ライフサイエンスコーパス: driving force for

1 ggest that thermal fluctuations serve as the driving force for a degradative process that requires bo

2 esidues and the graphene surface provide the driving force for a tight binding of these basic residue

3 election controlled by P:L suggests that the driving forces for Abeta aggregation and Abeta-membrane

4 viral persistence, even at low levels, is a driving force for accumulation of isotype-switched B(mem

5 ments for bacteria and thus present distinct driving forces for adaptation.

6 radient across the IMM serves as the primary driving force for AdN uptake or efflux.

7 rption-desorption kinetics and thermodynamic driving forces for adsorption.

8 formation around C60, provides a fundamental driving force for aggregate formation in water.

9 omains during ripening, we estimate that the driving force for alignment is on the order of 0.1 meV p

10 th and lifetime, and consequently weaken the driving force for alignment.

11 nding and dissociation, not microH+, are the driving forces for alternating access; (iv) galactoside

12 modifications do not appear to be the major driving force for amyloid remodeling by EGCG treatment.

13 y intermediate states, is proposed to be the driving force for amyloid-related toxicity in common deg

14 ease of the fluorocarbon ligands providing a driving force for analyte desorption.

15 his AA provides an additional mass transport driving force for analyte to pass through the dialysis m

16 vitro biophysical studies that quantify the driving forces for and mechanisms of polyglutamine aggre

17 The principal driving force for apoptosis involved the extrinsic pathw

18 We show that the driving force for assembly in the vicinity of a hydropho

19 ble outer membrane complex and reveals a key driving force for assembly independently of the beta-bar

20 In all of these cases, the predominant driving force for assembly is the formation of a hydroph

21 that burial of hydrophobic residues may be a driving force for assembly of the catenane structure.

22 t is shown by simulation that increasing the driving force for assembly stepwise by changing the solv

23 nd solvent entropy is identified as the main driving force for assembly.

24 Driving forces for association between oppositely charge

25 rated during photosynthesis is the essential driving force for ATP production; it is also a central r

26 tly, the possibility of innate immunity as a driving force for B. burgdorferi heterogeneity during th

27 hat side chain hydrophobic burial is a major driving force for beta-sheet assembly.

28 proteins bind Kme3 in an aromatic cage, the driving force for binding may differ; some readers exhib

29 that cation-pi interactions provide the main driving force for binding, loosely mimicking the binding

30 This study examines the driving forces for binding between BLIP-II and beta-lact

31 nt study for HBP enables a comparison of the driving forces for binding between these classically dis

32 emonstrates that excess RNS are a nongenetic driving force for Brca2-deficiency-induced pancreatic tu

33 n between the core and the bubble provides a driving force for bubble migration.

34 APO intermediates, thus providing additional driving force for C-H and O-H bond scission.

35 ent-derived proton adds significantly to the driving force for C-H bond scission.

36 ntrol of both Ca(2+) channel opening and the driving force for Ca(2+) entry are powerful levers in sc

37 ibute to changes in Ca(2+) by modulating the driving force for Ca(2+) entry, and some TRP channels ar

38 nsmitter release by affecting the electrical driving force for calcium entry and calcium channel gati

39 epatic solute transport provides the osmotic driving force for canalicular bile formation.

40 he angiopoietin/Tie2 pathway is an essential driving force for capillary remodeling into venules in M

41 H2 and CO and to minimize the thermodynamic driving force for carbon deposition.

42 utations and chromosomal rearrangements, the driving forces for carcinogenesis and hereditary disease

43 (beta-AR) signaling is postulated as a major driving force for cardiac dysfunction in patients with t

44 hin small intestinal crypts is the principal driving force for cell migration on villi.

45 nd disassembly of actin filaments is a major driving force for cell movements.

46 cally favorable trimers and could serve as a driving force for CFA/I pilus assembly, representing an

47 ed over the past 50 years, and the principal driving forces for change, focusing on both the "practic

48 cases, intradimer separation remains as the driving force for channel opening.

49 ontrol both aggregate size and the energetic driving force for charge transfer.

