ライフサイエンスコーパス: hydrodynamic

1 a particle-based method for resolving fluid hydrodynamics.

2 r parameters, material properties, and plume hydrodynamics.

3 er formation and its relation to laser plume hydrodynamics.

4 es in the plasma and their relation to plume hydrodynamics.

5 ecoupling of charge and heat currents within hydrodynamics.

6 mic components can be profoundly affected by hydrodynamics.

7 can lead to collective behavior described by hydrodynamics.

8 r spaces (PVS) and abnormalities in cerebral hydrodynamics.

9 phatic system of tunas functions in swimming hydrodynamics.

10 D-PTP using small angle X-ray scattering and hydrodynamic analyses.

11 Hydrodynamic analysis indicated that both CYP144A1 forms

12 uation necessitates the use of complementary hydrodynamic analytical methods as the only means for a

13 to differences in lever arms associated with hydrodynamic and adhesive torques at microscopic roughne

14 The complex interactions of hydrodynamic and biogeochemical controls on emissions of

15 c microswimmer clusters as governed by their hydrodynamic and dipolar interactions.

16 of a coating, or "corona", of NOM alters the hydrodynamic and electrokinetic properties of diamond na

17 Hydrodynamic and electrophoretic focusing each appear to

18 Here we present a joint hydrodynamic and radiative model showing that during the

19 Pa/9min) on molecular mass distribution, and hydrodynamic and structural parameters of amylose (maize

20 stem, we carried out mutagenic, biochemical, hydrodynamic and structural studies using analytical ult

21 heat flux) in conventional models, specific hydrodynamic and thermodynamic nonequilibrium quantities

22 The combination of two-dimensional radiation hydrodynamic and three-dimensional hybrid simulations sh

23 need for further studies on the link between hydrodynamics and connected wetlands.

24 of these processes has a major impact on the hydrodynamics and energetics of this high-cost feeding s

25 ematical framework describing the effects of hydrodynamics and interaction forces on particle deposit

26 Moreover, the combined effects of hydrodynamics and interaction forces on particle deposit

27 ing field of science focused on studying the hydrodynamics and properties of biphasic flows at the mi

28 at our understanding of the coupling between hydrodynamics and sediment transport is able to account

29 nary stability of matrix production with the hydrodynamics and spatial structure of the surrounding e

30 ously unknown facet of the interplay between hydrodynamics and topology of active matter.

31 Moreover, acoustic, hydrodynamic, and electrical forces as typically applied

32 e, and displaying homogeneous morphological, hydrodynamic, and photophysical properties.

33 ive systems, whose behaviour is dominated by hydrodynamics, and dry active matter where any flow is s

34 redictive link between stream geomorphology, hydrodynamics, and N2O emissions.

35 To this end, we present a combined hydrodynamic approach for studying in-house prepared, lo

36 arly showed self-consistency of the followed hydrodynamic approach.

37 Our calculations show that the fluctuating hydrodynamics approach recovers the electrophoretic and

38 Solvent hydrodynamics are incorporated into simulations of the s

39 The solvent hydrodynamics are modeled with the stochastic rotation d

40 directly delineated the change of transport hydrodynamics as a result of fluid-phase occupancy.

41 onic acid (MOPS) buffer and characterize the hydrodynamic aspects of our experimental setup (continuo

42 [Formula: see text] but governed by electron hydrodynamics at elevated temperatures.

43 We investigated the hydrodynamic behavior of the CPC in Xenopus laevis egg c

44 ombined microcalorimetric, fluorescence, and hydrodynamic binding assays, as well as bulk solution an

45 Our hydrodynamic bound allows phonon contributions to diffus

46 The model numerically resolves soil-plant hydrodynamics by coupling them to leaf-level gas exchang

47 s, and game theory to study how porous media hydrodynamics can mediate competition between bacterial

48 Our work reveals that hydrodynamics can profoundly affect how bacteria compete

49 Utilizing a hydrodynamic capturing scheme, more than 70% of the micr

50 onships and a physically sound estimation of hydrodynamic characteristics.

