ライフサイエンスコーパス: be modeled as

1 The protein molecules are modeled as 120 degrees sectors of a circle and the l

2 n sST2 and the log hazard ratio for outcomes was modeled as 2 linear segments with a significant decr

3 Myocardial dynamic stiffness was modeled as 3 parallel viscoelastic processes.

4 ion to general carbon-based porous materials are modeled as a collection of independent, noninterconn

5 The diffusing acetylcholine molecules are modeled as a continuum, whose spatial and temporal d

6 When the surroundings of the reaction center are modeled as a membrane, lambda for P* B --> P+ B- is

7 In the reference state, the mean intensities are modeled as a shifted exponential distribution, and t

8 These observations are modeled as a star-forming disk surrounding the QSO n

9 DNA segments intercalating bound proteins are modeled as a worm-like chain, which is free to defor

10 The LpoB protein can be modeled as a ball and tether, consisting of a disorde

11 equence-specific DNA-binding domain that can be modeled as a basic helix-loop-helix (bHLH)-like struc

12 The migration behavior could be modeled as a biased random walk, where the bias due t

13 mulations demonstrated that loss of Oct4 can be modeled as a binary process, and that associated patt

14 ects of helper cell differentiation that can be modeled as a classic cell fate commitment, CD4(+) T c

15 ganelle are then primarily diffusive and can be modeled as a collection of friction points interconne

16 Part of this system can be modeled as a collection of regulatory modules: co-reg

17 uptions and recorded by pressure sensors can be modeled as a compact source representing the rate of

18 emonstrates that nematode body mechanics can be modeled as a cylindrical shell under pressure.

19 This could be modeled as a decrease in the cone angle for the indol

20 to the N-terminal domain of Rav1, which can be modeled as a double beta-propeller.

21 The nuclear envelope, which can be modeled as a double lipid bilayer attached to a visco

22 of organization from cells to organisms can be modeled as a dynamic system, in which the underlying

23 Bovine lens alpha-crystallin in solution can be modeled as a fenestrated spherical shell of diameter

24 an sameness judgment under sensory noise can be modeled as a form of probabilistically optimal infere

25 This nonlinear interaction can be modeled as a gain-field type of encoding whereby hand

26 e, sulfate, and a ribosyl species, which can be modeled as a glycal.

27 A drumming woodpecker may be modeled as a harmonic oscillator with a periodic forc

28 e transition from the native to I1 state can be modeled as a large hinge-bending motion, in which bot

29 A self-enforcing treaty can be modeled as a Nash equilibrium of a suitably defined d

30 umption that the diffusion of the ligand can be modeled as a navigation on the PMF in which the ligan

31 The latter step may be modeled as a network alignment (NA) problem.

32 ilevered beam; 2) the base of the cilium may be modeled as a nonlinear rotatory spring, with the line

33 ng events, we determined that egg laying can be modeled as a novel random process, in which animals f

34 We show that the NBR can be modeled as a pathway-specific contrast gain modulatio

35 arises from an evolutionary process that can be modeled as a phylogenetic tree.

36 ulation is inherently probabilistic, and can be modeled as a Poisson process over short time scales.

37 n antigen (tetanus toxoid) incorporated) can be modeled as a polydisperse distribution of perforated

38 Assuming that a clot can be modeled as a porous medium, the physical property tha

39 An individual's genotype can be modeled as a probabilistic function of ancestral popu

40 This adaptation can be modeled as a process of repeated metabolic adjustment

41 Rather, migration was autonomous and could be modeled as a random walk.

42 A series of microarray datasets can be modeled as a series of co-expression networks, in whi

43 Under this scenario, adaptive walks can be modeled as a simple Markov chain on the space of poss

44 umber of cycles presented (n) all data could be modeled as a single decreasing function of the form e

45 micropores of the sol-gel films which could be modeled as a single-exponential accumulation in agree

46 e, the common acetaldehyde concentration can be modeled as a small perturbation on the "pacemaker" wh

47 It is found that the spectrin tetramer can be modeled as a soft polymer with a unique flat force-ex

48 eveloped force and tissue organization could be modeled as a sum of force vectors.

