ライフサイエンスコーパス: mechanic

1 gain insights about the underlying membrane mechanics.

2 ular mass and abundance that can affect wall mechanics.

3 crotubule acetylation may modify microtubule mechanics.

4 ownsend effect occurring in ordinary quantum mechanics.

5 ion is key for further understanding of cell mechanics.

6 myces pombe drove us to investigate cellular mechanics.

7 open question in non-equilibrium statistical mechanics.

8 tion in an Ising-like model from statistical mechanics.

9 ess coding experiments using a model of skin mechanics.

10 ating intracellular signaling with cell wall mechanics.

11 eproducibly detect small differences in cell mechanics.

12 ted by the states of primary afferent neuron mechanics.

13 ss lowers cohesion consistently with contact mechanics.

14 light, but without connection to guard cell mechanics.

15 metamaterials that combines optics and solid mechanics.

16 m, using a general model of interstitial gap mechanics.

17 eplay because of unfamiliarity with the game mechanics.

18 osed as key steps and verified using quantum mechanics.

19 e security guaranteed by the laws of quantum mechanics.

20 influencing cell wall formation and cellular mechanics.

21 ssociated with an improvement in respiratory mechanics.

22 unities for the systematic study of membrane mechanics.

23 how phosphorylation influences individual SF mechanics.

24 ocess, with limited impact from cell-surface mechanics.

25 ic traits with left ventricular (LV) cardiac mechanics.

26 mes on targeting, cytotoxicity, and cellular mechanics.

27 xperiment "...has in it the heart of quantum mechanics.

28 tracellular matrix integrity and respiratory mechanics.

29 ally opening new applications of topological mechanics.

30 diseases that have in common altered myocyte mechanics.

31 specific shapes is in essence a question of mechanics.

32 n extracellular matrix (ECM) composition and mechanics.

33 y guaranteed by the physical laws of quantum mechanics.

34 ot previously been linked to mitosis or cell mechanics.

35 simple decision rules drawn from statistical mechanics.

36 Corti mechanics, and outer hair cell electro-mechanics.

37 computed tomographic scans, and respiratory mechanics.

38 of physics into morphogenesis is via tissue mechanics.

39 thus not restricted to the realm of quantum mechanics.

40 essment of muscle or polymer materials (bio-)mechanics.

41 he actomyosin cytoskeleton modify epithelial mechanics.

42 toskeleton and membrane lipids in DRG neuron mechanics.

43 RLC phosphorylation, SF localization, and SF mechanics.

44 s usually found in ultrarelativistic quantum mechanics.

45 t the foundations of quantum and statistical mechanics.

46 provide valuable clues in understanding cell mechanics.

47 t principally determined by basilar membrane mechanics.

48 ting them as changes in the body/environment mechanics?

49 In this work we make use of population mechanics, a non-standard theoretical approach to T cell

50 Using statistical mechanics, a random-binder model without fitting paramet

51 These mechanics account for the different strategies used by:

52 function and the free energy in statistical mechanics, allowing us to use the physical theory of fir

53 elongation entails spatially varying tissue mechanics along the anteroposterior axis.

54 ent UV-vis spectroscopy, HPLC, and molecular mechanics analyses revealed an atypical thermal reisomer

55 , demonstrating mechanosensory tuning to fin mechanics and a consistent pattern of correlated evoluti

56 These results indicate that changes in the mechanics and architecture of the lung microenvironment

57 Findings open doors at the intersections of mechanics and biology, particularly for understanding an

58 e pulmonary failure, as demonstrated by lung mechanics and blood oxygenation assays.

59 The relationship between ECM mechanics and cell behavior is dynamic, as cells remodel

60 directions in studying how the principles of mechanics and chemistry combine to drive morphogenetic p

61 th excited-state quantum mechanics/molecular mechanics and classical molecular dynamics simulations.

62 Using contact mechanics and direct measurements of the molecular surfa

63 eology enables a means to probe the internal mechanics and dynamics.

