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1 s (alpha7-nAChRs) access synaptic domains by lateral diffusion.
2 at percolation is not the factor controlling lateral diffusion.
3 ranes, most DAF molecules exhibited Brownian lateral diffusion.
4 d receptor from the lipid-water interface by lateral diffusion.
5 rmation on the details associated with lipid lateral diffusion.
6 t has a slightly higher activation energy of lateral diffusion.
7 nter-NAP-22 interactions markedly reduce its lateral diffusion.
8 hase DSPC domains that acted as obstacles to lateral diffusion.
9 s, in which the ligands were capable of free lateral diffusion.
10 their proteins are dynamically recruited by lateral diffusion.
11 by dehydration, showing a 6-fold decrease in lateral diffusion.
12 ntion of the resulting peptides with minimal lateral diffusion.
13 very after photobleaching is used to measure lateral diffusion.
14 e membrane-associated cytoskeleton modulates lateral diffusion.
15 s with a higher rate of Brownian tumbling or lateral diffusion.
16 d nanoclustering and concomitantly increased lateral diffusion.
17 ne to two orders of magnitude enhancement in lateral diffusion.
20 Deleting the ABCC4 PDZ motif accelerates lateral diffusion ~4-fold, halves protein half-life, and
21 (2) in membrane microdomains with restricted lateral diffusion, a hypothesis providing a mechanism fo
22 etachment may include release from the cell, lateral diffusion across the cell surface, or endocytosi
23 chemical and electrical synapses, potassium lateral diffusion alone can generate and synchronize zer
25 ustained activity can propagate by potassium lateral diffusion alone with a velocity of approximately
28 by two diffusion coefficients, D( )(lip)for lateral diffusion along the lipid lamellae and D( )(lip)
30 K(+) or Na(+), consequently leading to lower lateral diffusion and a higher compressibility modulus,
31 sociations that apparently restrict integrin lateral diffusion and accumulation into clusters, thus c
32 , an hCG antagonist, also exhibit restricted lateral diffusion and are confined in nanoscale membrane
33 s treated with 100 nm hCG exhibit restricted lateral diffusion and are confined in small, nanometer-s
34 Thus, activity-dependent regulation of KCC2 lateral diffusion and clustering allows for a rapid regu
35 size of single cells and acted to reduce the lateral diffusion and confine the movement of compounds
37 introduce a simple correction procedure for lateral diffusion and demonstrate how the effect of late
39 es KCC2 surface expression by increasing the lateral diffusion and endocytosis of the transporter.
41 f tranverse diffusion through the tissue and lateral diffusion and exchange with skin appendages is p
42 in architecture, a change that also retarded lateral diffusion and induced large clusters of HLA-I.
44 s issue of Neuron, Hoerndli et al. show that lateral diffusion and kinesin-mediated transport move AM
46 rption spectroscopies, we characterize lipid lateral diffusion and membrane phase structure as a func
47 dy, we examine the phase behavior as well as lateral diffusion and percolation in the region of coexi
50 membrane recruitment, 5-HT(1B) transport via lateral diffusion and temporal confinement to inhibitory
52 ed into the membrane function as barriers to lateral diffusion and were used to isolate the proteins
53 st interestingly, we show that the anomalous lateral diffusion and, consequently, the binding to gela
54 it is still a challenging task to quantify (lateral) diffusion and estimate local dynamics of protei
55 temporary confinement by dynamic barriers to lateral diffusion, and dispersion of the clusters by dif
56 nt probes of surface lipid fluidity, surface lateral diffusion, and interfacial polarity, and by thei
57 en apparently by mass action and short-range lateral diffusion, and locally delivered AMPARs remained
58 into account lateral diffusion, barriers to lateral diffusion, and vesicle traffic to and from the p
60 of the lipid headgroup, ranging from a fast lateral diffusion at some membranes to the escape of pro
62 Dab2 interacts with TbetaRI to restrict its lateral diffusion at the plasma membrane and enhance its
64 channel subtypes at CNS nodes and provide a lateral diffusion barrier that, even in the absence of t
68 tegrates three ubiquitous receptor processes-lateral diffusion, basal ligand-independent activation,
69 their externalization, internalization, and lateral diffusion between the synaptic and extrasynaptic
70 t actin disruption not only increases LYVE-1 lateral diffusion but also enhances hyaluronan-binding a
71 Most GPCRs were delivered to dendrites via lateral diffusion, but one GPCR, the serotonin 1B recept
73 These simulations suggest that potassium lateral diffusion can play an important role in the sync
74 However, it is not yet known whether the lateral diffusion can, by itself, induce seizure activit
76 demonstrated that PAH[4]s can form, through lateral diffusion, clusters in lipid membranes that prov
77 erent temporal shear gradients) on the lipid lateral diffusion coefficient (D) in the apical membrane