49 The spectrum could be modeled as a sum of super-Lorentzians with a T(2)* di

50 4-OT in 50 mM phosphate buffer at pH 8.5 can be modeled as a two-state process involving folded hexam

51 This activity has been modeled as a concentration-dependent response to a

52 tial tuning found in V1 neuron responses has been modeled as a gain control mechanism, but at which s

53 ukocyte transendothelial migration (TEM) has been modeled as a multistep process beginning with rolli

54 The bacterial actin homolog ParM has always been modeled as a polar filament, comprising two paralle

55 is critical to the channel function and has been modeled as a protein-protein interaction between th

56 Head-direction cells have been modeled as a ring attractor, grid cells as a plane

57 dimer of alpha beta dimers) has historically been modeled as a simple two-state system in which a low

58 rimary productivity (ANPP), are increasingly being modeled as a function of the quantitative traits o

59 e free energy for two separate drops, and it is modeled as a 2-D system.

60 The minimalist protein is modeled as a 27-monomer sequence confined to a cubic

61 ectron paramagnetic resonance (EPR) spectrum is modeled as a 2:1 mixture of components attributable t

62 This antigen is modeled as a 5-transmembrane molecule, a structure th

63 I-TnC complex in which the inhibitory region is modeled as a beta-turn.

64 Stem cell population size is modeled as a birth-death process.

65 The ligand is modeled as a Brownian particle subjected to the effec

66 The detection of CNV is modeled as a change-point detection from the read dep

67 velopment and progression of prostate cancer is modeled as a combinatorial circuit.

68 The DNA loop connecting the operators is modeled as a continuous elastic ribbon, described mat

69 As in standard PNP, ion permeation is modeled as a continuum drift-diffusion process in a s

70 The GroEL cavity is modeled as a cubic box and a simple bead model is use

71 The sensor is modeled as a cytoskeleton-coupled viscoelastic struct

72 The pulmonary surfactant is modeled as a dipalmitoylphosphatidylcholine monolayer

73 A map is modeled as a directed graph in which nodes represent

74 ed parameter while the deterministic B-phase is modeled as a distributed parameter, and analytical so

75 The perceptual decision process is modeled as a drift-diffusion model (DDM) process for

76 framework, the North American electric grid is modeled as a dynamic, equilibrium-based supply chain

77 e human immunodeficiency virus type 1 capsid is modeled as a fullerene cone that is composed of appro

78 State per capita healthcare expenditure is modeled as a function of current smoking prevalence,

79 heat transfer along the printed silver wire is modeled as a function of printing speed, laser intens

80 are cases and controls, where disease status is modeled as a function of RNA-Seq reads using simulate

81 The animal's path is modeled as a Gaussian random walk.

82 The cytosol is modeled as a homogeneous Newtonian fluid, and discret

83 The expression level of a gene is modeled as a linear combination of the expression lev

84 In Hertz theory, the substrate is modeled as a linear elastic half-space with an infini

85 Translation is modeled as a linear mapping from codons into aa-tRNA

86 Transcription is modeled as a linear operator that maps the initial co

87 The gene expression profile is modeled as a linear weighted combination of the activ

88 The probabilistic A-state is modeled as a lumped parameter while the deterministic

89 rametric model, where the error distribution is modeled as a mixture of Polya trees centered around a

90 F-actin is modeled as a monomer with restraints applied to coars

91 Ambiguous read mapping is modeled as a multinomial distribution, and ambiguous

92 undle mechanoelectrical transduction current is modeled as a nonlinear function of the hair-bundle de

93 he receptors and ligands by an existing bond is modeled as a nonlinear function of WSS.

94 The rotor is modeled as a point mass mounted inside a spherical sh

95 the genome annotated with multiple isoforms is modeled as a Poisson variable.

96 roides in which some of the electron density is modeled as a porphyrin.