50 oncluded that VB will continue to be a major driving force for chemistry in the century to come.

51 n as an optical voltage clamp to provide the driving force for chloride removal through the concurren

52 the generated HBr/water vapors are the main driving forces for circulation.

53 The driving force for Cl(-) is outward because the Na(+)-K(+

54 We conclude therefore that minimizing the driving force for Cl(-) secretion is the main requiremen

55 nce K(+) channel (KCNN4), which provides the driving force for Cl(-) secretion.

56 n, suggesting that gravity was a significant driving force for colloid deposition.

57 ewarding properties of opioids are essential driving force for compulsive drug-seeking and drug-takin

58 r more precisely, from a competition between driving force for crystallization and liquid fragility.

59 y identify inspiration as the most important driving force for CSF flow in humans.

60 The driving force for CTA1 dislocation into the cytosol is u

61 endmember nitride instability can become the driving force for cubic nitride solid solution stability

62 Positive EP is a driving force for current through hair cells to produce

63 to skin by both increasing the biomechanical driving force for damage while simultaneously decreasing

64 e catalytic intermediate, and decreasing the driving force for deleterious auto-oxidation of tyrosine

65 for efficient nuclear waste management is a driving force for development of alternative architectur

66 ata supporting mitochondrial superoxide as a driving force for diabetic kidney, nerve, heart, and ret

67 ps in the membrane provide the thermodynamic driving force for diffusion and immobilization.

68 We conclude that the dominant driving force for diffusion is the concentration gradien

69 lexes and recognition complexes provides the driving force for DNA recognition.

70 exes, in effect increasing the thermodynamic driving force for DNA recognition.

71 ymerization activity showed that most of the driving force for DNA synthesis is provided by initial d

72 -surface, and hydrologic gradients provide a driving force for downward delivery of Mn.

73 The driving force for droplet formation arises from the lowe

74 biliary epithelial cells (BECs) provide the driving force for ductular bile formation.

75 tween nanohemispheres will provide the extra driving force for DV stacking.

76 The ideal driving force for dye regeneration is an important param

77 The driving force for dye regeneration with the redox mediat

78 Despite the small driving forces for dye regeneration, fast and efficient

79 me of intrinsic physical processes and a key driving force for early cellular evolution.

80 e Fermi level in the oxide and, with it, the driving force for electron transfer (DeltaG(o)').

81 s studied as a function of the thermodynamic driving force for electron transfer by controlling the T

82 The driving force for electron transfer from the reductant t

83 cross all SWCNT species, indicating that the driving force for electron transfer is small.

84 The entropic and enthalpic driving forces for encapsulation versus sequential exter

85 ds indicate that a major contribution to the driving force for enhanced catalysis is entropic in natu

86 tivation between contacting cells may be the driving force for entosis in epithelial cells.

87 rged center can provide a powerful energetic driving force for enzyme catalysis and conformational ch

88 and climate instability are suggested as the driving forces for ESD evolution.

89 Staying together is a driving force for evolution of complexity, including the

90 table FO water flux even at ultralow osmotic driving force, for example, 7.6 L/m(2).h at an osmotic p

91 e thylakoid membrane result in a significant driving force for excess membrane dynamics.

92 rrous systems, offering strong thermodynamic driving force for experimentally observed reductive nitr

93 e environmental issues have become a notable driving force for extended research on biopolymers.

94 mational change to PCET and that the altered driving force for F(3)Y oxidation, by residues adjacent

95 etic exchange interaction already contains a driving force for ferroelectricity, thus providing a new

96 tracellular FFA at low levels, providing the driving force for FFA transport, but intracellular FFA l

97 sensing of extracellular signals, and make a driving force for fluid flow.

98 interactions is compensated by the entropic driving force for fluorinated substrate binding in a hyd

99 re formed and therefore provide an increased driving force for formation of cooperative interactions.

