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1 ively charged surface of cNTnC (opposite its hydrophobic surface).
2 electrolyte decomposition than carbon with a hydrophobic surface.
3 mobility and calcium-dependent exposure of a hydrophobic surface.
4 ydrophilic surface and slip on a nonwetting, hydrophobic surface.
5 ticles, we here demonstrate a self-assembled hydrophobic surface.
6 VE-cadherin does not form a large nonswapped hydrophobic surface.
7 e or adsorption of ion-paired species to the hydrophobic surface.
8 rily extended molecular conformations on the hydrophobic surface.
9 dynamics of interfacial water assembly on a hydrophobic surface.
10 t involves both polar contacts and burial of hydrophobic surface.
11 the hydrophilic IOL (Lentis LS-502-1) with a hydrophobic surface.
12 act line during the assay and also acts as a hydrophobic surface.
13 upon folding, bury an above-average area of hydrophobic surface.
14 having a slightly higher affinity toward the hydrophobic surface.
15 local ordering and a greater exposure of the hydrophobic surface.
16 hydrophilic surface interacting with a very hydrophobic surface.
17 racteristic wrinkled morphology and a highly hydrophobic surface.
18 ction electrode with high transparency and a hydrophobic surface.
19 ng domain, covering an essentially invariant hydrophobic surface.
20 cy of polysaccharides and fatty acids to the hydrophobic surface.
21 th other nonpolar residues partitions to the hydrophobic surface.
22 rone activity, suggesting the involvement of hydrophobic surfaces.
23 release of structured water from the apposed hydrophobic surfaces.
24 s solution adsorbed at model hydrophilic and hydrophobic surfaces.
25 acteristics of bulk water and water close to hydrophobic surfaces.
26 s led to the formation of thin overlayers on hydrophobic surfaces.
27 ly associated with self-assembly of extended hydrophobic surfaces.
28 ed biofilm formation on both hydrophilic and hydrophobic surfaces.
29 bserved only on hydrophilic surfaces and not hydrophobic surfaces.
30 ion by increasing their propensity to expose hydrophobic surfaces.
31 ent that disrupts the groove and shields its hydrophobic surfaces.
32 e dependences involving interfacial water on hydrophobic surfaces.
33 ding and the level of attachment of cells to hydrophobic surfaces.
34 ith both proteins becoming more denatured on hydrophobic surfaces.
35 e long-range attraction between water-coated hydrophobic surfaces.
36 TL has been shown to scavenge lipids from hydrophobic surfaces.
37 s to the bulk liquid and its interfaces with hydrophobic surfaces.
38 proteins and self-aggregation due to exposed hydrophobic surfaces.
39 meleon-type response to organic molecules at hydrophobic surfaces.
40 into relatively compact structures, exposing hydrophobic surfaces.
41 ould find widespread applicability as robust hydrophobic surfaces.
42 helical conformation that docks onto a GAL1 hydrophobic surface adjacent to its carbohydrate binding
44 tionic surfactant, and (ii) between one such hydrophobic surface and a hydrophilic surface of bare mi
45 r, HDP-mimetic polymers rarely duplicate the hydrophobic surface and cationic charge density found am
46 catalytic domain of SPase I folds to form a hydrophobic surface and inserts into the lipid bilayers
47 understanding effects of lengthscale of the hydrophobic surface and of attractive interactions on fo
49 formational change involving the exposure of hydrophobic surfaces and a change in tertiary but not ne
50 ng its refolding and leaving it with exposed hydrophobic surfaces and beta-sheet edges; and 3) these
52 egion and the microlayer, on hydrophilic and hydrophobic surfaces and in both degassed and regular (w
53 ed by the cohesion-tension theory by coating hydrophobic surfaces and nanobubbles, thereby keeping th
54 n interaction site on CheA for other similar hydrophobic surfaces and plays an important role in stru
55 ing reduced water density region between two hydrophobic surfaces and the attractive "depletion force
56 actions of biomolecules with hydrophilic and hydrophobic surfaces and to carry out exploratory experi
58 by proximate stable beta-sheets with exposed hydrophobic surfaces and unsaturated hydrogen bonds.