97 The cell population is modeled as a probability density function F(x,t) that

98 uences which map into a particular structure is modeled as a random graph in sequence space (the so-c

99 Chromatin is modeled as a random walk on a cubic lattice, and the

100 The receptor is modeled as a reactive patch on a hard surface and the

101 Earthquake activity is modeled as a sequence of earthquake nucleation events

102 First, transcription is modeled as a set of biochemical reactions, and a line

103 The minimization problem is modeled as a shortest path problem in an acyclic grap

104 Atrophy distribution is modeled as a simple consequence of the propagation of

105 SR is modeled as a single continuous entity with homogeneou

106 The living human brain is modeled as a soft structure with a growing outer cort

107 This filopodium-ECM interaction is modeled as a stochastic process based on binding kine

108 The competence module (ComK dynamics) is modeled as a stochastic switch whose transition rate

109 Specifically, the spread of the disease is modeled as a susceptible-exposed-infectious-detected-

110 The clathrin subunit is modeled as a three-legged pinwheel with elastic defor

111 The sporulation module (Spo0A dynamics) is modeled as a timer whose clock rate is adjusted by a

112 The cytoskeleton is modeled as a two-dimensional elastic solid with compa

113 The S-helix is modeled as a two-helical parallel coiled coil.

114 In both cases, the cell membrane is modeled as a viscoelastic triangular network connecte

115 We demonstrate that, if the coupler is modeled as a wide ring with links that bind the MT wa

116 usceptibility of the [KCrAs(8)](2)(-) salt 4 was modeled as a 1D Heisenberg antiferromagnet with a sm

117 mass index was the exposure of interest and was modeled as a binary trait to avoid an inflated type

118 The synapse was modeled as a box with receptors on one inner face.

119 The pore was modeled as a central cylinder with tapered atria; th

120 When Rlight was modeled as a constant fraction of Rdark , modeled da

121 In these analyses, ACR was modeled as a continuous trait with the inclusion of

122 In separate analyses, paternal age was modeled as a continuous variable and as a categorica

123 Tumor size was modeled as a continuous variable by proportional haz

124 Body mass index was modeled as a continuous variable with a quadratic fu

125 better predicator of survival when LN status was modeled as a continuous variable, especially among t

126 When LN status was modeled as a continuous variable, the LODDS staging

127 The cytoskeleton (CSK) was modeled as a filamentous network and key mechanisms

128 in the baseline period (first half of 2008) was modeled as a fixed covariate.

129 The prevalence of sleep-disordered breathing was modeled as a function of age, sex, and body mass ind

130 the fourth, seventh, or tenth grade in 1993, was modeled as a function of average exposure to ambient

131 It was modeled as a homodimer of two-domain (K and L) subun

132 Surface protrusion, which was modeled as a linear deformation, had a slightly smal

133 The response for each neuron was modeled as a linear function of a "preferred" joint

134 f electric-drive-only (EDO) operation, which was modeled as a logarithmic function of VSP.

135 The noncatalyzed reaction was modeled as a methyl transfer from trimethylsulfonium

136 The remaining part of the peptide chain was modeled as a mixture of three sequences containing d

137 The iris was modeled as a neo-Hookean solid, and the active muscl

138 reported, conserved AAV DNA binding pocket, was modeled as a nucleotide and a base, further implicat

139 nsity cannot be attributed to cations and it was modeled as a PEG molecule.

140 This process was modeled as a problem of diffusion with fast reversib

141 treatment of isolated diastolic hypertension was modeled as a reduction in diastolic blood pressure.

142 Percentage change in eGFR was modeled as a restricted cubic spline.

143 The transition state was modeled as a stable ribooxacarbenium ion intermediat

144 The unwinding kinetics was modeled as a stepwise process performed by single or

145 The dipole-dipole interaction was modeled as a summation of point-dipole interactions

146 Assembly of an anastral spindle was modeled as a two-stage process: first, the aggregati

147 cence anisotropy, and circular dichroism and was modeled as a two-state mechanism where a folded dime

148 The neutrophil was modeled as a viscous liquid drop with a constant cor

149 lots with a platelet volume fraction of >0.2 were modeled as a Brinkman medium of coarse solids (plat

150 t regression, log-transformed PBDE congeners were modeled as a function of child characteristics, inc