64 e is determined by a subtle interplay of DNA mechanics and electrostatics, that the changes in flexib

65 gap junctions contribute to passive cochlear mechanics and energy distribution in the active cochlea.

66 Lastly, we simultaneously measure cell mechanics and fluorescence signals of cells that overexp

67 to explore the role of Scx in cortical bone mechanics and fracture healing.

68 Respiratory mechanics and gas exchange data were collected.

69 hesis) responds to changes in the prosthesis mechanics and gravitational load.

70 work, thereby playing a central role in wall mechanics and growth, but this view is challenged by new

71 driven processes differently affect membrane mechanics and hence fluctuations, while creating distinc

72 y relation is a fundamental limit in quantum mechanics and is of great importance to quantum informat

73 etween quantum states, is central to quantum mechanics and its applications.

74 emporal resolution maps of platelet integrin mechanics and its role in platelet aggregation, suggesti

75 echanical control, is a core regulator of AJ mechanics and long-range cell-cell interactions.

76 trol may contribute to sex differences in LV mechanics and LV haemodynamics.

77 le in space-time and dissect local anchorage mechanics and mechanism.

78 Using a theoretical model for membrane mechanics and membrane protein interaction, we have syst

79 We combine sarcomere mechanics and micrometer-nanometer-scale X-ray diffracti

80 trategies, the application of hybrid quantum mechanics and molecular mechanics (QM/MM) models is an i

81 ctions contribute in unexpected ways to cell mechanics and motility.

82 hear stress underlying developmental cardiac mechanics and physiology.

83 Concomitant measurements of mechanics and plasma membrane fluidity demonstrate that

84 ously improves our understanding of stomatal mechanics and questions our long-standing beliefs about

85 ated shape formation is challenging in fluid mechanics and soft condensed matter systems.

86 culty increased by altering the virtual ball mechanics and the gain between joint movement and ball v

87 s of chromatin and lamin A/C in cell nuclear mechanics and their alterations in disease.

88 mics and optomechanics, acoustics, continuum mechanics, and atomic and optical physics but is thought

89 include single-channel analysis, hair-bundle mechanics, and channel-permeation properties.

90 volves changes in respiratory drive, rhythm, mechanics, and dynamics.

91 oretical framework to capture its structure, mechanics, and dynamics.

92 current understanding of how genes, growth, mechanics, and evolution interact to generate diverse st

93 pulmonary vascular mechanics, improved lung mechanics, and gas exchange but at the expense of a lowe

94 onship between transpulmonary pressure, lung mechanics, and lung morphology and to quantify the benef

95 en aging, elevated hemodynamic load, cardiac mechanics, and LV remodeling in an elderly community-bas

96 inical and demographic characteristics, lung mechanics, and mortality were compared between the two g

97 ack are considered explicitly-organ of Corti mechanics, and outer hair cell electro-mechanics.

98 These alterations in cell mechanics are abrogated when the actin cytoskeleton is d

99 it is unknown whether sex differences in LV mechanics are fundamentally regulated by differences in

100 nderlying assumption was that organ of Corti mechanics are governed by rigid body kinematics.

101 LV twist mechanics are reduced in males compared to females durin

102 ement techniques reveals that organ of Corti mechanics are too complicated to be fully represented wi

103 dependence on membrane mechanics, or whether mechanics are tuned to specific protein processes of the

104 rove significantly the applicability of cell mechanics as a quantitative marker to discriminate betwe

105 the resulting changes in cell morphology and mechanics as well as measuring the forces generated by t

106 dentify zyxin as a regulator of stress fibre mechanics, as stress fibres are fluid-like without flow

107 ned up new frontiers in the study of quantum mechanics at a macroscopic level.

108 e stresses can play a dominant role in solid mechanics at larger length scales than previously antici

109 A deeper understanding of mechanics at the molecular level is essential for the de

110 scoring tools, indicate that the statistical mechanics-based approach provides more reliable off-targ

111 We develop a first-principles, fluid mechanics-based crude oil pipeline transportation emissi

112 and the assignment was confirmed by quantum mechanics-based NMR chemical shift calculations.