79 rease by 10% upon drying/rehydration and the lateral diffusion coefficient decreased from 2.2 to 1.6
80 after photobleaching was used to measure the lateral diffusion coefficient in single supported bilaye
81 l expression is presented that describes the lateral diffusion coefficient in terms of the solute's m
82 n the kinetics of migration, the F-alphaAQP1 lateral diffusion coefficient in the membrane projection
83 cell membrane is 66 +/- 10% and the average lateral diffusion coefficient is (3.1 +/- 0.5) x 10(-11)
85 stituted t-SNARE was laterally mobile with a lateral diffusion coefficient of 7.5 x 10(-9) cm(2)/s in
89 A clear molecular weight dependence of the lateral diffusion coefficients in DMPC bilayers was obse
90 eaching (video-FRAP) was used to measure the lateral diffusion coefficients of a series of nine fluor
92 ation is supported by a strong dependence of lateral diffusion coefficients on protein density on the
98 heoretical studies have shown that potassium lateral diffusion coupling (i.e., diffusive coupling) ca
99 e simulation results show that 1), potassium lateral diffusion coupling is crucial for establishing e
100 We tested the hypothesis that potassium lateral diffusion coupling is responsible for the coupli
101 diction, but strongly suggest that potassium lateral diffusion coupling, a physiological realization
107 nal periodic array of asymmetric barriers to lateral diffusion fabricated from titanium oxide on sili
108 estabilizing D1R localization, via increased lateral diffusion followed by increased internalization
109 passive diffusion, conventionally involving lateral diffusion followed by membrane bilayer flip-flop
110 ing domains allow some colicins to search by lateral diffusion for binding sites on their OM transloc
112 f the model allows for PIP2 replenishment by lateral diffusion from neighboring dendrite membrane.
113 rmation in which axonal Na+ channels move by lateral diffusion from regions of Schwann cell contact,
114 receptors on the spines may occur either by lateral diffusion from release sites over nearby postsyn
115 d on trafficking of key membrane proteins by lateral diffusion from surface populations and by exocyt
117 t of brain SM, which decreased outer-leaflet lateral diffusion, had little effect upon lateral diffus
118 olving acquisition from the lipid bilayer by lateral diffusion have been proposed for hydrophobic sub
120 ons, diffusion-limited processes, especially lateral diffusion in cell membranes and geometrical cons
123 et lateral diffusion, had little effect upon lateral diffusion in inner leaflets composed of dioleoyl
124 in the two leaflets) but did greatly reduce lateral diffusion in inner leaflets composed of PC with
125 g IFN-gammaR2 T168N-bound galectins restored lateral diffusion in lipid nanodomains and JAK/STAT sign
128 s (NMDAr) are known to undergo recycling and lateral diffusion in postsynaptic spines and dendrites.
129 lt and order, lipid rotational dynamics, and lateral diffusion in regions of leaflets that are opposi
130 lustrates the degree to which small-molecule lateral diffusion in stratum corneum-extracted lipids ca
131 nto dioleoylphosphatidylcholine (DOPC) GUVs, lateral diffusion in the bSM-containing outer leaflet de
133 ort of integral proteins to the INM involves lateral diffusion in the lipid bilayer around the nuclea
136 The drug may access its binding site by lateral diffusion in the membrane, suggesting that other
139 olecules in the contact site were capable of lateral diffusion in the plane of the phospholipid bilay
140 , trafficking of AMPARs to and from the PSD, lateral diffusion in the plane of the spine membrane, an
142 ics between midbrain and striatum, mainly by lateral diffusion in the plasma membrane with only a lim
145 s (DGT) samplers, we show that the effect of lateral diffusion inside the sampler on the solute flux
149 tide is located on the membrane surface, its lateral diffusion is characterized by a distribution of
150 biological meaning, (ii) that no noticeable lateral diffusion is induced during to sample preparatio
152 present in these microdomains, and that NaPi lateral diffusion is slowed down and NaPi aggregation/cl
153 suggest that membrane turnover, rather than lateral diffusion, is the main 'redeployment' route for
154 nd tether-pulling experiments to measure DAF lateral diffusion, lateral confinement, and membrane ske
155 lipid asymmetry, biological composition and lateral diffusion makes this method a powerful tool for
160 So far, all transport proteins for which a lateral diffusion mechanism has been proposed function a
162 rfaces in monomeric form, but that following lateral diffusion, molecules ultimately reside within br
166 pes, appear to compensate for the effects of lateral diffusion of activity attributable to dendritic
167 s stepwise recognition process is coupled to lateral diffusion of Ago2 along the target RNA, which pr
169 F technique was established by investigating lateral diffusion of an amphiphilic tetradecane TEMPO de
170 o axon proximal segments as well as limiting lateral diffusion of ankyrinG-neurofascin complexes.