151 Baseline HRQOL scores were modeled as a function of maximum baseline vertebral

152 ants without respiratory symptoms or disease were modeled as a function of sex, age, height, and Hisp

153 Propensity scores were modeled as a logistic function of demographic varia

154 Emergency studies were modeled as a Poisson process; slots were reserved s

155 combined systolic and diastolic hypertension were modeled as a reduction in systolic blood pressure;

156 Cells were modeled as a shape machine that protrudes or retrac

157 Transmitter-receptor interactions were modeled as a two-step binding process, with the dou

158 MYC, a well-known oncogenic driving TF, can be modeled as acting independently from other TFs (e.g.,

159 was clathrin and dynamin dependent and could be modeled as agonist-induced aggregation of transiently

160 The underlying Poisson rates are modeled as an experiment-specific function of artifa

161 The pattern of errors could be modeled as an overdamped corollary discharge signal t

162 other viral FPDs, the putative ASLV FPD has been modeled as an amphipathic helix where most of the b

163 Dermatomyositis has been modeled as an autoimmune disease largely mediated b

164 which the actin network at the protein patch is modeled as an active gel.

165 The malaria parasite is modeled as an aggregate of particles constrained to r

166 When the N-terminal half of the G subunit is modeled as an alpha helix, most of the conserved resi

167 When this domain is modeled as an alpha-helix, the most severe mutations

168 The cilium is modeled as an elastic beam that may undergo large def

169 The membrane is modeled as an elastic network of bonded points; the s

170 ogen bridge defect, and the RESET transition is modeled as an electrochemical reaction (proton captur

171 The PEVK segment is modeled as an extensible linker that enables smMLCK t

172 The critically-coupled microring resonator is modeled as an ideal first-order differentiator, while

173 The polyelectrolyte molecule is modeled as an infinite, inflexible, and impenetrable

174 encoding stage, place cell spiking activity is modeled as an inhomogeneous Poisson process whose ins

175 Each eye tissue is modeled as an ordered array of collagen rods, and pho

176 oplasmic half of the beta3 homopentamer pore was modeled as an alpha-helix.

177 The swimming cell was modeled as an ellipsoid in Stokes flow, propelled by

178 the basis of data from 118 patients, peak GH was modeled as an exponential function of time after CRT

179 The condensed phase was modeled as an implicit solvent, with a dielectric co

180 The effect of lysolipids was modeled as an insertion of a small number of extra m

181 dues, not resolved in the crystal structure, were modeled as an amphipathic alpha-helix, called S1.

182 clots with platelet volume fraction of <0.2 were modeled as an array of disordered cylinders with un

183 Progression outcomes were modeled as appropriate, by slope change using linea

184 a nearly temperature-independent KIE, which was modeled as arising from a compressed hydrogen transf

185 eu(754) --> Ala and Leu(546) --> Ala mutants were modeled as arising from a slightly less compressed

186 he experimental effects when crowding agents are modeled as arrays of rods.

187 where the components of the optimization set are modeled as artificial spin units.

188 Nodulisporic acid binding was modeled as binding to a single population of recepto

189 in genomic datasets, and other data that can be modeled as bipartite networks.

190 lectron density in the active site which can be modeled as bound farnesyl diphosphate carried through

191 These changes can be modeled as changes in a chain network structure withi

192 ged cylinder and the counterions and co-ions are modeled as charged hard spheres of equal diameter.

193 The endothelial surface layer is modeled as clumps of a Brinkman medium immersed in a

194 in which cooperation and grouping tendencies are modeled as coevolving dynamical variables, I show th

195 ng and optimizing integrated circuit design, are modeled as complex combinatorial optimization proble

196 Biological systems can be modeled as complex network systems with many interact

197 The kinetics are modeled as configurational diffusion on a free energ

198 ize to form long tubes, and this process can be modeled as consisting of a slow nucleation period, fo

199 The student's needs are modeled as constraints on the schedule according to

200 Although the data can be modeled as contributions of an internal field of Euro

201 Preferences revealed in these choices are modeled as curves of equal choice (indifference curv

202 It is modeled as d-lysine and oriented such that its termin

203 DA changes were modeled as delta-functions, gamma-variates, or as r

204 turnover and registered nurse turnover rates were modeled as dependent variables in hierarchical Pois

205 The totally symmetric modes are modeled as displaced harmonic oscillators; the frequ

206 cAMP oscillations have previously been modeled as driven by oscillations in calcium, based

207 rld systems evolve over time and should thus be modeled as dynamic networks.

