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1 h similar and dissimilar to HBD3 in terms of electrostatic potential.
2 antitating differences in HLA B-cell epitope electrostatic potential.
3 ce that enabled us to obtain the interfacial electrostatic potential.
4 and membrane fusion are governed by bilayer electrostatic potential.
5 eorientation, which induces a local positive electrostatic potential.
6 d a distal heme pocket with a relatively low electrostatic potential.
7 e site base and a nearby patch with positive electrostatic potential.
8 B) equations and interactively visualize the electrostatic potential.
9 ue-residue interaction schemes with a shared electrostatic potential.
10 istal heme pocket of Ctb exhibits a positive electrostatic potential.
11 th the metal charge-dependent changes in the electrostatic potential.
12 e end of -Ni-O rows and modifies their local electrostatic potential.
13 trolled reactions is often influenced by the electrostatic potential.
14 he phosphate groups respond to the protein's electrostatic potential.
15 is overall more reliable than the molecular electrostatic potential.
16 sed on the geometric description and surface electrostatic potentials.
17 lent sulfur atoms have two areas of positive electrostatic potential, a consequence of the low-lying
18 ydrophobic acyl pocket, a localized negative electrostatic potential, a large open leaving group-acco
19 interactions based solely on the sign of the electrostatic potential above the face of an aromatic ri
22 oupled to the movement of charge against the electrostatic potential across the mitochondrial inner m
28 As seen through its charge distribution and electrostatic potential analyses, the negative charge on
32 tion of large systems without truncating the electrostatic potential and achieves the high resolution
33 rigid coaxial conformation that has stronger electrostatic potential and association with counterions
34 -level details that dictate a nanoparticle's electrostatic potential and demonstrates the sensitivity
35 is cluster significantly changes the surface electrostatic potential and diminishes dsRNA binding act
36 an electrostatic meter that will allow local electrostatic potential and energetics to be measured wi
38 boundary, an ion experiences fluctuations in electrostatic potential and in electric field whose magn
41 er ("stretched") in regions of high negative electrostatic potential and shorter ("scrunched") in reg
44 with structurally driven changes in both the electrostatic potential and the local electronic structu
45 PLC activity was found to depend upon the electrostatic potential and the stored curvature elastic
46 he local/global geometry, alterations in the electrostatic potential and, as the result of both, modi
47 provided by theoretical calculations of the electrostatic potentials and electric fields at the site
48 ein, the spatially inhomogeneous interfacial electrostatic potentials and electric fields of GCC orga
50 structure of the surface and the interfacial electrostatic potentials and fields that govern PCET the
52 teractions were computationally studied with electrostatic potentials and molecular orbital analysis.
55 frontier) orbital interactions and molecular electrostatic potentials (and/or partial charges) for th
56 examined by a combination of computational (electrostatic potential) and empirical (sigmam and sigma
57 ane (bending rigidity and surface and dipole electrostatic potentials) and the susceptibility of red
58 properties (hydrophobicity, charge density, electrostatic potential, and so on) at specific location
59 ive of the type of metal center, the surface electrostatic potential, and the nature of the protein-S
60 n additional conserved patch with a positive electrostatic potential, and we demonstrate that the com
61 hibits an evolutionarily conserved, positive electrostatic potential, and we demonstrate that the NTD
62 f protonic current is turned on or off by an electrostatic potential applied to a gate electrode.
66 active site as well as increase the positive electrostatic potential around and within the active sit
67 can be promoted by reducing the net negative electrostatic potential around phosphates on one face of
68 D conformation and subsequent changes in the electrostatic potential around the active site during qu
69 sidue, optimized spatial distribution of the electrostatic potential around the SMS with respect to s
70 y inhomogeneous electrical current paths and electrostatic potential associated with the structural d
73 retical and experimental reactivity indexes: electrostatic potential at nuclei (EPN), Hirshfeld and N
75 thods, showing that the mutation changes the electrostatic potential at the active site and reduces t
76 robe of the heterogeneity of the interfacial electrostatic potential at the alpha-Al(2)O(3)(0001)/H(2
78 H3, -(CH2)2CH3, or -(CH2)3CH3] in gating the electrostatic potential at the interface between the 6-m
80 evious surface maps imply uniformly negative electrostatic potential at the major groove of G.U wobbl
81 ts RSV MA-membrane association by making the electrostatic potential at the membrane surface more neg
82 contributions and extract estimates for the electrostatic potential at the position of protonation.