113 A new mechanics-based system is proposed to physically restrai

114 -induced lung injury in terms of respiratory mechanics, blood gases, and pulmonary edema.

115 Effective movement relies not only on limb mechanics but also on appropriate mechanosensory feedbac

116 pportunity to differentially regulate tissue mechanics by balancing and tuning forces among cytoskele

117 density function theory (DFT) based quantum mechanics calculation results of atomic clustering on th

118 We use computational mechanics calculations and information about the spicule

119 amics and hybrid quantum mechanics/molecular mechanics calculations at the mPW1N/6-311+G(2d,2p):FF99S

120 On a parallel front, quantum mechanics calculations such as density functional theory

121 potential functions, and all-atom molecular mechanics calculations.

122 Acutely failing respiratory mechanics can be caused by central and peripheral lesion

123 ular behavior, such as cell morphology, cell mechanics, cell motility, cell signaling, all of which c

124 orks and regulate plant growth, development, mechanics, cell-cell communication and adhesion, and def

125 en lung approach improves pulmonary vascular mechanics compared with higher or lower positive end-exp

126 oach resulted in the best pulmonary vascular mechanics compared with higher or lower positive end-exp

127 In standard quantum mechanics, complex numbers are used to describe the wave

128 t research establishes various materials and mechanics concepts for such technologies, all existing a

129 Fracture mechanics concepts using double cantilever beam configur

130 A quantitative understanding of cell mechanics coupled with protein dynamics has allowed us t

131 distress syndrome led to pulmonary vascular mechanics deterioration.

132 and peribronchial fibrosis and impaired lung mechanics determined by the forced oscillation technique

133 We show that the organ of Corti mechanics dictate the longitudinal trend of cochlear amp

134 p ASCO and oncologists better understand the mechanics, difficulties, and gaps in genomic clinical de

135 maneuver reverses atelectasis, improves lung mechanics, distribution of ventilation and oxygenation,

136 n a regime in which conventional statistical mechanics does not apply.

137 or from more complex adaptions in sprinting mechanics due to the biomechanical and morphological dif

138 ve systems in terms of non-Hermitian quantum mechanics enabling the identification of a class of non-

139 immunity, inflammation, extracellular matrix mechanics, epigenetic or transcriptional regulation, pro

140 al regulator of cytoplasmic architecture and mechanics, essential in a myriad of physiological proces

141 CT: Sex differences in left ventricular (LV) mechanics exist at rest and during acute physiological s

142 f emitted acoustic phonon events during rock mechanics experiments under wet and dry conditions.

143 ive relationship between SF connectivity and mechanics for patterned cells and show that similar rela

144 n are established from macroscopic nonlinear mechanics for plates and shells and micro-mechanics of c

145 ry for fundamental investigations of quantum mechanics, for increasing the sensitivity of quantum ima

146 ation method for the validation of molecular mechanics force fields and chemical shift prediction alg

147 l activity leads to the modification of cell mechanics, force development and adhesion strength, and

148 HFR using hybrid quantum mechanics-molecular mechanics free energy simulations with the Met(20) loop

149 innati in 1969 and an MSc and PhD in applied mechanics from Stanford University.

150 The natural laws of statistical mechanics guide the network of stochastic nanomagnets at

151 h strategy did not worsen pulmonary vascular mechanics, improved lung mechanics, and gas exchange but

152 on the fundamentals of abnormal respiratory mechanics in acute neurologic conditions, bedside judgme

153 rosette expansion, and modulates guard cell mechanics in adult plants.

154 ventilation strategies on pulmonary vascular mechanics in early acute respiratory distress syndrome.

155 teries are needed for understanding arterial mechanics in health and disease.

156 In part, this is because probing spindle mechanics in live cells is difficult.

157 le tracking analysis, this study compared LV mechanics in males and females matched for LV length dur

158 eview, we highlight the multifaceted role of mechanics in pattern formation, from protein and cell so

159 ippo effector as the key determinant of cell mechanics in response to ECM cues.

