant particles quickly (i.e., within hours) organize

248 high spatiotemporal resolution of positively buoyant particles, representing common MP types.

249 aries toward seaward transport and export of buoyant particles.

250 points, their immediate surroundings and the buoyant parts of hydrothermal plumes.

251 30.0 and (2) estimations of depth-integrated buoyant plastic concentrations should be done across dif

252 of 6136 surface plankton net tows collected buoyant plastic pieces, typically millimeters in size.

253 )micron particles to become entrained in the buoyant plume and distributed far from the vent fields.

254 al behaviour where mass is divided between a buoyant plume and hazardous radial pyroclastic currents

255 , has been theorized to produce a negatively buoyant plume hindering the mixing of the sea-salt aeros

256 ent Field emits copper-enriched fluids and a buoyant plume that rises 1,100 m, consistent with >400 d

257 the collapsing flow and continue rising as a buoyant plume until it forms a radially spreading intrus

258 In contrast, cooler, less buoyant plumes do not entrain this high-(3)He/(4)He mate

259 ite nanoparticles, within the first meter of buoyant plumes from three high-temperature vents at the

260 othesize that the high nitrate was caused by buoyant plumes of nutrient-rich deep waters created by t

261 he bay; (4) once in the bay, runoff can form buoyant plumes that further limit vertical mixing and di

262 om the deep mantle only by the hottest, most buoyant plumes.

263 en returned to the surface as a component of buoyant plumes.

264 al event plume were tracked with a neutrally buoyant RAFOS float.

265 , and reduces both VEGFR2 and cholesterol in buoyant raft membranes.

266 d on along-axis ridge depth variations, this buoyant refractory arc mantle is likely compensated at d

267 rogeneity within a reservoir can inhibit the buoyant rise of scCO(2) ganglia.

268 to CO(2)-brine interface instability during buoyant rise, thus becoming less mobile.

269 and dilution; and (5) local winds can force buoyant runoff plumes back against the shoreline, where

270 The buoyant sapeptide scaffolds with attached cells in cultu

271 mesopelagic POC flux derived from neutrally buoyant sediment traps deployed in the North Atlantic, f

272 By using neutrally buoyant sediment traps to sample this chronically unders

273 particles is determined by using a neutrally buoyant selection process that involves centrifuging of

274 Blue FCF as the signal-masking reagent, and buoyant silica micro-bubbles as the capture antibody car

275 The buoyant silica microparticle/nanoparticle reporter combi

276 nhanced Raman scattering (SERS) comprised of buoyant silica microspheres coated with antibodies again

277 ng of gold nanoparticles coated onto hollow, buoyant silica microspheres.

278 (such as buoyant macroplastics) or neutrally-buoyant (smaller microplastics) are investigated.

279 ow either steadily along a continuous jet of buoyant solution or through relaxation oscillations that

280 ng HDL subfractions with the larger and more buoyant species exhibiting greater stability.

281 on shifted yeast cells from a sedentary to a buoyant state, thereby increasing their exposure to surr

282 ole scattering from an air-filled, neutrally buoyant steel shell for all frequencies where the wavele

283 atically reduced the amount of caveolin-3 in buoyant (sucrose density) fractions of adult rat cardiac

284 on a caprock as the primary seal preventing buoyant super-critical CO2 escaping.

285 We propose that carbon, as a buoyant supercritical CO(2) fluid, might be a covert age

286 The speed of sound at 3 MHz in the neutrally buoyant suspensions is measured as a function of the mic

287 n-like terrane at 55 +/- 5 Ma, followed by a buoyant tectonic plate with a thin crust, e.g., a broad

288 important fishery resource, have positively buoyant, transparent eggs.

289 Mantle plumes are buoyant upwellings of hot rock that transport heat from

290 c plates move over long-lived mantle plumes: buoyant upwellings that bring hot material from Earth's

291 e of a force, able to lift away nonspherical buoyant vesicles from the substrate.

292 ythrocyte membrane and induce detergent-free buoyant vesicles, which are enriched in cholesterol and

293 ding hydrocarbon-enriched plume of neutrally buoyant water at a water depth of 1,100 m.

294 top of the fountain enables some of the hot, buoyant water in the fountain to separate from the colla

295 ow, apparent transport and rotation of large buoyant water-ice crustal blocks, and pitting, the latte

296 ity perception in higher plants focus on the buoyant weight of starch-filled amyloplasts as the initi

297 he physiological response variables assessed-buoyant weight, specific growth rate, linear extension,

298 l of trajectories of swimmers made neutrally buoyant with magnetic forces combined with high-speed im

299 The Kohistan crustal section is negatively buoyant with respect to the underlying depleted upper ma

300 rmost region of Earth's liquid outer core is buoyant, with slower velocities than the bulk outer core