85 propose a model whereby the highly positive electrostatic potential at the tip of the SSCAP complex
87 riginating from octahedral sites produce low electrostatic potential barriers within the interlayer,
88 identify regions of evolutionarily conserved electrostatic potential based on 24 homologues of comple
89 dingly, reduced ionic strength increased the electrostatic potential between the epithelium and the p
90 rations of surface charge distribution (i.e. electrostatic potential), binding pocket size, and the l
92 ates was rationalized by the analysis of the electrostatic potentials calculated at the TPSSh/6-311G(
93 mbined with proteolysis analyses and surface electrostatic potential calculation around residue N448
97 ulfate ions interacting with the surface and electrostatic potential calculations strongly suggest a
98 ge that even molecules with wildly different electrostatic potentials can exhibit similar attractions
100 together with an analysis of protein-ligand electrostatic potential complementarity allowed us to si
101 x and the wing residues show strong positive electrostatic potential, consistent with their roles in
102 he solvent-accessible surface as well as iso-electrostatic potential contours using a novel online vi
103 istance of at least 12 A, consistent with an electrostatic potential-dependent shifting of the amide
105 trogen receptor is discussed in terms of the electrostatic potential derived from the electron densit
106 llowing attributes: van der Waals potential, electrostatic potential, desolvation and surface conserv
110 DNA may be due to the very unique charge and electrostatic potential distribution of these TBPs, whic
112 modeling indicates the molecular shapes and electrostatic potential distributions of these agonists
113 emonstrate that the nanowire heterostructure electrostatic potential diverges more rapidly as a funct
115 s, we directly quantify the magnitude of the electrostatic potential drop at the Pt/solution interfac
117 d, in some cases, qualitative changes in the electrostatic potential during the catalytic reaction.
118 lication of external stimulus in the form of electrostatic potential/electric field, is investigated
120 ly identical inner-spaces that differ in the electrostatic potential (EP) field that envelops them: o
123 Molecular dynamics (MD) simulations and electrostatic potential (ESP) charge calculations were c
125 ing, and molecular properties, including the electrostatic potential (ESP), are reported and discusse
126 orming docking simulation, following surface-electrostatic potential estimation in the predicted area
129 rms of similarity or generating ensembles of electrostatic potential files for a library of mutants t
130 sson-Boltzmann Solver to generate grid-based electrostatic potential files for protein structures pro
131 w include 13 shape features and minor groove electrostatic potential for standard DNA and four shape
132 and monolayer techniques and calculated the electrostatic potentials for the PX domain in the absenc
133 lycrystalline disorder and the variations in electrostatic potential found for smaller crystals suppr
134 relation, because of a spillover of negative electrostatic potential from the basal surface onto the
135 he dimer interface that create an attractive electrostatic potential funneling the zinc cations towar
136 iG(cw) interaction is driven by the positive electrostatic potential generated by FrdA and the negati
137 nitrogen atom is due to the highly negative electrostatic potential generated by the oxygen atoms in
138 hi Gaussian dielectric function to calculate electrostatic potentials generated by charges of biomole
139 d that Arg-9 peptides, in the presence of an electrostatic potential gradient, induce ionic currents
141 Complementarity, in terms of both shape and electrostatic potential, has been quantitatively estimat
142 logical bond orders, atomic charges, and the electrostatic potential have been characterized and used
143 molecules are oriented preferentially by the electrostatic potential imposed by the phospholipids and
147 tuations at the metal center in changing the electrostatic potential in the active site, thereby infl
149 (2+) in one catalytic site makes the surface electrostatic potential in the distal catalytic site mor
150 the presence of an unusually strong positive electrostatic potential in the lumen of AAC that appears
152 e most important actor in the control of the electrostatic potential in the QB site of the dark-state
154 ar modifications that increased the positive electrostatic potential in the region between the fenchy
156 idines has a marked effect on the calculated electrostatic potential in the vicinity of P2, raising t
157 t work also identified other factors such as electrostatic potential in the vicinity of the active si
158 atalytic activity by increasing the positive electrostatic potential in the vicinity of the conserved
159 quantitatively comparing sets of grid-based electrostatic potentials in terms of similarity or gener
160 e findings clearly confirm the importance of electrostatic potentials in the interaction of thaumatin
163 icate structure and the resultant changes in electrostatic potential influence the sorption of organi
165 inspection of the structure showed negative electrostatic potential inside hole "a" was diminished b
167 lthough both substrates introduce a positive electrostatic potential into the distal heme pocket.