160 t can offer exceptional low modulus, elastic mechanics, in compact geometries, with active components

161 been associated with the regulation of cell mechanics, including cell softening and loss of stiffnes

162 e method that is used to measure respiratory mechanics, including respiratory resistance and reactanc

163 to some disagreements about odor-processing mechanics, including whether or not rodents use temporal

164 ers, it is not known how fiber structure and mechanics influences cell injury during cyclic airway re

165 Game mechanics (involving the whole body) and strategies to m

166 Membrane mechanics is an important biological factor regulating m

167 Altered nuclear mechanics is associated with many human diseases, includ

168 hese structurally integrated systems to cell mechanics is critical.

169 tial for multifunctional applications beyond mechanics is examined.

170 The correlated mechanics is further rationalized by finite element anal

171 ng the physical mechanisms governing nuclear mechanics is important as it can impact gene expression

172 change in behavior are largely unknown, but mechanics is likely to be involved.

173 l performance via altered cell-wall-mediated mechanics is likely to be of evolutionary and agronomic

174 A crucial point in statistical mechanics is the definition of the notion of thermal equ

175 ium has a filamentous network structure with mechanics largely controlled by filament elasticity and

176 etabolic changes trigger alterations in cell mechanics, leading to enhanced migratory and proliferati

177 Such molecular control of actin mechanics likely plays critical roles in regulating morp

178 s on the abdomen to describe changes of lung mechanics, lung morphology, and pulmonary hemodynamics i

179 The effects of MLCK and ROCK on single-SF mechanics may be correspondingly phenocopied by overexpr

180 providing preliminary evidence that LV twist mechanics may be more sensitive to adrenergic control in

181 These findings suggest that LV twist mechanics may be more sensitive to alterations in adrene

182 In addition, fracture mechanics measurements showed that tissue from patients

183 We propose and validate with quantum mechanics methods a unique catalyst for electrochemical

184 imulation techniques and quantum/statistical mechanics methods to understand how thermal and mass eva

185 We use our structural mechanics model along with measurements of the spicules'

186 nt within the sponge to develop a structural mechanics model for the spicules.

187 oute toward the development of a statistical mechanics model that correlates connectivity with mechan

188 Mechanics modeling and experimental quantification captu

189 Atomistic mechanics modeling further reveals the dependence of the

190 thermophoresis measurements and statistical mechanics models exposed the inherent limitations of PEG

191 gs of classical computation onto statistical mechanics models have led to remarkable successes in add

192 Continuum mechanics models suggest that buckled cofilactin filamen

193 kinetic-theory-based, macroscale statistical mechanics models, are used to rigorously derive the cont

194 lts and simulations of the ab initio quantum mechanics molecular dynamics prove that the structure of

195 n wild type (WT) ecDHFR using hybrid quantum mechanics-molecular mechanics free energy simulations wi

196 We performed a detailed quantum mechanics/molecular mechanics (QM/MM) and molecular dyna

197 Quantum mechanics/molecular mechanics (QM/MM) calculations combi

198 ion are characterized at the uniform quantum mechanics/molecular mechanics (QM/MM) computational leve

199 stems, as demonstrated by the hybrid quantum mechanics/molecular mechanics (QM/MM) simulations of lig

200 This is in line with excited-state quantum mechanics/molecular mechanics and classical molecular dy

201 ssical molecular dynamics and hybrid quantum mechanics/molecular mechanics calculations at the mPW1N/

202 In this work we present a quantum mechanics/molecular mechanics study into the mechanism o

203 TS: Sex differences in left ventricular (LV) mechanics occur during acute physiological challenges; h

204 The assembly and mechanics of actomyosin stress fibers (SFs) depend on my

205 ces global cytoplasmic flows that couple the mechanics of all MTs, the PNC, and the cell periphery wi

206 to functional submodules, using statistical mechanics of complex systems combined with a fitness-bas

207 ar mechanics for plates and shells and micro-mechanics of composite material to allow for the influen

208 del (AVM) for cell-resolution studies of the mechanics of confluent epithelial tissues consisting of

209 We discuss the model's implication for mechanics of contractile rings and stress fibers.

210 trapping technique for determining membrane mechanics of cultured primary afferent neurons of the do

211 ovide insight into the self-organization and mechanics of cytoskeletal assemblies.

