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1 sites on the surface of Chemotaxis Y (CheY) in dilute solution.
2 otein stability is affected differently than in dilute solution.
3 ogonally (i.e., without mutual interference) in dilute solution.
4 d-1:hybrid-2:triplex is approximately 11:5:1 in dilute solution.
5 environment is predicted to differ from that in dilute solution.
6 ergo major shifts relative to those measured in dilute solution.
7 sics comes from studies on purified proteins in dilute solution.
8 stilbenes, similar to the dicarboxylic acid in dilute solution.
9 erent in the crowded interior of a cell than in dilute solution.
10 sical information about proteins is obtained in dilute solution.
11 tochrome b(5) in living Escherichia coli and in dilute solution.
12 f this partially folded protein in cells and in dilute solution.
13 es have been extensively studied in bulk and in dilute solution.
14 onal change that is detected at 35 degrees C in dilute solution.
15 the addition of [Pt(1,5-cyclooctadiene)Cl2 ] in dilute solution.
16 tro studies are almost exclusively performed in dilute solution.
17 de more slowly than comparably sized spheres in dilute solution.
18 e wild-type alpha-synuclein (WT), disordered in dilute solution.
19 s that this protein is essentially monomeric in dilute solution.
20 te of oligomerization and gross conformation in dilute solution.
21 of PP1 toward c-Src kinase compared to that in dilute solution.
22 ce for exciton transport along the BCP chain in dilute solution.
23 nt splitting, aggregation, and rearrangement in dilute solution.
24 dependent compaction of individual molecules in dilute solutions.
25 rm and serve as nuclei for NP crystal growth in dilute solutions.
26 he behavior of most mobile--the PuO2(+) form in dilute solutions.
27 ules in cells deviates from what is observed in dilute solutions.
28 n the dynamics of individual water molecules in dilute solutions.
29 nions is found to provide a good description in dilute solutions.
30 es of association are similar in crowded and in dilute solutions.
31 ical molecules, such as the self-recognition in dilute solutions.
32 e macromolecular structure of brush polymers in dilute solutions.
33 rgo ring-opening olefination upon sonication in dilute solutions.
34 s exhibit little or no increase in breathing in dilute solutions.
35 ost, and effective way of detecting antigens in dilute solutions.
36 light scattering measurements were conducted in dilute solutions.
37 400 g/L, but they are almost always studied in dilute solutions.
38 ium ion is head-to-tail polymerization, even in dilute solutions.
39 es, such as DNA, respond sensitively to ions in dilute solutions.
40 entalization specificities that cannot occur in dilute solutions.
41 s favoring different aggregated end products in diluted solutions.
43 ith previous studies of these cycloadditions in dilute solution, a more complete picture of aqueous e
44 biochemical reactions are most often studied in dilute solution, a poor mimic of the intracellular sp
46 rome c to yeast ferricytochrome c peroxidase in dilute solution and in solutions crowded with the sug
47 aining 5000 pCi/L of Ra-226 to more than 80% in dilute solution and to more than 50% in high-salinity
49 the driving forces for single-chain collapse in dilute solutions and the driving forces for phase sep
50 tudy of supramolecular polymers in the bulk, in diluted solution, and at the solid-liquid interface h
51 ers (kcat and KM), determined for the enzyme in dilute solution, appeared to be unchanged by the cond
52 ired to seed the trapping event, sperm cells in dilute solution are trapped as a result of the enhanc
54 We have determined thiol-coupled products in dilute solutions arise mainly from addition to the in
55 asurements indicate that the viscoelasticity in dilute solution behaves according to the Flory/Fox mo
56 aled a red-shifted absorption that is absent in dilute solution but becomes observable at high concen
57 s that adding simple salts folds the variant in dilute solution but increasing the salt concentration
58 n of solvated electrons, which are localised in dilute solutions but exhibit metallic behaviour at hi
59 Most studies of this protein are performed in dilute solution, but its biologically relevant role i
60 ilicity can also self-assemble into vesicles in dilute solution, but polymer molecular weights can be
62 fficiency of 20% in the solid state (vs. 30% in dilute solutions) by incorporating such a dye in a wi
63 t is amenable to high-throughput measurement in dilute solutions, correlates well with the viscosity
64 idpoints (T(m)s) in concentrated rather than in dilute solutions (deltaT(m) approximately 2-10 degree
65 entrated solutions exhibit a lower T(m) than in dilute solutions (deltaT(m) approximately 2-20 degree
67 nterlocked dodecameric rings is also evident in dilute solution employing transmission electron micro
68 allows rapid screening of organic molecules in dilute solutions for potential use in third-order NLO
69 all seven hydrocarbons are remarkably robust in dilute solution, generally surviving exposure to mode
70 All these proteins are known to fibrillate in diluted solutions, however their aggregation mechanis
71 ynamics in cells may be different from those in dilute solutions in vitro, because the environment in
73 anonical 1:2 stoichiometry between Rab14-RCP in dilute solutions, in contrast to Rab11/25 complexes.
74 tal-to-ligand charge-transfer triplet states in diluted solutions, in frozen glasses and in crystals,
75 lar conformation for the structure of mefp-1 in dilute solution, is considered, within plausible limi
76 al studies have traditionally been performed in diluted solutions, it was pointed out in the late 199
77 the predominant UVA photoproduct of S(4)TdR in dilute solution, more complex lesions are formed when
79 er proton spin-lattice relaxation is studied in dilute solutions of bovine serum albumin as a functio
80 ubly vibrationally enhanced four-wave mixing in dilute solutions of carbon disulfide using an ultrafa
81 sslink-mediated bundle formation only occurs in dilute solutions of highly mobile actin filaments.
83 fused rhomboid 7 shows a weaker fluorescence in dilute solutions relative to that of the fused triang
84 lt, the fused polygons are innately emissive in dilute solution, representing an alternative to aggre
85 phosphates associate into dynamic assemblies in dilute solutions that are spectroscopically "dark." C
86 es, but experimental data are often obtained in dilute solutions that do not reflect in vivo conditio
90 across a transition from dispersed monomers in dilute solution to clustered states at more concentra
92 i formation energetically and kinetic growth in dilute solutions to rapidly crystalize NPs over multi
93 rom spheres to large compound micelles (LCM) in dilute solution, underwent phase separation after hea
95 stability of the electron-deficient phlorin in dilute solution upon exposure to light and air was pr
96 or efficient delayed fluorescence generation in dilute solution using a non-covalent approach via sup
97 y acids and related amphiphiles would result in dilute solutions well below the cac, the identificati
98 thermally induced sphere-to-worm transition in dilute solution, were found to reversibly form soft (
99 such reactions appear homogeneous, typically in dilute solution, whereas others are obviously heterog
100 t with fluorescence quantum yields of 58-76% in dilute solution, whereas they emit yellow-green light
102 s described, and the very strong interaction in dilute solution with a mucin glycoprotein is demonstr