51 spectral discovery dimension to traditional hydrodynamic characterization, and amplify the informati

52 Capillary hydrodynamic chromatography (HDC) has been coupled onlin

53 The system combines hydrodynamic chromatography (HDC) in the first-dimension

54 ence of possibly two regimes: convective and hydrodynamic chromatography (HDC) regimes, which have di

55 ld foils was modeled with the RAGE radiation-hydrodynamics code, and the average surface expansion sp

56 e dynamics, such as inelastic scattering, or hydrodynamic collective motion of charge carriers, typic

57 spacing distance, allowing the creation of a hydrodynamic conceptual model based on established ecolo

58 ed important new insight on the influence of hydrodynamic conditions on fouling reversibility during

59 of significant self-locomotion under strong hydrodynamic conditions.

60 Li-battery electrodes, as well as monitoring hydrodynamic consequences of metal corrosion, and growth

61 Consideration of hydrodynamic contributions to particle deposition may he

62 signals, but can account simultaneously for hydrodynamic cotransport in the presence of changes in f

63 the multicellular alga Volvox has shown that hydrodynamic coupling alone is sufficient to produce syn

64 In this work, we develop a model for the hydrodynamic coupling between adsorbed particles and sur

65 s are unable to explain important aspects of hydrodynamic coupling in late summer and fall.

66 e gradient forces, time-dependent torque and hydrodynamic coupling.

67 reduced beat frequency and did not maintain hydrodynamic coupling.

68 kton, and highlights that rapid responses to hydrodynamic cues are important survival strategies for

69 sify their migratory strategy in response to hydrodynamic cues characteristic of overturning by Kolmo

70 ent activity of abyssopelagic organisms with hydrodynamic cycles.

71 weak and significant extents of the magneto-hydrodynamic damping (MHD)-dependent solute build-up at

72 Using a full non-perturbative time-domain hydrodynamic description of electron plasma under femtos

73 dia are investigated in the framework of the hydrodynamic description of light as a photon fluid.

74 r the functional basis of this extraordinary hydrodynamic detection ability.

75 e to ECM porosity on the size scale of their hydrodynamic diameter ( approximately 46 nm).

76 Suwannee River NOM induces changes to DNP hydrodynamic diameter and apparent zeta-potential in a c

77 cent tracer panel ranging from 5 to 500nm in hydrodynamic diameter and compared the in vivo clearance

78 Capsules with a hydrodynamic diameter of 200-300nm and an encapsulation

79 The capsules had an average hydrodynamic diameter of 246.2+/-10.9nm, a polydispersit

80 on had an encapsulation efficiency of 75%, a hydrodynamic diameter of 292nm, and a zeta potential of

81 ed, and HgS particles ( approximately 230 nm hydrodynamic diameter) had the poorest mobility, for all

82 We used AuNS (hydrodynamic diameter, DH of 105.12 +/- 1.13 nm) conjuga

83 o-step procedure and characterized regarding hydrodynamic diameters and zeta potentials.

84 hydrocarbons from water when the former have hydrodynamic diameters smaller than the pore size of the

85 ifying different types of AgNPs with similar hydrodynamic diameters, such as in mixtures containing A

86 rgeted EV subpopulation has a size, and thus hydrodynamic diffusion coefficient, that differs from th

87 The effect of hydrodynamic diffusion of the ss-HSDNA/rGOae rotating di

88 Results from this study indicate that the hydrodynamic dimensions of IDPs are evidence of consider

89 Hydrodynamic dispersion of salinity and temperature, and

90 Hydrodynamic drag analysis is used to augment the single

91 ctory manipulation which, when combined with hydrodynamic drag forces and electric field forces, prov

92 Simulation indicated hydrodynamic drag on the chiral cell shape caused rotati

93 they swim, arising from chiral asymmetry in hydrodynamic drag or propulsion bending the swimming pat

94 anoparticles, and within the simple nonlocal hydrodynamic Drude model, both the nonlocal blueshift an

95 intradermal administration, and postulate a hydrodynamic effect as the mechanism of gene delivery.

96 -redox mediators and the other considers the hydrodynamic effect.

97 This work demonstrates that hydrodynamic effects can significantly alter particle de

98 drag force is increased substantially due to hydrodynamic effects generated by the presence of these

99 When such a hydrodynamic electron fluid supports a nonthermal diffus

100 s should be taken into account when applying hydrodynamic equations to such deposits.

101 ription of nematics, coupled to the relevant hydrodynamic equations, is presented here to explain the

102 ting the self-consistency of the fluctuating hydrodynamics equations.

