ライフサイエンスコーパス: electrostatic force

1 trate retention at the PRMT1 surface through electrostatic force.

2 ment as well as the long-range nature of the electrostatic force.

3 during phosphoryl transfer are stabilized by electrostatic forces.

4 developed a model system that isolates these electrostatic forces.

5 st particles are levitated above the ring by electrostatic forces.

6 polymer structure is invariant to changes in electrostatic forces.

7 lutes approach one another due to long-range electrostatic forces.

8 racting with a polymer (mRNA antecedent) via electrostatic forces.

9 a result of interactions that are driven by electrostatic forces.

10 self each impact the overall effect of these electrostatic forces.

11 y interact with the membrane largely through electrostatic forces.

12 E) method employed to accommodate long-range electrostatic forces.

13 brin polymerization is largely controlled by electrostatic forces.

14 llowed us to evaluate the full effect of the electrostatic forces.

15 oFc gamma RII receptor through predominantly electrostatic forces.

16 h Ewald method to accommodate the long-range electrostatic forces.

17 e condensates are additionally stabilized by electrostatic forces.

18 ons prior to mitotic exit, relying mostly on electrostatic forces.

19 mpounds, primarily through van der Waals and electrostatic forces.

20 e-related coronavirus 2 (SARS-CoV-2) through electrostatic forces.

21 e nanoparticles, although both are driven by electrostatic forces.

22 emerge from competing long-range elastic and electrostatic forces.

23 ance between van der Waals, hydrophobic, and electrostatic forces.

24 ctions between the chains in addition to the electrostatic forces.

25 incipally, though not exclusively, driven by electrostatic forces.

26 toreceptor matrix where it is maintained via electrostatic forces.

27 olecules together are weak van der Waals and electrostatic forces.

28 , despite the powerful opposition of Coulomb electrostatic forces.

29 f varying the magnitude of Van der Waals and electrostatic forces.

30 zing effects through varying hydrophobic and electrostatic forces.

31 in the closed position on the actin helix by electrostatic forces.

32 aals and ionic-strength-dependent, repulsive electrostatic forces.

33 with Get4-Get5 via an interface dominated by electrostatic forces.

34 characterizing the AP, altering compressive electrostatic forces across the membrane.

35 plementarity of these surfaces indicate that electrostatic forces act in concert with a conformationa

36 e passively attracted onto their surfaces by electrostatic forces acting across air gaps.

37 es in the analyte solution that results from electrostatic forces acting on the particle whenever iap

38 Electrostatic forces, acting between helices and modulat

39 C plot due to the change in magnitude of the electrostatic force alone is remarkable.

40 ously predicted that globules are induced by electrostatic forces along an electrically charged polym

41 +) covered Au NPs and decrease the repulsive electrostatic forces among NPs, leading to assembly of i

42 rane on the SNARE complex, we calculated the electrostatic force and performed simulations with an ex

43 ve binding analysis revealed that long-range electrostatic forces and a greasy nonspecific hydrophobi

44 n inner flow region dominated by viscous and electrostatic forces and an outer flow region dominated

45 setae of caterpillars are deflected by these electrostatic forces and are tuned to the wingbeat frequ

46 are governed by the competition of repulsive electrostatic forces and attractive poor solvency/hydrop

47 interfacial adsorption is largely driven by electrostatic forces and demonstrate that the arrangemen

48 Understanding the electrostatic forces and features within highly heteroge

49 Polar interactions such as electrostatic forces and hydrogen bonds play an essentia

50 otube surfaces, thereby increasing repulsive electrostatic forces and steric effects.

51 Selectivity arises from the balance of electrostatic forces and steric repulsion by excluded vo

52 eptide interacts with anionic lipids through electrostatic forces and that this interaction is necess

53 articles increases with the magnitude of the electrostatic forces and Van der Waals forces.

54 he gradient of the partial pressure, (b) the electrostatic force, and (c) the diffusive drag force th

55 polycation resulted in repulsive interlayer electrostatic forces, and caused the dissolution of PEM

56 ptide and DNA in octylglucoside is driven by electrostatic forces, and peptide-peptide interactions a

57 t the interaction is predominantly driven by electrostatic forces, and using noncanonical amino acids

58 rganic ions held together by hydrogen bonds, electrostatic forces, and van der Waals interactions.