172 rably dynamic process, because it depends on lateral diffusion of BtuB and collisional interaction wi
173 cence recovery after photobleaching that the lateral diffusion of CD4 decreased 4-fold following sphi
176 after photobleaching analysis to measure the lateral diffusion of CXCR1-CFP, we found that interleuki
180 incorporated GM1 lipid alters the long-range lateral diffusion of fluorescently labeled probe lipids,
182 iety of barriers and obstacles that slow the lateral diffusion of glycosylphosphatidylinositol (GPI)-
183 nerally accepted that gap junctions form via lateral diffusion of hemichannels following microtubule-
184 olecular dynamics (MD) simulations that show lateral diffusion of Hg atoms in graphene interlayer spa
190 intricate coupling between conformation and lateral diffusion of LFA-1 and further underscores the c
195 o widespread use of the technique to measure lateral diffusion of membrane proteins and lipids, and a
197 ynein induced a significant reduction in the lateral diffusion of microtubule ends, distinct from the
199 RFM image sequences, to account for both the lateral diffusion of molecules at the membrane and the c
202 lar vesicles, we showed a 2-fold decrease in lateral diffusion of NaPi protein and a greater than 2-f
203 ould be promoted by anisotropically enhanced lateral diffusion of oxygen along the midplane and by ju
204 ecreases annexin binding by compromising the lateral diffusion of phosphatidylserine, inhibiting the
208 st that the fast buildup prevents long-range lateral diffusion of polyelectrolyte star components, hi
209 how interactions between cellular pathways, lateral diffusion of proteins between synapses, and chlo
210 y forming diffusional barriers that restrict lateral diffusion of proteins embedded in membranes.
211 ) the influence of crowding and shape on the lateral diffusion of proteins in curved membranes; and 2
215 y generate pores of larger diameter enabling lateral diffusion of PS; whereas, smaller pores induced
217 One such study, quantitative measurement of lateral diffusion of rhodopsin, set the standard for exp
218 854 Da, and were chosen to characterize the lateral diffusion of small compounds in these bilayer sy
219 les successful mapping of the transverse and lateral diffusion of small molecules having different ph
220 ncorporated into synapses during LTP is from lateral diffusion of spine surface receptors containing
221 This is a consequence of the fact that the lateral diffusion of stathmin tends to weaken the effect
223 sis hypothesis and suggest the importance of lateral diffusion of surface proteins in contributing to
226 ent sterols, revealed that the difference in lateral diffusion of the BODIPY-cholesterol probes was n
227 eously over the cytoplasmic membrane and the lateral diffusion of the channels is in accordance with
229 tions with members of the PSD-95 family, and lateral diffusion of the GluA1 receptors on the cell sur
231 sition from gel-to-fluid phase increases the lateral diffusion of the lipid molecules by three orders
232 rall rotational diffusion of the vesicle and lateral diffusion of the lipid molecules, is responsible
233 tion and epifluorescence microscopy, and the lateral diffusion of the lipids and proteins in the bila
234 The nanoGFP-based probes allowed faster lateral diffusion of the NMDARs, with several-fold incre
235 ly decreased at 0 degrees C, suggesting that lateral diffusion of the permease within the plane of th
237 ith the reduced order parameter and enhanced lateral diffusion of the substrate analogue in the prese
240 ted reduction may reflect an increase in the lateral diffusion of transducin and an increased activat
245 diffusion and demonstrate how the effect of lateral diffusion on diffusion in the DBL can be account
246 with the fast remodeling plant ER, but their lateral diffusion on the ER surface was restricted, like
249 leaves the vicinity of the enzyme, either by lateral diffusion or desorption from the surface, regula
250 s with intracellular receptor pools, and the lateral diffusion or hopping of surface receptors betwee
252 grana leads to protein crowding that impedes lateral diffusion processes but is required for efficien
254 predicted by the steric hindrance model, the lateral diffusion rate of band 3 is greater in spectrin-
256 maging and tracking has been used to measure lateral diffusion rates of fluorescent molecules at surf
258 ed two mechanisms for splice site pairing: a lateral diffusion ('scanning') model and the currently f
259 olesterol analogs have a severe influence on lateral diffusion specifically in the PM of living cells
260 junction protein occludin and increased the lateral diffusion speed of HCV receptor tetraspanin CD81
261 so observe a persistent decrease in Lyn-EGFP lateral diffusion that is dependent on Src family kinase
267 those in the cytoplasm, as evident from the lateral diffusion times t(D,free)(nuc) = t(D,free)(cyt)
268 oteins from the tissue sections with minimal lateral diffusion to achieve high spatial fidelity trans
269 ains with their associated molecules move by lateral diffusion to areas of cellular interactions to i
273 y (FPR) measurements of cell surface protein lateral diffusion typically employ an interrogated spot
274 entiated BMPC were found in clusters and the lateral diffusion was slow (e.g., approximately 10(-11)
277 gp appears to be rate-limited solely by drug lateral diffusion within the inner monolayer of the plas
278 usion across the sclera, this study examined lateral diffusion within the sclera parallel to the scle