103 Houwink-Sakurada of all molar-mass dependent hydrodynamic estimates show linear trends, allowing for

104 seal whiskers may provide information about hydrodynamic events and enable the sophisticated wake-tr

105 en it comes to understanding heat transport, hydrodynamic evolution, and energy balance in systems ra

106 , the prey are also susceptible to their own hydrodynamic fields, substantially confining them to sur

107 Here, we demonstrate that hydrodynamic flow and matrix organization interact to sh

108 cs are strongly influenced by self-generated hydrodynamic flow fields forcing BV onto surfaces and, f

109 e to other extrinsic factors, the effects of hydrodynamic flow fields on protein stability and confor

110 can be expected to tune VWF's sensitivity to hydrodynamic flow in the blood and to thereby significan

111 is the conversion of electrical energy into hydrodynamic flow with efficiencies as high as 64%.

112 ationships between the type and magnitude of hydrodynamic flow, a protein's structure and stability,

113 channel length, while soft live cells follow hydrodynamic flow.

114 We find that hydrodynamic flows in the cytoplasm and the relative dra

115 Hydrodynamic fluid flow through channels, in contrast, i

116 dyes were used in order to characterize the hydrodynamic focusing as a function of flow rate ratio o

117 A minimal model describing bacteria as hydrodynamic force dipoles shows that steric effects, hy

118 anism enables VWF to be locally activated by hydrodynamic force in hemorrhage and rapidly deactivated

119 ibe a simple microfluidic platform that uses hydrodynamic forces at low Reynolds number and low confi

120 hat is activated for hemostasis by increased hydrodynamic forces at sites of vascular injury.

121 mer assists propulsion and generates lateral hydrodynamic forces during turns and the latter generate

122 coprotein von Willebrand factor (VWF) senses hydrodynamic forces in the bloodstream and responds to e

123 ng from approximately 2 to 10 mum due to the hydrodynamic forces in the water.

124 ow size-based isolation of viable CTCs using hydrodynamic forces that are present in curvilinear micr

125 literature, but confined, however-by generic hydrodynamic forces-to reduced dimensionality.

126 that rather than chemically detecting prey, hydrodynamics forces BV into regions high in prey densit

127 We resolve this discrepancy using a hydrodynamic framework that simultaneously tracks plant

128 A highly accurate approximation of the hydrodynamic function is introduced that correlates reso

129 inishes FBP enrichment in liver tumors after hydrodynamic gene delivery of AKT plasmids.

130 rate that overexpression of the Nrg4 gene by hydrodynamic gene delivery prevents HFD-induced weight g

131 Using the hydrodynamic gene transfer method, we demonstrate that N

132 the new detector complements the traditional hydrodynamic information from analytical ultracentrifuga

133 110 s and a constant pressure of 50 mbar in hydrodynamic injection mode.

134 Finally, ectopic expression of TAK1 in a HBV hydrodynamic injection mouse model resulted in lower lev

135 cific transgene expression, we tested direct hydrodynamic injection of a DNA solution into the renal

136 quired to be euthanized within 8 weeks after hydrodynamic injection.

137 etection, which is expected in stacking with hydrodynamic injection.

138 module wavelength plays the dominant role on hydrodynamic instability at CHF when the height of surfa

139 e of contact angles and module wavelength on hydrodynamic instability at CHF, and the results indicat

140 imeter scale, named as module wavelength, on hydrodynamic instability at CHF.

141 th to vertical Kevin-Helmholtz wavelength on hydrodynamic instability for the onset of pool boiling C

142 terning of a thin film followed by nanoscale hydrodynamic instability, which is highly controllable u

143 cell periphery with each other through their hydrodynamic interactions (HIs).

144 orking hypothesis that synchrony arises from hydrodynamic interactions between beating filaments.

145 This investigation revealed that hydrodynamic interactions between competing genotypes gi

146 rhof extended the calculation to account for hydrodynamic interactions between the particles and the

147 embrane surrounded by fluid, and account for hydrodynamic interactions between the particles.

148 mpetition between intracellular coupling and hydrodynamic interactions that ultimately determines the

149 that have been used to describe phoretic and hydrodynamic interactions.