208 logical alternative whereby perceiver/actors are modeled as dynamical systems coupled to one another

209 the rows and columns of the data matrix can be modeled as either a network flow problem or a traveli

210 e structures, the active site density cannot be modeled as either substrates or products.

211 Melittin was modeled as either an ideal helix or a helix with a b

212 d to the substratum by adhesive bridges that are modeled as elastic springs.

213 Arterioles were modeled as elastic cylindrical vessels with an elas

214 Extracellular matrix is modeled as fiber-reinforced anisotropic soft tissue,

215 nd their complexes (species j of valence Zj) are modeled as finite lattices with absolute value(Zj) c

216 deformable microvilli, and endothelial cells are modeled as flat membrane surfaces decorated with eve

217 The polymer molecules are modeled as flexible bead-spring structures.

218 re, whereas exterior single-stranded regions are modeled as freely jointed chains.

219 These capsids are modeled as fullerene structures composed of closed h

220 Although PM and IBM have been modeled as having similar immunologic processes occ

221 The lens is modeled as having four compartments: anterior epithel

222 of the 2-factor model in which internalizing was modeled as having 2 subfactors (anxious-misery and f

223 The resistive switching SET transition is modeled as hydrogen (proton) release from (SiH)2 to g

224 nsive task, in particular when recombination is modeled, as in ancestral recombination graphs.

225 Hairpin loops of three are modeled as independent of loop sequence with deltaGo

226 rves in which individual expression profiles are modeled as independent realizations of a stochastic

227 ork proposes that heterogeneous networks can be modeled as interdependent multi-layer networks, which

228 signaling, and macromolecular synthesis can be modeled as large networks of biochemical reactions.

229 pnea-hypopnea index, and cognitive abilities were modeled as latent constructs.

230 Molecular bonds between surfaces are modeled as linear springs and stochastically formed

231 sed boundary method, and the red blood cells are modeled as liquid capsules.

232 s of cis-regulatory processing functions can be modeled as logic operations.

233 ed even when the ascertainment scheme cannot be modeled, as long as ascertainment only depends on fam

234 oth the membrane/cortex and the cytoskeleton are modeled as Maxwell viscoelastic materials, but the s

235 dynamical process of resource allocation can be modeled as minority games.

236 populations of sensitive and resistant cells are modeled as multi-type non-homogeneous birth-death pr

237 es within regions identified by A-clustering are modeled as multivariate responses to environmental e

238 Complex phenotypes can be modeled as networks of component traits connected by

239 Residues of the protein are modeled as nodes in a graph, while edges model pairw

240 ensity next to R179 and C5 of PQQ, which can be modeled as O2 or H2O2, indicating a site for oxygen b

241 Non-IBD DNA is modeled as of independent allelic type, but the popul

242 tructure of the Shaker potassium channel has been modeled as passing through the cellular membrane ei

243 assumed that copy number alteration data can be modeled as piecewise constant and the measurement err

244 Adhesion is modeled as platelet-platelet binding kinetics.

245 irst 25 amino acid residues of the C subunit are modeled as polyalanine.

246 bles collected within 24 hours of enrollment were modeled as predictors of hospital mortality using l

247 epsilon4 allele (APOE4), ethnicity, and age were modeled as predictors of latent class membership.

248 e solution chemistry show that the zones can be modeled as preferential portlandite dissolution in th

249 The light response of retinal ganglion cells was modeled as probabilistic firing combined with a refr

250 Doubly charged precursor ions have generally been modeled as producing only singly charged fragment i

251 Instead, 3D structures can be modeled as protein structure networks (PSNs).

252 uation over the 5.4-km evaluated reach could be modeled as pseudo-first-order decay for 11 of the 14

253 any biomechanical studies, blood vessels can be modeled as pseudoelastic orthotropic materials that a

254 etween two crystalline lamellae M unit apart are modeled as random walks with one-step memory on a cu

255 ng assumption that the detection process may be modeled as rate-of-change.