100 lar intermediates (N17 effect) and lower the driving force for forming insoluble aggregates (C38 effe

101 s its high intrinsic solubility to lower the driving force for forming insoluble aggregates by increa

102 this limited promiscuity may have provided a driving force for founding the distinct one-metal-ion br

103 We conclude that membrane tension is the driving force for fusion pore dilation and that Cdc42 is

104 To further discriminate whether the primary driving force for Gag membrane binding is electrostatic

105 textured structure of the film, which is the driving force for generating an electric current in the

106 at whole-genome mutational bias is the major driving force for generating codon bias.

107 the Donnan potential provides an additional driving force for genome encapsidation.

108 stratigraphic utility representing a primary driving force for global anthropogenic change.

109 Our data indicate that SGLT1 activity is the driving force for glucose-stimulated GLP-1 secretion and

110 strocytic plasma membrane, which ensures the driving force for glutamate transport and dumps the tran

111 r role of nucleotide biosynthesis as a major driving force for glycolysis, especially during prolifer

112 ich favors melting of the interface, and the driving force for growth supplied by cooling.

113 hydrophobicity of the pyrene moiety was the driving force for helix-helix interaction was excluded b

114 ecreases heme-dioxy stability and lowers the driving force for heme reduction.

115 not due to a weakening in the thermodynamic driving force for heme reduction.

116 ion assay with ZnT cDNAs to confirm that the driving force for heterodimer formation is the core stru

117 ration-precipitation pathway that shifts the driving force for heterotrimer formation away from surfa

118 Thus, the driving force for HIV release may derive from initial sc

119 The calculated driving force for hole transfer corresponds well with el

120 ting relationship between rate and energetic driving force for hole transfer is not well modeled by t

121 nts, thus providing an avenue for tuning the driving force for hole transfer while holding all other

122 vated nanocrystals by reducing the energetic driving force for hole transfer, thus minimizing energet

123 e QD-LEDs can be adjusted by controlling the driving force for hole transport and electroluminescence

124 The Wnt signalling pathway is the major driving force for homeostatic self-renewal and regenerat

125 stent with expectation, entropy is the major driving force for hydrocarbon binding to P450 2A6, as ev

126 than aprotic solvents, thereby reducing the driving force for hydrogen bond formation; and (II) wate

127 eased mitochondrial fission as the potential driving force for increased mitochondrial mass via preve

128 portance of NLRP3 inflammasome activity as a driving force for inflammation in MLKL-dependent disease

129 particular, TDP-43 ubiquitination provides a driving force for InSAC formation.

130 ) sufficient to increase the electrochemical driving force for K(+) excretion was detected only with

131 K+ conductance and not a reduced electrical driving force for K+ secretion.

132 eighbor measurements, imply that the overall driving force for lipid domain formation in bilayers com

133 These results suggest that hypoxia is a driving force for long-term silencing of BRCA1, thereby

134 II filamentous complex was designated as the driving force for mammalian cell abscission, that is, fi

135 homa 9 (BCL9) protein-protein complex is the driving force for many diseases, including cancer.

136 at the shock front drastically increase the driving force for melting from the uniaxially compressed

137 y found that NHE1 induced sodium influx is a driving force for membrane bleb growth, while sodium eff

138 stems to understand the role of entropy as a driving force for microstructure formation.

139 The relative importance of different driving forces for mixing was evaluated qualitatively us

140 rticle transport in various media is the key driving force for modern information processing and comm

141 in sterically crowded chiral alkenes is the driving force for molecular rotary motors in nanoscale m

142 chrome b and c sites and provide part of the driving force for movement of the Rieske protein between

143 and the PIL cation framework were the major driving forces for mRNA extraction.

144 models promoting actin polymerization as the driving force for myoblast fusion.

145 (V-ATPase) and provides the electrochemical driving force for neurotransmitter exchange.

146 educes the potential (the required energetic driving force) for nonaqueous H2 oxidation by 610 mV (11

147 nd-expressing (signal sending) cell is a key driving force for Notch signal transduction.