150 mic force dipoles shows that steric effects, hydrodynamics interactions, and local alignments all hav

151 y appropriate and physically sound values of hydrodynamic invariants, indicating adequate values of d

152 continuum model, which couples structure and hydrodynamics, is able to capture the annihilation and m

153 We investigated the therapeutic potential of hydrodynamic isotonic fluid delivery (HIFD) to the left

154 By means of hydrodynamic lattice-Boltzmann simulations, we show that

155 ngth scale of slow deformations, and a large hydrodynamic length is a prerequisite for long-ranged co

156 acteristic length of stress propagation (the hydrodynamic length lambda) sets the length scale of slo

157 To determine the Maxwell time tauM, the hydrodynamic length lambda, the ratio of active stress z

158 (4)He and (3)He-B have established that, at hydrodynamic length scales larger than the average dista

159 re shuts off the anticipated enhanced-Jeans, hydrodynamic-like escape of Pluto's atmosphere to space.

160 In the hydrodynamic limit, the DBM recovers the modified Navier

161 axial-gravitational anomaly, even beyond the hydrodynamic limit.

162 t] dominates over [Formula: see text] in the hydrodynamic limit.

163 on of buoyant oceanic-plateau subduction and hydrodynamic mantle-wedge suction.

164 present report the well-known advantages of hydrodynamic mass transport in electrochemical systems a

165 According to hydrodynamic measurements and analyses of seabed sedimen

166 microscopy of negatively stained images and hydrodynamic measurements showed that Myo51 is single he

167 To validate the performance of this cell for hydrodynamic measurements, limiting currents from the re

168 ying diverse spectroscopic, calorimetric and hydrodynamic measurements.

169 arture from our current understanding of the hydrodynamic mechanisms of acceleration.

170 gical and physical experiments to reveal the hydrodynamic mechanisms underlying this concerted optimi

171 nal sampling suggests that two complimentary hydrodynamic mechanisms, Jeffrey Orbit and shear-induced

172 om utilizing deaerated water streams, strong hydrodynamic mixing in the membrane module, and high hea

173 Next, we demonstrate that these shifts in hydrodynamic mobility can be used to investigate hybridi

174 DNA conformations is reflected as shifts in hydrodynamic mobility that can be perturbed using salt a

175 We show that a hydrodynamic model can account for these observations.Tr

176 scosity, we developed a quantitative coupled hydrodynamic model for streaming.

177 Using a hydrodynamic model of larval dispersal, we predict that

178 The quantum pressure term in the nonlinear hydrodynamic model results in the emergence of fractiona

179 iver was simulated using a three-dimensional hydrodynamic model.

180 lv (Sweden) was studied using monitoring and hydrodynamic modeling.

181 Here, we use hydrodynamic modelling and multivariate statistics to sh

182 es, and we remark that it is possible to use hydrodynamic modelling and notch geometry as first-order

183 gles between 50 degrees and 75 degrees , and hydrodynamic modelling shows that doing so reduces drag-

184 Modern radiative hydrodynamic models account well for blue-shifted emissi

185 Classical hydrodynamic models predict that infinite work is requir

186 um, long-time-scale excitation of collective/hydrodynamic modes, and (iii) long-time-scale emergence

187 provide strong experimental evidence for the hydrodynamic nature of the acoustic wave/biomolecule int

188 The hydrodynamic nature of the phenomenon ensures eruption o

189 We study the hydrodynamics of fluids composed of self-spinning object

190 Molecular simulations to model the hydrodynamics of the polysaccharide and the interaction

191 direct experimental result to show the true hydrodynamics of transport and mixing under multiphase f

192 dented sensitivity and without dyes from the hydrodynamics of water jets as they emerge from single n

193 and hydrological problems pertaining to the hydrodynamics of water-limited environments where plant-

194 The impact of hydrodynamics on the mobility of enclosed lipid domains

195 scherichia coli) are too small to trap BV in hydrodynamic orbit, the prey are also susceptible to the

196 ms, including: (i) near-collision-time-scale hydrodynamic organization of single-molecule dynamics, (

197 l controls and calculations recapitulate the hydrodynamic origin of these behaviors.

198 d in isotropic liquids flowing under similar hydrodynamic parameters.

199 ers with added structural features to aid in hydrodynamic performance [2,3].

200 never been specifically investigated from a hydrodynamic perspective.

201 s can behave as a viscous liquid and exhibit hydrodynamic phenomena similar to classical liquids.

202 It is found that the plume hydrodynamics plays a great role in redefining the plasm

203 ss flow resistance compared to the classical hydrodynamics prediction.