60 to other surfaces, the diffusivity along the hydrophobic surface, and the overall orientation of the
61 unters more unfavorable interaction with the hydrophobic surface, and this leads to spontaneous bond
62 wer folding kinetics, displayed an increased hydrophobic surface, and was prone to aggregation in sol
63 ayers at hydrophilic surfaces, monolayers at hydrophobic surfaces, and binary monolayer/bilayer patte
64 etion at hydrophobic surfaces, water slip at hydrophobic surfaces, and the hydrophobic interaction.
65 bonding directions tangential to the exposed hydrophobic surfaces, and this effect increases with inc
66 ic energy from the motions of water drops on hydrophobic surfaces, and thus, the resulting schemes in
67 ity formation is enhanced in the vicinity of hydrophobic surfaces, and water-water correlations corre
68 are millions of conduits with at least some hydrophobic surfaces, and xylem sap is saturated or some
72 nger sequences and low pH is correlated with hydrophobic surface area and consequent increased membra
73 indicating that procapsid expansion exposes hydrophobic surface area and that this serves to nucleat
74 based on the premise that increasing buried hydrophobic surface area and/or reducing buried hydrophi
76 is consistent with the burial of significant hydrophobic surface area in Hsp33 when it interacts with
81 ce of 0.2-10 mM Mg(2+)) and that significant hydrophobic surface area is exposed in the expanded shel
84 , probe mobility is reduced by expanding the hydrophobic surface area of the coiled-coil domains thro
85 meric peptides likely reflects the increased hydrophobic surface area on or near the BIR3 site and ha
86 L166P DJ-1 showed a significant increase in hydrophobic surface area relative to wild-type protein,
87 r eIF5 in its N-terminal tail and at a basic/hydrophobic surface area termed KH, distinct from the ri
88 o be better explained by increases in buried hydrophobic surface area that accompany fluorination tha
92 and two resulting from the change in exposed hydrophobic surface area-that determine how a modificati
95 aw" packing, not by sequestration of maximum hydrophobic surface area; (iii) a well-defined "rule" fo
96 perties of Nile red indicate the exposure of hydrophobic surface areas of OCP to the solvent followin
97 se via favorable partitioning of hydrophilic/hydrophobic surface areas, resulting in high catalytic a
98 ids, and humic and fulvic acids with a model hydrophobic surface as a function of increasing doses of
99 cytotoxic effects, implicating the adjacent hydrophobic surface as a functional hot spot for eEF1A m
100 ficiently large (more than 1 nm(2)) strongly hydrophobic surfaces as they approach each other, result
101 show that angiosperm xylem contains abundant hydrophobic surfaces as well as insoluble lipid surfacta
102 s in the P23T mutant that give rise to novel hydrophobic surfaces, as well as those regions of the pr
103 ced the sorption tendency of proteins to the hydrophobic surface at low doses but reduced their sorpt
104 dipolar distance measurements confirm that a hydrophobic surface at the periphery of P5 subdomain 2 a
106 evidence suggests that proteins adsorbed to hydrophobic surfaces at low coverages are stabilized rel
107 d water structure so that the imprint of the hydrophobic surface atoms on the surrounding waters is s
108 g of the micelle dimensions to the protein's hydrophobic surface avoids exchange processes that reduc
109 ollectively, these findings demonstrate that hydrophobic surfaces between beta-sheet layers are impor
110 A single-layer beta-sheet achieves efficient hydrophobic surface burial without forming a hydrophobic
113 of a helical hairpin structure that forms a hydrophobic surface characterized by two highly conserve
114 he range 15-165 nm with both hydrophilic and hydrophobic surface chemistries have been used as model
115 ons cause a change in the accessibility of a hydrophobic surface cleft remote from the nucleotide bin
116 from each other, but each is connected to a hydrophobic surface cleft, which may participate in lipi
120 stacking manner, as well as more weakly with hydrophobic surfaces composed of aliphatic side chains,
121 a show that CbpA dimerization is driven by a hydrophobic surface comprising amino acid side chains W2
123 ed effect even becomes non-measurable if the hydrophobic surface consists of nanocones, which generat
124 tabilizing interactions, beyond the observed hydrophobic surface contacts, between 4 and RT is quite
126 dimerizes in solution at 30 degrees C via a hydrophobic surface defined by the C-terminal alpha(2)be
128 hat the water density near weakly attractive hydrophobic surfaces (e.g., -CF(3)) can be bulk-like or
129 he TDP-43 oligomers are stable, have exposed hydrophobic surfaces, exhibit reduced DNA binding capabi
130 oss isolated cuticles and attracted water to hydrophobic surfaces exposed to high relative humidity d