168 lds, paying attention to the behavior of the electrostatic potential, ion density, ion currents, and
169 to detect local variations in DNA shape and electrostatic potential is a general mechanism that enab
172 ferent conformations can indeed modulate the electrostatic potential isosurfaces of the whole p53-DNA
173 g PA alongside partial charges and molecular electrostatic potentials, it is shown that an increase o
174 ons due to the partial decoration causes the electrostatic potential lower in the decorated graphene
177 structure can be represented in a molecular electrostatic potential map to guide the design of inhib
180 Large and systematic differences within electrostatic potential maps and pairwise residue-to-res
188 the egress path suggest that protein surface electrostatic potential may play a role in the release m
190 substituents, measured in terms of molecular electrostatic potential minimum, observed at the carbene
192 ons show a large region of strongly positive electrostatic potential near the N-terminal that can ori
193 e chain or substrate cation and the negative electrostatic potential of a pi system on the face of an
194 n of building blocks capable to modulate the electrostatic potential of a protein in specific locatio
195 on function, which is in turn related to the electrostatic potential of a two-dimensional material at
197 in the tunneling conductance and mapped the electrostatic potential of graphene by measuring spatial
198 pproach to quantitate differences in surface electrostatic potential of HLA B-cell epitopes and appli
199 shown that qualitative assessment of surface electrostatic potential of HLA class I molecules helps e
206 on solvent-polymer interactions, and not the electrostatic potential of the backbone interacting with
207 uch anion selectivity arises from a positive electrostatic potential of the central lumen rendered by
209 mbrane helices 8 and 9, which influences the electrostatic potential of the crucial Na(+)-coordinatin
210 uggested that the R753Q mutation changes the electrostatic potential of the DD loop and results in a
213 rsubunit interface in the CTD also alter the electrostatic potential of the inner cytoplasmic cavity.
214 epends on the peptide-induced changes in the electrostatic potential of the lipid bilayer surface and
216 ing indicated that this mutation changes the electrostatic potential of the mutated region of DP, pos
220 y contacts by favorably interacting with the electrostatic potential of the RNA, giving rise to an "i
222 ir influence via the electrolyte gate on the electrostatic potential of the solution, as described by
224 rsus NPP3 could be explained in terms of the electrostatic potential of the two proteins that of NPP1
225 are similar in the size, shape, and surface electrostatic potential of their pMHCI-binding regions,
229 he first time, a detailed description of the electrostatic potentials of the actinyl tetrahalide dian
230 ons of the interaction energies based on the electrostatic potentials of the carbonyl and arene surfa
232 ts of a monotonic dependence of the built-in electrostatic potential on depth and continuity of the p
233 nation of Phe401, which reduces the negative electrostatic potential on the aromatic face, caused a m
234 ng from Pt, it is demonstrated that negative electrostatic potential on the aromatic ring is the prer
235 othetical model of LJM11 suggests a positive electrostatic potential on the face containing entry to
236 signed to systematically reduce the negative electrostatic potential on the face of the aromatic ring
238 a negatively charged group with the positive electrostatic potential on the ring edge of an aromatic
239 ers can interactively inspect the calculated electrostatic potential on the solvent-accessible surfac
241 xperiments that demonstrate the influence of electrostatic potential on the thrombin/aptamer complex,
244 enerates a surface with intensified positive electrostatic potentials (PEP) for RNA binding and dimer
245 e bottom of the SAM, we map the shape of the electrostatic potential profile across the molecules and
246 ng other things, we use the model to map the electrostatic potential profile in EGaIn-based SAM junct
249 equence information and represent charge and electrostatic potential properties on the protein surfac
250 Remarkably, quantitative differences in electrostatic potential reflected known patterns of sero
251 ich corresponds to a >210 mV increase in the electrostatic potential relative to the wild-type RC.