148 Since hydrophobic mismatch is considered a driving force for oligomerization, the differences in ex

149 ing the importance of passenger folding as a driving force for OM translocation but also reveal that

150 ors and internal mechanisms, is an important driving force for organisms to develop highly integrated

151 e membrane surface and dipole potentials are driving forces for outer membrane protein insertion and

152 t be achievable due to the low thermodynamic driving force for over-oxidation.

153 block copolymers have failed due to the high driving force for P3AT crystallization.

154 nge in PTH, by increasing the lumen-positive driving force for paracellular Ca(2+) transport.

155 Traditionally, the driving forces for particle growth are attributed to con

156 ssenger can fold sequentially, providing the driving force for passenger translocation.

157 considered as both an initiating event and a driving force for pathological remodeling.

158 tential plays a critical role by acting as a driving force for permeant ions.

159 We show that tuning the driving force for PeT (DeltaGPeT + w) through systematic

160 Mutagenesis reveals that the driving force for phase separation depends on the overal

161 esting that the sequence determinants of the driving forces for phase separation may be generally imp

162 is dimerization enhancement is the energetic driving force for phosphorylation-mediated regulation of

163 d in the p-n heterojunction provide a strong driving force for photogenerated electrons to move from

164 estigated the influence of the thermodynamic driving force for photoinduced electron transfer (PET) b

165 power conversion depends critically upon the driving force for photoinduced hole transfer (HT) from t

166 es and redox-titration experiments determine driving forces for photoinduced charge separation (CS) a

167 Driving forces for photoinduced electron transfer (Delta

168 ding glucosyl ring provide the thermodynamic driving force for polysaccharide chain translocation.

169 lso reveal that NCC-dependent changes in the driving force for potassium secretion are not sufficient

170 energetics have been commonly proposed as a driving force for pressure-induced unfolding.

171 tautomerization/neutralization providing the driving force for product formation.

172 catalyst and the relief of ring strain as a driving force for product formation.

173 t peptide fragments may provide an important driving force for protein folding and protein-protein in

174 ary to the protein surface, is the principal driving force for protein-ligand binding, and we have in

175 that trimeric TM interactions are important driving forces for protein folding, stability and membra

176 n (F-actin) at the leading edge provides the driving force for protrusion and is essential for the de

177 he selection-by-function mechanism acting as driving force for PTPN11 mutations affecting codons 62 a

178 (*)-beta2) perturbs its conformation and the driving force for radical propagation, while maintaining

179 tide-gated cation channels creates the major driving force for reabsorption of water through the alve

180 to the influence of mechanical stress on the driving force for reaction.

181 results also attest to female mobility as a driving force for regional and supraregional communicati

182 ctions, suggesting that TEs are an important driving force for regulatory innovation.

183 g in ER store overfilling that increases the driving force for release upon ER Ca(2+) release channel

184 the available store and the electrochemical driving force for release.

185 a(+),K(+)-ATPase in the tubules provides the driving force for renal sodium reabsorption.

186 ative peroxidase can utilize luminal H2O2 as driving force for reoxidizing protein disulfide isomeras

187 on of bone marrow-derived cells provided the driving force for retinal inflammation, with CCR2-expres

188 and electrostatic interactions as essential driving forces for RNA folding.

189 ectrostatic interactions provide the primary driving force for RSV Gag membrane association.

190 ngruent evaporation automatically provides a driving force for running droplets.

191 pant with the surrounding lattice as the key driving forces for segregation on model perovskite compo

192 process that can separate solutes based on a driving force for selective transport that is generated

193 ractions normally are not considered a major driving force for self-assembling in a hydrophobic envir

194 Whereas the driving force for self-assembly has often been viewed as

195 The driving force for self-assembly is the associated gain i

196 ~ 300 K for PG and PS), demonstrate that the driving force for self-assembly is the hydrophobic effec

197 The linker increases the driving force for self-assembly of Nck, likely through w

198 etween modular domains can contribute to the driving forces for self-assembly and phase separation of

199 ber of specific protein contacts provide the driving force for Sf6TSP-polysaccharide complex formatio

200 oding genes suggested purifying selection as driving force for shaping mitogenome diversity in camels

201 lly, indicating cooperativity as a conserved driving force for shelterin assembly.