131 produced no impact on corals, and effects of hydrophobic surface extracts from macroalgae paralleled
133 cated at the water-lipid interface, with its hydrophobic surface facing the lipid environment, and th
134 hat mutation of Glu-147 to leucine creates a hydrophobic surface favorably buried upon GoLoco peptide
135 Finally, RhlG lacks a positively charged/hydrophobic surface feature adjacent to the active site
136 f the interfacial energy with the underlying hydrophobic surface followed by dewetting via a nucleati
137 dopting an alternative structure to expose a hydrophobic surface for protein-protein interactions in
138 FliT adopts a four-helix bundle and uses a hydrophobic surface formed by the first three helices to
139 hemical properties remarkably similar to the hydrophobic surface found in fungal hydrophobins; thus,
140 tes of the slip length of water flowing past hydrophobic surfaces from microns to approximately 20 nm
141 phobic, perfluorinated acrylic copolymer and hydrophobic surface functional silicon dioxide nanoparti
142 he propensity of these ions to accumulate at hydrophobic surfaces has been a subject of intense debat
144 tion of water induced by confinement between hydrophobic surfaces has received much attention due to
145 ucture and binds ubiquitin through a largely hydrophobic surface in a manner reminiscent of the Dsk2
146 molecules interact symmetrically via a large hydrophobic surface in crystallo, A49 does not dimerize
147 obic fragment in hKOPR C-tail and the curved hydrophobic surface in GEC1 around the S2 beta-strand.
148 ce conservation analysis reveals a conserved hydrophobic surface in the same region, which may mediat
149 g by binding nonnative forms through exposed hydrophobic surfaces in an open ring and mediating produ
152 al experimental observations and explain why hydrophobic surfaces in contact with water acquire a net
154 ts by the trapping of a substrate protein on hydrophobic surfaces in the central cavity of a GroEL ri
155 of the attraction between variously prepared hydrophobic surfaces in water grew from the initially re
156 simulations of water between two nanoscopic hydrophobic surfaces, in conjunction with advanced sampl
158 the size, curvature or charge of the exposed hydrophobic surface influences water's propensity to for
160 mblies of Janus catalytic motors, induced by hydrophobic surface interactions involving multiple moto
161 level of evidence on the transformation of a hydrophobic surface into a hydrophilic one via noncovale
163 ifted by approximately 0.5 eV in the case of hydrophobic surfaces, irrespective of the termination.
164 predicted to form an amphipathic helix whose hydrophobic surface is conserved between CAF1 and CAF2.
166 ving force for assembly in the vicinity of a hydrophobic surface is weaker than that in bulk water an
169 of the beta-barrel has a distinctly narrowed hydrophobic surface, locally destabilizing the outer mem
170 on in detail in terms of the binding energy, hydrophobic surface-matching, and the residues involved
172 residues critical for forming a consolidated hydrophobic surface, membrane insertion, and viral entry
173 s interaction with uranyl in the presence of hydrophobic surface mimicked by a carbon nanotube (CNT),
174 ion method; it then went through a series of hydrophobic surface modifications for olanzapine (OLZ) l
175 er density fluctuations adjacent to extended hydrophobic surfaces--namely, the enhanced likelihood of
176 adhesion of the T4P to both hydrophilic and hydrophobic surfaces occurs along extended lengths of th
177 water corresponding to those of the putative hydrophobic surface of a melittin dimer, but is flattene
178 the receptor by wedging into crevices on the hydrophobic surface of A2AR, increasing packing interact
179 main binds to autophagosome membrane via the hydrophobic surface of an intrinsic amphipathic alpha he
180 the Cel7A CBM to bind preferentially to the hydrophobic surface of cellulose relative to hydrophilic
181 th nanogold-conjugated CBM3, which binds the hydrophobic surface of crystalline cellulose, was infreq
182 tamoxifen, the resulting increase in exposed hydrophobic surface of ERalpha LBD correlates with a sig
183 onwetting aqueous droplets interact with the hydrophobic surface of kaolinite via a mixture of adsorb
187 xpectedly, the site of binding of AD2 on the hydrophobic surface of TAZ2 overlaps with the binding si
189 ort (13)C-(13)C distances of 4-6 A between a hydrophobic surface of the cellulose microfibril and an
190 at low pH is discussed in terms of the large hydrophobic surface of the coordinated DPP ligand destab
191 pts a continuous alpha-helix that docks in a hydrophobic surface of the ECD that is distinct from the
192 hod in which proteins are immobilized on the hydrophobic surface of the elastomeric device for in-wel
193 g a novel desalting method that utilizes the hydrophobic surface of the elastomeric device; and (iii)