212 The mechanics of DNA replication and cell cycling are well-c

213 scoring the key role played by the nonlinear mechanics of fibrous matrices.

214 anching of nanofibers also leads to improved mechanics of gels and nanocomposites.

215 The mechanics of hearing in rodents such as gerbil pose a ch

216 The current work demonstrates that the mechanics of inks plays a critical role in developing 3D

217 ing its internal pressure and exploiting the mechanics of interfacial equal load sharing.

218 systems platform that utilizes the molecular mechanics of ion transport, metabolism, and signaling of

219 ng new opportunities to control and tune the mechanics of layered crystals and other complex material

220 In sexually reproducing species, the mechanics of locating mates and reproducing successfully

221 ntal results, and is used to investigate the mechanics of particle deformation history.

222 However, membrane mechanics of primary afferent neurons is largely unknown

223 onstrate the key consequences of HIs for the mechanics of pronuclear migration.

224 Overall, our data redefine the mechanics of retromer-based sorting and call into questi

225 ove-while also providing new insights on the mechanics of segregation that are relevant to a wide ran

226 Although the mechanics of selectin-mediated rolling have been extensi

227 with subcellular laser ablation to probe the mechanics of single, geometrically defined SFs.

228 zation through trans-kingdom mimicry and the mechanics of species-specific leader activity that under

229 Our results provide new insight into the mechanics of stomatal function, both negating an establi

230 modeling platform has helped to resolve the mechanics of stomatal movements, uncovering previously u

231 g mechanism and connections to the intrinsic mechanics of the epithelium are largely unexplored.

232 TENG) designed to exploit the unique flutter mechanics of the hummingbird for small-scale wind energy

233 tional changes is already encoded by passive mechanics of the individual elements.

234 y mechanisms govern the deformation and thus mechanics of the layered C-S-H: diffusive-controlled and

235 ar spheroids shown an important role for the mechanics of the microenvironment in a wide range of cel

236 lay helix residue Glu-469, which affects the mechanics of the myosin power stroke.

237 We examined sensory physiology and mechanics of the pectoral fins, forelimb homologs, in th

238 erties of the composite while preserving the mechanics of the surrounding medium.

239 works it is very important to understand the mechanics of their individual building blocks.

240 ual-beam optical tweezers assay to study the mechanics of this interaction at the single-molecule lev

241 Yet little is known about the mechanics of this process, especially in urbanized estua

242 ons in 3D fibrous matrices.The structure and mechanics of tissues is constantly perturbed by endogeno

243 The structure and mechanics of tissues is constantly perturbed by endogeno

244 To characterize the elusive mechanics of TRPV4 volume-sensing, we expressed the chan

245 this platform amenable to studies of dynamic mechanics on cell behavior across many cell types and co

246 We investigate the flutter mechanics on multiple contact surfaces with several free

247 s, even those exploiting the laws of quantum mechanics or involving an infinite-dimensional reservoir

248 perties have the same dependence on membrane mechanics, or whether mechanics are tuned to specific pr

249 We aimed to determine whether respiratory mechanics (peak inspiratory pressure, positive end-expir

250 Particularly in fracture mechanics, periodicities are of high scientific interest

251 a theory unifying the role that biology and mechanics play in implant osseointegration.