204 Our findings reveal a unifying hydrodynamic principle that is likely conserved in all a

205 essible and/or indirectly measured molecular hydrodynamic processes, we recast traditional microscale

206 r studying a range of liquid-state molecular hydrodynamic processes.

207 element method simulations confirm that the hydrodynamic profile within the device is not turbulent

208 cle surface charge, colloidal stability, and hydrodynamic properties induced by interaction with natu

209 The critical role of two-phase hydrodynamic properties on non-Fickian transport and sat

210 factor, which offers an avenue for measuring hydrodynamic properties, such as transport coefficients

211 plication to dense plasmas through a quantum hydrodynamics (QHD) approach.

212 els, the DBM presents not only more accurate hydrodynamic quantities, but also detailed nonequilibriu

213 FRET-estimated radii of gyration and hydrodynamic radii estimated by fluorescence correlation

214 ence correlation spectroscopy to examine the hydrodynamic radii of a broad spectrum of biologically i

215 Hydrodynamic radii of alpha-lac/CMD-b-PEG complexes was

216 osed computational approaches for estimating hydrodynamic radii of single-stranded RNAs, which use ge

217 ically disordered proteins, which have large hydrodynamic radii yet lack a defined structure, drove f

218 Increased hydrodynamic radius (in solution) and glass transition t

219 ions of disordered proteins showing that the hydrodynamic radius (Rh) can be predicted from experimen

220 e molecular diffusion coefficient (D) or the hydrodynamic radius (Rh) of a solute from the peak broad

221 ever, the flow DLS experiments give accurate hydrodynamic radius (Rh) only at the lowest investigated

222 see text], diffuses as a particle of 600-nm hydrodynamic radius dissolved in water.

223 he presence of L-arginine suggesting smaller hydrodynamic radius due to change in either conformation

224 uding particle mass, radius of gyration, and hydrodynamic radius during longitudinal association.

225 ituting polymer molecules according to their hydrodynamic radius for each of 80 to 100 separated frac

226 a new and efficient method to calculate the hydrodynamic radius of a disordered protein chain from a

227 olar mass of approximately 1-2.10(5)g/mol, a hydrodynamic radius of approximately 6-10nm and a relati

228 ly affect the TDA measurement as long as the hydrodynamic radius of the solute is lower than 0.0051 t

229 by dynamic light scattering (DLS) where the hydrodynamic radius of treated samples appears to be red

230 ensembles reproduce the trend of increasing hydrodynamic radius with denaturant concentration obtain

231 cular weight averages, fraction description, hydrodynamic radius, intrinsic viscosity, polydispersity

232 , we calculate estimates of the ratio of the hydrodynamic radius, radius of gyration, and the intrins

233 aged estimates of the radius of gyration and hydrodynamic radius, respectively.

234 protein is accompanied by an increase of its hydrodynamic radius.

235 opening in solution as shown by increase in hydrodynamic radius.

236 he radius of gyration of a structure and its hydrodynamic ratio, which in turn can be used, for examp

237 studying planktonic larval dispersal, as the hydrodynamic regime of the wide continental shelf has po

238 production differs in magnitude between six hydrodynamic regions within the North Sea.

239 he interaction between biofilm structure and hydrodynamics remains a fundamental question concerning

240 Hydrodynamic renal pelvis injection enables transposon m

241 Accurate prediction of SPM hydrodynamics requires the quantification of 3D floc pro

242 ous humour (AH) by the ciliary processes and hydrodynamic resistance to its outflow through the conve

243 geometries that substantially reduced their hydrodynamic resistances.

244 It combines picomolar sensitivity with high hydrodynamic resolution, and can be carried out with pho

245 Additionally, preliminary studies of hydrodynamic SECM imaging of a 2 mm Pt disk electrode su

246 bility of the diffusion layer was studied by hydrodynamic SECM in the substrate generation/tip collec

247 eedback mode in quiescent solution show that hydrodynamic SECM offers attractive complementary inform

248 The hydrodynamic SECM system integrates a high-precision sti

249 Single molecule free solution hydrodynamic separation enables the unique ability to qu

250 to anisotropic interactions originating from hydrodynamic shape effects combined with high charge and

251 ulation in biotechnology, i.e., the need for hydrodynamic shear and selective washout.