59 Electrostatic forces appear to induce modest DNA bending

60 Inherent mineralogical electrostatic forces appeared to be the controlling coll

61 out external water we reveal that long-range electrostatic forces apply a restraining effect upon int

62 genesis of the B. subtilis CTV suggests that electrostatic forces are an important determinant of lat

63 Therefore, accurate calculations of electrostatic forces are crucial for revealing the mecha

64 Electrostatic forces are important for protein folding a

65 ngth of the buffer solution, indicating that electrostatic forces are involved in these processes, bi

66 When electrostatic forces are present at zero ionic strength

67 enabled at high ionic strength, as particle electrostatic forces are reduced through Debye screening

68 that although surface charging can be weak, electrostatic forces are significant even at large dista

69 lly and spatially resolving the microscopic, electrostatic forces arising from a nonlinear optical po

70 Localization is driven by entropic and electrostatic forces arising from cytoplasmic polydisper

71 The metamaterial is actuated by electrostatic forces arising from the application of onl

72 ed MWNTs were controlled by van der Waal and electrostatic forces, as well as other non-DLVO forces (

73 of attractive depletion forces and repulsive electrostatic forces assemble into equilibrium one-dimen

74 , capillary pressure may overwhelm repulsive electrostatic forces, assembling aggregates that are out

75 The electrostatic forces associated with single electrons ho

76 orohexane, theoretical simulations show that electrostatic forces associated with the fluorine substi

77 crucial role played by small but anisotropic electrostatic forces associated with the halogen substit

78 irect recovery of the bias dependence of the electrostatic force at high temporal resolution using Ge

79 ce web server to calculate and visualize the electrostatic forces at molecular level.

80 The nonlinear behavior is determined by electrostatic forces, axial and bending motion coupling,

81 nd to exist, due to a), repulsive long-range electrostatic forces; b), short-range repulsive hydratio

82 face forces such as van der Waals forces and electrostatic forces become dominant at the microscale,

83 The electrostatic force between the negatively charged siali

84 nge in brine composition induces a repulsive electrostatic force between the oil-brine and mineral-br

85 ses at forward bias because of an attractive electrostatic force between the positively charged Fc un

86 ntroduces a biasing force in addition to the electrostatic force between the reactants, and it associ

87 for a quantitative analysis of the effective electrostatic forces between colloidal particles.

88 itical divalent counterion concentration the electrostatic forces between DNA chains adsorbed on surf

89 In vitro studies show that electrostatic forces between DNA chains in bulk aqueous

90 ubstructure is strongly influenced by direct electrostatic forces between gamma-COO(-) in Glu(-) or d

91 interactions that are moderated by repulsive electrostatic forces between negatively charged carboxyl

92 Repulsive electrostatic forces between prion-like proteins are a b

93 hat the energetics of gating is dominated by electrostatic forces between S4 charges and countercharg

94 Electrostatic forces between the charged Fe(III) (hydr)o

95 iber size is comparable to the Debye length, electrostatic forces between the fibers and the particle

96 esult is primarily attributed to the greater electrostatic forces between the partial negative charge

97 (2)/Si substrate and operated via attractive electrostatic forces between the top gold nanostructure

98 ng a model of cyt f-PC interactions in which electrostatic forces bring the two molecules together bu

99 s and susceptible to general hydrophobic and electrostatic forces, but to what extent does the funnel

100 We tune the strength of intermolecular electrostatic forces by varying the solution ionic stren

101 Thus, electrostatic forces can have a dramatic effect on the i

102 Our simulations confirm that electrostatic forces can indeed be a key factor in rate

103 . now propose a packaging mechanism in which electrostatic forces cause the motor to alternate betwee

104 Electrostatic forces cause the oppositely charged cation

105 , probably, due to pH-induced alterations in electrostatic forces causing the packing of the protein

106 the separation of cooperative cation-pi and electrostatic forces commonly found in the binding motif

107 When voltage was applied, the resulting electrostatic forces compressed the film in thickness an

108 ong a bistable potential of mean force, with electrostatic forces coupling the two trajectories.

109 ttractive base stacking forces and repulsive electrostatic forces creating this stiffness.

110 incorporation of CHT in preparations due to electrostatic forces developing between the two polymeri

111 we show that biased diffusion, augmented by electrostatic forces, does indeed generate sufficient to

112 In H2O electrostatic forces dominate so that the most stable st

113 in prior studies, ensuring that interhelical electrostatic forces dominate the behavior of the system

114 upon addition of electrolyte indicates that electrostatic forces dominate the interactions between 1

115 d ionic strength in a manner consistent with electrostatic forces dominating interaction with these o

116 Favorable electrostatic forces dramatically enhance the associatio

117 ions elucidated that the strong out-of-plane electrostatic forces drive the assembly process and stab

118 n be disrupted by high salt, suggesting that electrostatic forces drive the association of the two co

119 about protein-ligand interactions state that electrostatic forces drive the binding of charged specie

120 orted by mutational and other data, in which electrostatic forces drive the DNA packaging by alternat

121 Steric and electrostatic forces each contributed to the interfacial

122 This is ascribed to electrostatic forces, enhancing the largely van der Waal

123 e regulator p27 demonstrated that long-range electrostatic forces exerted on enriched charges of IDPs

124 In the absence of electrostatic forces, fewer than 1% of substrate molecul

125 actuator employs dielectric-liquid-amplified electrostatic forces for contraction, and electrorheolog

126 dent of salt, implicating the involvement of electrostatic forces for the former.