256 Circadian rhythms are modeled as reliable and self-sustained oscillations

257 of cat ANFs during spontaneous activity can be modeled as resulting from refractoriness operating on

258 ultiresolution decomposition at each subband are modeled as samples from the generalized Gaussian pdf

259 Cells have been modeled as simple shapes in two dimensions as well

260 The rough surface is modeled as sinusoidally corrugated particular to the

261 data was obtained when the charged residues were modeled as solely hydrophilic, further assembly fro

262 Dynamic mechanoelectrical feedback was modeled as spatially and temporally nonuniform membr

263 surface and the ligands and crowding agents are modeled as spheres that interact via a steep repulsi

264 ptions are as follows: (i) the organisms can be modeled as spheres, (ii) the power available to the o

265 ices are taken to be elastic rods, the loops are modeled as springs, and the lipid bilayer is approxi

266 The EEG waveforms could be modeled as standard evoked responses to auditory even

267 Regional ecosystems are modeled as statistical aggregates of dynamically dri

268 d the radiation tracks hitting the chromatin are modeled as straight lines hitting lattice sites.

269 The growth dynamics of the cytoskeleton can be modeled as stress dependent.

270 g capillary electrophoresis, these peaks can be modeled as sums of the observed IMS conformers; this

271 odynamic interaction to scattering intensity is modeled as that of a single average hard spherical sp

272 he under-coupled and over-coupled resonators are modeled as the time-reversed ideal fractional differ

273 n stirred serum-containing suspensions could be modeled as the competition between a first-order reac

274 s glycine in P-loop A of AtHKT1 and HKT1 can be modeled as the first glycine of the K(+) channel sele

275 cular distribution in an epithelial cell can be modeled as the induced polarization of positive and n

276 ion of wakefulness into a single episode can be modeled as the interaction of two processes, a homeos

277 oC far UV circular dichroism spectrum could be modeled as the sum of C and a coiled-coil oligomeriza

278 n cluster A, and the observed spectrum could be modeled as the sum of separate square planar and tetr

279 of the trimer has a hydrophobic region that is modeled as the complex being a peripheral membrane pr

280 The population's expression pattern is modeled as the linear combination of mRNA expression

281 A hexasaccharide was modeled as the basis for a possible antagonist.

282 localization of the bulk of the root system, was modeled as the decision variable.

283 When depressive status was modeled as the total number of reports of elevated d

284 many natural and artificial microstructures are modeled as thin elastic shells.

285 The tissues are modeled as three-dimensional, stochastic, fiber netw

286 D) of the Arabidopsis thaliana ETR1 receptor is modeled as three membrane-spanning helices.

287 ithin organized regulatory programs that can be modeled as transcriptional regulatory networks.

288 The mammalian circadian clockwork is modeled as transcriptional and posttranslational feed

289 About 2% of the sulfur in both wood types was modeled as trimethylsulfonium, possibly reflecting b

290 cit function of width, chromatographic peaks are modeled as two different independent generalized Gau

291 trusion from both cells occurred, and it can be modeled as two springs connected in series, although

292 ucleotide binding to actomyosin V and VI can be modeled as two-step binding mechanisms involving the

293 Based on the NMR data, the Cu(I) ion has been modeled as two-coordinate with ligation by conserve

294 k consists of a diversity of cell types, yet is modeled as two hierarchically organized groups, one o

295 This T1-S1 linker was modeled as two polyglycine helices to accommodate th

296 is resolved, and varieties of self-deception are modeled as type-specific conflict-resolution mechani

297 obtained when presumptively affected persons were modeled as unaffected).

298 on 35 cM when presumptively affected persons were modeled as unknown (a maximum multipoint score of 4

299 across individuals and patterns of response are modeled as weighted sums of basis patterns associate

300 iotemporal model in which temporal responses were modeled as weighted sums of velocity, acceleration,