252 ff switch that employs dielectrophoretic and hydrodynamic shear forces to overcome these thermodynami

253 ibo-electrification from extreme and focused hydrodynamic shear is the driving mechanism for the gene

254 high selectivity is achieved with a critical hydrodynamic shear rate between the activated dissociati

255 w amplitude that seem unrelated to localized hydrodynamic signals.

256 position of the shock agrees with radiation hydrodynamic simulations and is consistent, when scaled

257 We tackle this problem by using hydrodynamic simulations of an ellipsoidal particle on a

258 We perform three-dimensional hydrodynamic simulations to study the tidal disruption o

259 In agreement with Brownian hydrodynamics simulations, we find a sigmoidal increase

260 al and numerical calculations to show that a hydrodynamic singularity of a given topological charge c

261 distribution profiles are influenced by both hydrodynamic size and the remodeling tumor vasculature.

262 s through the LS detector, at which accurate hydrodynamic size can be extracted from the DLS in flow

263 magnetic readout technique that provides the hydrodynamic size distribution of MNPs and their cluster

264 Hydrodynamic size increased from 40 to 60 nm to >1 mm wi

265 d to result in a significant increase in the hydrodynamic size of factors originating from the tumor

266 onditions attachment decreased via increased hydrodynamic slip length and reduced attraction and (2)

267 hod of quartz-crystal admittance modeling of hydrodynamic solid-liquid interactions in order to extra

268 The unique hydrodynamic spectroscopic characterization of electroly

269 hase dewetting of the thin-film, followed by hydrodynamic sputtering of nano- to submicron sized meta

270 This study confirms that hydrodynamic sputtering remains a valid mechanism for dr

271 Specifically, we generate hydrodynamic stagnation points of different topological

272 ction electrochemistry in a rotating droplet hydrodynamic system, where a 70 muL droplet containing a

273 ted with FL-HCC, or control Cas9 vector, via hydrodynamic tail vein injection to livers of 8-week-old

274 pted kidney-specific gene transfer following hydrodynamic tail vein injection using the kidney-specif

275 Hydrodynamic tail-vein injection of MAN2A1-FER resulted

276 erapy are characterised using macromolecular hydrodynamic techniques (dynamic light scattering and an

277 The model solves the hydrodynamics, the transfer of heat in the reservoir, an

278 Our hydrodynamic theory consists of relativistic fluids at e

279 Hydrodynamic theory predicts that the energetic costs re

280 entrated particles to the oesophagus using a hydrodynamic tongue.

281 eal to wear the tag and follow an underwater hydrodynamic trail to measure the whisker signals availa

282 sustained hyperfibrinolytic state in mice by hydrodynamic transfection of a plasmid encoding for tiss

283 bricated a microfluidic device that combines hydrodynamic trapping of single cells in pre-defined loc

284 Hydrodynamic trapping offers an attractive method for pa

285 cal analogy - based on completely integrable hydrodynamic-type systems of PDEs - which provides expli

286 Colocalization, driven by hydrodynamics, ultimately reduces BV's search space for

287 strates the possibility of studying electron hydrodynamics using high-quality graphene.

288 s crossover using an approach based on quasi-hydrodynamic variables.

289 t-point adaptation was elicited with magneto-hydrodynamic vestibular stimulation (MVS) by placing nor

290 e in pectin characteristics particularly the hydrodynamic volume and the neutral sugar content.

291 ortable AC susceptometer, the changes of the hydrodynamic volume are probed as Brownian relaxation fr

292 olymers (75-80%) of the CPS samples showed a hydrodynamic volume close to 2000kDa by size exclusion c

293 lowing separation based on charge and subtle hydrodynamic volume differences.

294 CaM triggered an increase in hydrodynamic volume in both WT and dimeric CaMKII withou

295 ic ratio (DeltaD/DeltaF) is a measure of the hydrodynamic volume of the attached entity, mathematical

296 ds to a significant and reversible change in hydrodynamic volume, thus introducing simple imines as n

297 ate by polarity, end-group functionality, or hydrodynamic volume, whereas IMS adds selectivity by mac

298 analyte and biotinylated primers, and their hydrodynamic volumes are dramatically increased after a

299 Unstructured XTEN polypeptides have hydrodynamic volumes significantly larger than typical g

300 iscosity arises from non-linear equations of hydrodynamics with rotational degrees of freedom, once l