202 lammation and the microbiome, while age is a driving force for small intestine cancer.

203 In the unstable regime the driving force for soap-film motion is the mean curvature

204 logen bonding interactions are explored as a driving force for solution phase macromolecular self-ass

205 ference between electrons and magnons is the driving force for spin current generation by ultrafast d

206 sidues at positions T139 and S143 could be a driving force for stabilizing the ectodomain interface t

207 cells encoding for intact HIV-1 represents a driving force for stabilizing the pool of latently infec

208 The driving force for such a transformation is the perfect m

209 monal, and molecular responses that can be a driving force for survival when adaptive and time-limite

210 The presence of WMH seems to be the major driving force for SVD on gait impairment in healthy elde

211 the translation of rplL, which can provide a driving force for the 1:4 stoichiometry of L10 to L12 in

212 cent to the active site is identified as the driving force for the active-site conformational change

213 roton motive force (PMF), which provides the driving force for the adenosine triphosphate (ATP) synth

214 gnatures for stacking, as well as additional driving force for the aggregation.

215 t serves as both a kinetic and thermodynamic driving force for the aromatic Cope rearrangement.

216 chlorination, proving a larger thermodynamic driving force for the aryl fluoride product.

217 n this model, ribosomal proteinization was a driving force for the broad adoption of proteins in othe

218 ns demonstrate that there is a thermodynamic driving force for the Cel7A CBM to bind preferentially t

219 n mature neurons and thereby establishes the driving force for the chloride-permeable GABAAR.

220 cotransporter protein, KCC2, which sets the driving force for the chloride-permeable ionotropic GABA

221 in the CI domain provides the thermodynamic driving force for the clock, switching KaiC between an a

222 eterminant of translation rates and a global driving force for the coding of bacterial genomes.

223 erization-induced bundling could have been a driving force for the coevolution of FtsZ1 and FtsZ2 in

224 version and energy efficiencies are a strong driving force for the development of alternative approac

225 exertion may be a previously unacknowledged driving force for the development of music in humans: ma

226 laboration of subcortical motor outputs as a driving force for the development of the apparently uniq

227 olecular interactions within the SAM are the driving force for the difference in chelation between th

228 The driving force for the electron-transfer reactions is app

229 the desolvation of binding sites is the main driving force for the enhancement of binding affinity at

230 fic reciprocal selection acting as the major driving force for the evolution of corolla length of R.

231 hypothesis of reciprocal selection as a key driving force for the evolution of floral traits of an a

232 r eukaryotes is generally considered a major driving force for the evolution of intracellular pathoge

233 s the final folded structure but also is the driving force for the evolution of the ribosome-transloc

234 Ecology is a fundamental driving force for the evolutionary transition from solit

235 n rate constants is consistent with a larger driving force for the faster reaction.

236 from the surface of these biofilms provide a driving force for the flow of liquid in the channels.

237 Preferential solvation was the main driving force for the folding of oligocholates in soluti

238 d pathway, our results show that there is no driving force for the formation of O=N-O-O intermediate

239 cules as well as the micelles, providing the driving force for the formation of soft templates.

240 Based on chemical bonding analysis, the driving force for the formation of this new clathrate is

241 ersity of transcriptional regulations is the driving force for the haplotype selection in SLC18A2.

242 tunneling reaction despite a smaller overall driving force for the hopping-mediated ET reaction.

243 The driving force for the ion exchange is the light-induced

244 action potential shape leads to an increased driving force for the L-type Ca2+ current during the act

245 The driving force for the organization of the structures is

246 d Na-MMT surface, provides the thermodynamic driving force for the organo-mineral complexation.