127 chromatin is important for understanding the electrostatic forces governing chromatin structure and f

128 -range cation-pai attractions and long-range electrostatic forces governs the heterotypic RLC behavio

129 We hypothesize that electrostatic forces help govern the AuNP/prion interact

130 ctions with charged solutes are dominated by electrostatic forces, here we show that significant char

131 entation, interact with biomolecules through electrostatic forces, hydrogen bonding, and hydrophobic

132 nol reveal the importance of hydrophobic and electrostatic forces in determining chromophore-chromoph

133 ring the simulations hints at involvement of electrostatic forces in long-range interaction and bindi

134 k validates the important role of long-range electrostatic forces in nucleic acid-biomacromolecule co

135 Finally, we consider the role of electrostatic forces in pollen transfer and pollinator a

136 Electrostatic forces in solutions are highly relevant to

137 ding and folding mechanisms and the roles of electrostatic forces in the formation of three IDP compl

138 he reactivation process, the contribution of electrostatic forces in the interaction of DnaA and lipi

139 s simulations were used to study the role of electrostatic forces in the interactions of cytochrome f

140 concentration, reflecting the importance of electrostatic forces in the protein-protein interaction.

141 interaction surfaces, suggesting a role for electrostatic forces in the recognition of DNA deformabi

142 ers from the electrode edge, enabled by weak electrostatic forces in two-dimensional materials.

143 talysis in chemistry and biology is based on electrostatic forces, in the present case of catalysis i

144 nal thylakoid protein domains and changes in electrostatic forces induce modifications in thylakoid o

145 The electrostatic forces induced through a bias voltage (or

146 e C-terminal six-amino acid sequence and its electrostatic force influence the rate of receptor desen

147 netration, chemical bonding enhancement, and electrostatic force involvement.

148 nge is often depicted as a process driven by electrostatic forces, ionic solvation or hydrophobic for

149 measure a nonlinear polarization through its electrostatic force is a powerful means to revisit nonli

150 Electrostatic force is an essential component of the tot

151 While the presence of an electrostatic force is expected, we can infer that this

152 capability for spatial symmetry breaking via electrostatic forces is expected to generate a wealth of

153 thermal motion, short-range repulsions, and electrostatic forces is responsible for a soft structure

154 ertain areas of a substrate under control of electrostatic forces is suggested here as a method for f

155 dielectric particles under the influence of electrostatic forces lies at the origin of the theory of

156 e areas and a combination of hydrophobic and electrostatic forces may be responsible for the selectiv

157 this predicts that pathogen modification of electrostatic forces may contribute directly to virulenc

158 rization forces which were measured using an electrostatic force microscope adapted to work in a liqu

159 eloped the Dual-Resonance-frequency-Enhanced Electrostatic force Microscopy (DREEM) imaging technique

160 We introduce time-resolved electrostatic force microscopy (EFM) as a means to measu

161 We report a simple technique for mapping Electrostatic Force Microscopy (EFM) bias sweep data int

162 Experimental data from electrostatic force microscopy (EFM) image analysis, zet

163 Here, we combine AFM with an electrostatic force microscopy (EFM) method to develop a

164 bstrates, the products were characterized by electrostatic force microscopy (EFM), MALDI-TOF, X-ray p

165 te this approach as Scanning Probe Potential Electrostatic Force Microscopy (SPP-EFM).

166 Here, we show that electrostatic force microscopy can be used to directly v

167 olution transmission electron microscopy and electrostatic force microscopy confirm that nanoribbons

168 Electrostatic force microscopy recently confirmed charge

169 lectron microscopy, and a recently developed electrostatic force microscopy technique, DREEM (dual-re

170 s study utilizes atomic force microscopy and electrostatic force microscopy to investigate the orient

171 We use electrostatic force microscopy to spatially resolve rand

172 ue, DREEM (dual-resonance frequency-enhanced electrostatic force microscopy).

173 Here, by using electrostatic force microscopy, this effect is observed

174 Using electrostatic force microscopy, we observe ferroelectric

175 n that achievable with conventional scanning electrostatic force microscopy.

176 ide single T7 bacteriophages particles using electrostatic force microscopy.

177 tep-by-step chemical reduction process using electrostatic force microscopy.