195 as affected by systematic replacement of the hydrophobic surface of the oligourea helix with either p
197 In addition, mutations introduced into a hydrophobic surface of the predicted Stn1 alpha-helix el
198 Instead, it interacts with the different hydrophobic surface of the protein molecule formed by th
201 the exposed dimeric interface binds exposed hydrophobic surfaces of acid-denatured proteins, prevent
202 The interaction site contains adjoining hydrophobic surfaces of helices 1 and 5 of OSCP-NT bindi
203 and its interaction site contains adjoining hydrophobic surfaces of helices 1 and 5; residues in the
204 n in the central cavity of an open ring, via hydrophobic surfaces of its apical domains, followed by
205 lipid bilayer, the symmetry and shape of the hydrophobic surfaces of membrane proteins play an import
209 formed with good minimization of the exposed hydrophobic surfaces of the cores, they are highly stabl
210 ic constriction region in 10 ns) by allowing hydrophobic surfaces of the N- and C-domains to fuse.
213 h Lys48-linked diubiquitin involves the same hydrophobic surface on each ubiquitin unit as that utili
216 ate DNA strand during recruitment, whereas a hydrophobic surface on the opposite side of RfaH(N) rema
218 er-layer shedding depend on interaction of a hydrophobic surface on VP5* with the membrane bilayer an
220 rfaces on the interior of the wells and with hydrophobic surfaces on the face of the SlipChip to enha
221 pids are either annular, masking the protein hydrophobic surface, or specific lipids, essential for p
222 rs to be primarily specified by occlusion of hydrophobic surfaces, particularly the interfacial resid
223 r functional analysis of AvrM reveals that a hydrophobic surface patch conserved between both variant
224 high affinity binding site for the ubiquitin hydrophobic surface patch that accounts for the bulk of
227 bind to the distal side of the enzyme at the hydrophobic surface patch thought to interact with the N
230 ed and interfacial water in the proximity of hydrophobic surfaces play a pivotal role in a variety of
231 accessibility, protease susceptibility, and hydrophobic surfaces present on P450 structures of solub
232 rHDL with a chemically patterned hydrophilic/hydrophobic surface produces a novel compositional patte
233 These polymer "liftoff" arrays combine the hydrophobic surface properties of di-p-xylylene (Parylen
234 ulated by homology modeling exhibit atypical hydrophobic surface properties, compared with the alread
235 ating such nanoconfined interfacial water on hydrophobic surfaces, provided that the nanotubes can be
236 DFTamP1 by NMR spectroscopy revealed a broad hydrophobic surface, providing a basis for its potency a
237 tions reveal a global pattern of charged and hydrophobic surface residues that bends the membrane in
239 interactions and forces between cosolute and hydrophobic surfaces responsible for different kinds of
240 membrane and provides a continuous track of hydrophobic surface, resulting in lipid-membrane fusion
241 ry evaporation of water confined between two hydrophobic surfaces separated by nanoscopic gaps, as a
243 Remarkably, the contribution of this small hydrophobic surface significantly increases the observed
245 oration scales linearly with the gap between hydrophobic surfaces, suggesting that line tension makes
246 ghly conserved residues and creating a large hydrophobic surface suitable for preventing water conden
247 ws a two-site binding mechanism in which the hydrophobic surfaces surrounding Phe-4 and Val-70 are im
249 city stems from an aversion of water for the hydrophobic surface texture, so that a water droplet in
250 d secondary structure upon adsorption onto a hydrophobic surface than onto a hydrophilic surface, wit
252 s C-terminal arm to an essentially invariant hydrophobic surface that extends over the entire top fac
253 similar to its active form, exposing a large hydrophobic surface that facilitates initial homodimer f
254 tions revealed a previously underappreciated hydrophobic surface that functions to position the dynam
256 rapidly creating a removable and affordable hydrophobic surface that is free from memory effect is p
257 Ca(2+)-bound CaBP7 NTD has a solvent-exposed hydrophobic surface that is more expansive than observed
258 ors an "open" conformation, exposing a large hydrophobic surface that is stabilized by target binding
259 e C-terminal domain presents a large exposed hydrophobic surface that likely initiates interactions w
260 as a central ordered domain with a conserved hydrophobic surface that may be a potential protein inte
261 st natural floating marine substrates, and a hydrophobic surface that promotes microbial colonization
263 2-1; Oculentis GmbH, Berlin, Germany) with a hydrophobic surface that were explanted from 5 patients
264 eta-hairpin secondary structure and extended hydrophobic surfaces that are exposed to the solvent.