247 -->sigma*CF interactions are the underlying driving force for the origin of the observed helicity in

248 microbe-mineral electron transfer is a major driving force for the oxidation of organic carbon in man

249 ts that myofibroblast contractility may be a driving force for the persistent myofibroblast different

250 Heterozygous girls might be the driving force for the positive selection of G6PD deficie

251 ine with fluorotyrosines, thus modifying the driving force for the proposed electron transfer reactio

252 to rule out inert molecular crowding as the driving force for the protein folding reaction; in addit

253 cs shows metal ion binding to be the primary driving force for the quaternary structural change in Cz

254 2,2'-bipyridine) provides the thermodynamic driving force for the reaction.

255 ts such as Ce(4+) or S2O8(2-) to provide the driving force for the reaction.

256 ltaGw was the predominant contributor to the driving force for the reaction.

257 ponding gem-diolate and provides the overall driving force for the reaction.

258 ormation of the Michael adducts could be the driving force for the reactions involving FHCs.

259 clopropane moiety provides the thermodynamic driving force for the rearrangement and (3) metal comple

260 species existing in a strain, is the primary driving force for the reduction in virulence.

261 in a nonpolar solvent is believed to be the driving force for the ripening of the nanodots to rods.

262 ediated attraction is considered as the main driving force for the self-assembly behavior.

263 roach uses the swelling of a hydrogel as the driving force for the shape change, and the temperature-

264 ntropic gain in crystalline tetracene as the driving force for the subsequent decay of S(1) <--> ME i

265 ures are often presumed to have been a major driving force for the successful radiation of this taxon

266 tive sites in the preorganized anion are the driving force for the superior CO2 capacity and excellen

267 The thermodynamic driving force for the transformations is calcite crystal

268 s computed to be large enough to work as the driving force for the twisting of crystallites.

269 lochemicals such as nicotine are the initial driving force for the worldwide prevalence of the Accord

270 ures of the hot spot on hACE2 were among the driving forces for the convergent evolution of NL63-CoV

271 n transfer reactions are correlated with the driving forces for the corresponding proton-coupled elec

272 conditions, and have helped to identify the driving forces for the formation of the different phases

273 is generally accepted as one of the crucial driving forces for the gain of new complexity and functi

274 determining Ga nanoparticle phases, with the driving forces for the nucleation of the gamma-phase bei

275 ar charge transfer and solvation are not key driving forces for the rate of the reaction.

276 metal nanoclusters, our understanding of the driving forces for their colloidal stabilization is very

277 An important driving force for these developments has been single-mol

278 in both transition state and product is the driving force for these reactions.

279 To explore the driving force for this evolutionary alterations, we quan

280 ct protonation from solution, decreasing the driving force for this phase transition.

281 Hydrogen atom adsorption is the major driving force for this phase transition.

282 To unveil the driving force for this process, simulations were perform

283 ry radical, which provides the thermodynamic driving force for this reaction.

284 helix-lipid interaction provides additional driving forces for TM helix tilting under a positive mis

285 m, such as vines and herbs, can increase the driving force for transport as they elongate, it is poss

286 (+)-ATPase (Atp1b1), an enzyme providing the driving force for tubular transport, were inversely enri

287 e for interleaflet coupling as an additional driving force for tubulation.

288 d it is argued that genomic instability is a driving force for tumorigenesis.

289 electrochemical reduction, the thermodynamic driving forces for U horizontal lineO bond formation, an

290 ary interstitium is of major importance as a driving force for urine concentration.

291 economic factors were included to screen the driving forces for vegetation change using correlation o

292 size that root pressure is not required as a driving force for vessel refilling, and care should be t

293 Genetic recombination has been considered a driving force for viral evolution; however, recombinatio

294 EBOV VP40 (eVP40) matrix protein is the main driving force for virion assembly and budding.

295 vailing view that quorum sensing is the main driving force for virulence gene expression when bacteri

296 anopore; otherwise, gas nanophase provides a driving force for water "outflow".

297 Pressure contributes directly to both the driving force for water entry and tip expansion causing

298 utstanding in forward osmosis mode where the driving force for water flux is an osmotic pressure diff

299 13)C), leaf mass per unit area (LMA) and the driving force for water transport from stem to leaf (Del

300 tive xylem water potentials provide a larger driving force for water transport, they also cause cavit