178 Electrostatic forces not only enhance long range protein

179 The electrostatic forces of the ion cloud surrounding betaLg

180 By analyzing the effect of electrostatic forces on ACh diffusion, we find that elec

181 The effect of electrostatic forces on EPO binding was studied by measu

182 DelPhiForce web server enables modeling of electrostatic forces on individual atoms, residues, doma

183 The considerable impact of small electrostatic forces on nucleation suggests that these s

184 nnel polypeptide and (ii) constraints due to electrostatic forces on the flexibility needed for coope

185 uch ionic forced-oscillations exert additive electrostatic forces on the sensors of cell membrane ele

186 t affect ErgTx potency, and through-solution electrostatic forces only play a minor role in influenci

187 Stability was compromised by repulsive electrostatic forces originating from clustering of poin

188 l electrostatic charges, suggesting that non-electrostatic forces participate in the arrangement of n

189 t with the view that D2, through nonspecific electrostatic forces, places the two molecules in favora

190 Electrostatic forces play a key role in mediating intera

191 Electrostatic forces play a major role in maintaining bo

192 valency and ionic strength, suggesting that electrostatic forces play a primary role in H4 tail inte

193 ees = -15.9 cal mol-1 deg-1, suggesting that electrostatic forces play a prominent role in the intera

194 Electrostatic forces play an essential role in optimizin

195 static forces on ACh diffusion, we find that electrostatic forces play an even more important role fo

196 uffer pH and ionic strength, indicating that electrostatic forces play an important role in stress ge

197 Modeling of the electrostatic forces predicted that the enhancing effect

198 ities along with the softening effect of the electrostatic force present the necessary conditions for

199 ast multipole method (FMM) for computing the electrostatic forces, recently implemented by Kohnke et

200 Reversible electrostatic forces reduce parasitic power consumption

201 The lack of electrostatic forces reduced the adsorption of positivel

202 Even at 150 mM however, the inclusion of electrostatic forces results in an increase in transfer

203 We propose that electrostatic forces serve to position the stator, where

204 o balance potential attractive and repulsive electrostatic forces so that the desired topology was fa

205 since ion binding is dominated by long-range electrostatic forces, such models provide only a phenome

206 e alpha-helix to much stronger environmental electrostatic forces than the other.

207 due contributes to catalysis by providing an electrostatic force that acts on the Asp145 nucleophile.

208 e driven by a combination of LH2's shape and electrostatic forces that are modulated by the presence

209 and interfacial mixing generate homogeneous electrostatic forces that can drive charge separation an

210 he conformational changes, GP10 may generate electrostatic forces that govern the DNA transport.

211 Because the electrostatic forces that guide binding act over large d

212 s supramolecular structures held together by electrostatic forces that incorporate the CCP and the dy

213 s) increases axon diameter through repulsive electrostatic forces that increase sidearm extension and

214 is not only limited by diffusion, but faces electrostatic forces that oppose binding.

215 ase of fibrinopeptides A and B, is driven by electrostatic forces that presumably favor the correct p

216 Electrostatic forces that steer the antigen to the antib

217 between partners results from complementary electrostatic forces that ultimately orient the metal-bi

218 ces are the dominant and the hydrophobic and electrostatic forces the weak partners in imparting stab

219 ponential modulation of the reaction rate by electrostatic forces, this reaction represents an exquis

220 Here, we report the study of electrostatic forces through experiments using a well-co

221 A complex to directly suggest the ability of electrostatic forces to facilitate folding upon encounte

222 owerful "shielding" opposition of long-range electrostatic forces to form highly charged molecular sp

223 tributions of the Lifshitz-van der Waals and electrostatic forces to the overall nonspecific interact

224 was simulated in the presence and absence of electrostatic forces using a modeled structure for a MDH

225 f vdW forces becomes significant by the time electrostatic forces vanish.

226 Thus, via optimization of such dynamic electrostatic forces, viral peptides have evolved a supe

227 The electrostatic forces were shown to be important for the

228 These are assembled through steric and electrostatic forces, where the anions reside in equidis

229 e encounter complex are usually dominated by electrostatic forces, whereas the active complex is also

230 structure because they neutralize the large electrostatic forces which oppose the folding process.

231 The primary bottleneck is the calculation of electrostatic forces, which are effective over long dist

232 Local electrostatic forces, which are generated by the unique

233 the detailed balance between interfacial and electrostatic forces, which can be tuned, for instance,

234 he response of the cluster population to the electrostatic forces, which govern numerous biophysical

235 uciferase reporter gene that is condensed by electrostatic forces with polylysine (PL) covalently lin

236 However, the complex interaction of these electrostatic forces with RNA features such as tertiary

237 eracts with the alpha-syn C terminus through electrostatic forces, with >1000 times more selective fo