252 al calculations incorporating basic fracture mechanics principles well model our experimental results

253 Consideration of cellular mechanics provides new insights into not only mechanisms

254 ormed a detailed quantum mechanics/molecular mechanics (QM/MM) and molecular dynamics (MD) study on w

255 Quantum mechanics/molecular mechanics (QM/MM) calculations combined with free energy

256 d at the uniform quantum mechanics/molecular mechanics (QM/MM) computational level using density func

257 on of hybrid quantum mechanics and molecular mechanics (QM/MM) models is an important approach that h

258 ed by the hybrid quantum mechanics/molecular mechanics (QM/MM) simulations of light-harvesting protei

259 harynx, and larynx, but abnormal respiratory mechanics rarely coincide with abnormalities of the resp

260 Cytoskeletal mechanics regulates cell morphodynamics and many physiol

261 ry costs and benefits of tuning cytoskeletal mechanics remain an open question, one that we discuss h

262 ion and the corresponding change in membrane mechanics remain unclear.

263 d within subducting oceanic slabs, but their mechanics remains enigmatic.

264 and eventually to tissue-scale dynamics and mechanics remains largely unknown.

265 ondences with advanced topics in statistical mechanics, resulting in new possibilities for the analys

266 sigma akashiwo together with a model of cell mechanics revealed that this behaviour was accompanied b

267 en lung approach affected pulmonary vascular mechanics similarly.

268 ular interactions with ligands via molecular mechanics simulations.

269 and dimer interaction energies from quantum mechanics simulations.

270 ork we present a quantum mechanics/molecular mechanics study into the mechanism of sulfoxide synthase

271 principles of general relativity and quantum mechanics, such a picture is, at most, a convenient fict

272 rapy carried multiple positive effects on RV mechanics, synchrony, and contraction efficiency.

273 , is a poor reflection of the actual contact mechanics that take place between human fingers and smoo

274 ropelled Voronoi (SPV) model that links cell mechanics to cell shape and cell motility, we formulate

275 individual-specific data of TMJ stress-field mechanics to determine ED (ED = W/ Q mJ/mm(3), where W =

276 omplex mechano-transducers that adjust their mechanics to external stimulation.

277 We used molecular mechanics to illustrate conformations found by the NMR e

278 field theory and non-equilibrium statistical mechanics to introduce a generic theoretical framework f

279 sited adhesive proteins to nanoscale contact mechanics to macroscale live observations-suggest that l

280 ndence principle applied to Hertzian contact mechanics to model both indentation and retraction curve

281 To provide design guidelines, we use quantum mechanics to predict the detailed atomistic mechanisms r

282 Clarifying the intimate links from cellular mechanics to reactive oxygen species and nitric oxide si

283 were associated with distinct aspects of LV mechanics, underscoring potential differential effects a

284 to cell behavior and the numerous studies on mechanics using 2D cell culture systems, the spatial and

285 and in chronic inflammation to altered lung mechanics using a computational model.

286 only three years after the advent of quantum mechanics, von Neumann and Wigner showed that Schrodinge

287 ours after randomization, pulmonary vascular mechanics was similar in Acute Respiratory Distress Synd

288 this integrated analysis of HPC polarity and mechanics, we propose that normal heart development requ

289 with an analysis that incorporated non-rigid mechanics, we quantified the total work production dista

290 d while the crucial brain-like structure and mechanics were maintained.

291 Atrial mechanics were measured with cine-steady-state free-prec

292 The baseline parameters and the lung mechanics were similar between the two groups.

293 ments in oxygenation, but not in respiratory mechanics, were associated with lower mortality in pedia

294 e vital in gaining information upon cellular mechanics when using next-level, multi-cellular in vitro

295 ght led us to develop an approach to quantum mechanics which relies on pre- and postselection, weak m

296 of local chemistry, material transport, and mechanics, which can be engineered by controlling the lo

297 y aimed to investigate sex differences in LV mechanics with altered adrenergic stimulation achieved t

298 nd counter-intuitive consequences of quantum mechanics, with potent applications in cryptography and

299 By comparing sensory ability and mechanics within a phylogenetic framework, we show that

300 lds concerned with understanding the role of mechanics within the complex three-dimensional architect