265 nd Abeta42 contain different solvent-exposed hydrophobic surfaces that are located at the sequences f
266 e the collapsed alphabeta core by binding to hydrophobic surfaces that are usually buried between the
267 icone-based products was developed to create hydrophobic surfaces that enable analysis of otherwise w
269 ted by interactions with 10FNIII that expose hydrophobic surfaces that support 8-anilino-1-napthalene
270 re, we show that BH3 mimetics that bind to a hydrophobic surface (the BH3 groove) of Bcl-2 induce GSH
271 Although hydrophilic acrylic lenses have a hydrophobic surface, the development of calcification is
272 y establishing a large slip length via super hydrophobic surfaces, the amount of proteins adsorbed to
273 ration, while for NPs with partly or totally hydrophobic surfaces, the opposite highly possibly holds
274 ssembly and interactions of MPG1 and MHP1 at hydrophobic surfaces thereby provide the basis for a pos
275 The thermal behavior of proteins adsorbed to hydrophobic surfaces thus appears to follow behavior ind
276 itation at 37 degrees C in the presence of a hydrophobic surface to explore the details of aggregatio
278 zing new nucleoside analogues with elongated hydrophobic surfaces to successfully measure in-gene abu
280 either operation in an inert atmosphere or a hydrophobic surface treatment and annealing step is typi
281 vapor tube that spans the region between two hydrophobic surfaces--tubes with smaller radii collapse,
282 ne diimide molecules are reported on various hydrophobic surfaces under scanning laser irradiation.
283 havior due to change of water wettability on hydrophobic surface upon small temperature change or ult
285 cular kinetic analyses of water spreading on hydrophobic surfaces via molecular dynamics simulation.
286 nation, the highest sorption tendency to the hydrophobic surface was observed within the range of dos
287 xperiments and phenomena: water depletion at hydrophobic surfaces, water slip at hydrophobic surfaces
288 sts on an intermediate wetting surface and a hydrophobic surface, we found no difference in shear adh
289 ause droplet generation in channels requires hydrophobic surfaces, we have also investigated the adva
290 govern interactions of helical peptides with hydrophobic surfaces, were never established before due
291 rbed peptides is negligible or on the highly hydrophobic surface where the diffusion constant of the
292 e show that stretched fibers are formed on a hydrophobic surface, whereas plaque-like aggregates are
293 can diffuse from hydrophilic surfaces to the hydrophobic surface, whereas the reverse transition is n
294 o mediates strong cellular interactions with hydrophobic surfaces, which are likely to be involved in
295 ucture of a single alpha-helix, containing a hydrophobic surface with a conserved sequence pattern th
297 on tendency of humic and fulvic acids to the hydrophobic surface with maxima at moderate doses, while
298 ueous electrolytes nanoconfined by uncharged hydrophobic surfaces with no direct experimental validat
299 will alter this delicate structure, exposing hydrophobic surfaces, with consequent protein aggregatio
300 that the strong hydrogen bonding of water on hydrophobic surfaces would dominate with suppressed inte
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