252 a polarity mismatch causes local, diverging electrostatic potentials requiring charge compensation a
253 latively modest alterations in the molecular electrostatic potentials results in disfavored Coulombic
255 , covering over 200 ns and including biasing electrostatic potentials, show that MscS restrained to t
258 aterials like bond dissociation enthalpy and electrostatic potential sometimes give results that devi
259 nterfacial valence mismatch to influence the electrostatic potential step across the interface, which
260 to each histone chain so as to reproduce the electrostatic potential, structure, and dynamics of the
261 dictors of reaction kinetics than calculated electrostatic potentials, suggesting utility in other co
262 , along with calculations of protein surface electrostatic potential, suggests the possible involveme
263 an exclusive ftf stacking was not observed, electrostatic potential surface (EPS) calculations with
265 recedented mechanism uses Arg69 to probe the electrostatic potential surface of O(6)-alkylguanine, as
266 mutagenesis experiments show that a negative electrostatic potential surface patch (EPSP) on ASC_PYD,
269 a values, NICS aromaticity calculations, and electrostatic potential surfaces revealed a unique isoel
270 ave been applied to quantitatively model the electrostatic potential surrounding nucleic acids and th
273 tions by use of an effective or restructured electrostatic potential that accounts for effects of the
274 ture develops small pockets of very negative electrostatic potential that are more accessible to the
275 bstantial systematic errors in the predicted electrostatic potential that can arise when dielectric s
276 previously unobserved nanoscale steps of the electrostatic potential that naturally occur at ferroele
278 nts that could not be described by the basic electrostatic potential theory or by assuming that sorba
279 are very different in structure, shape, and electrostatic potential, they were able to fit in the sa
280 t on its ionization state and, therefore, on electrostatic potential through changes in nitroxide mag
281 onic ground state and by perturbation of the electrostatic potential through point mutations, loop en
282 troms3) is complementary in size, shape, and electrostatic potential to chloroform (74.9 angstroms3).
283 omplemented with theoretical analysis of the electrostatic potential to establish how and why protons
284 s and mutations, on spatial distributions of electrostatic potential to identify perturbation resista
285 distinct widening have similar major groove electrostatic potentials to their canonical counterparts
286 trend appears rooted in the conformation and electrostatic potential topology of each molecule, but d
287 ject to both a magnetic field and a periodic electrostatic potential, two-dimensional systems of elec
289 of sigma-holes, i.e., maxima in the surface electrostatic potential (VS,max), due to the overlap of
290 rting from a careful analysis of the surface electrostatic potentials, we have designed new mutants o
291 nanostructures exhibit an optically induced electrostatic potential when illuminated with monochroma
292 endophilin can select for both curvature and electrostatic potential when interacting with membranes,
293 tivity can be explained in terms of computed electrostatic potentials which are substantially differe
294 s protons across the membrane to maintain an electrostatic potential, which is in turn used to drive
295 nstrate variable spatial distribution of the electrostatic potentials, which suggests dynamic binding