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81.
82.
The dynamic behavior of HIV-1 TAR and its complex with argininamide is investigated by means of molecular dynamics simulations starting from NMR structures, with explicit inclusion of water and periodic boundary conditions particle mesh Ewald representation of the electrostatic energy. During simulations of free and argininamide-bound TAR, local structural patterns, as determined by NMR experiments, were reproduced. An interdomain motion was observed in the simulations of free TAR, which is absent in the case of bound TAR, leading to the conclusion that the free conformation of TAR is intrinsically more flexible than the bound conformation. In particular, in the bound conformation the TAR–argininamide interface is very well ordered, as a result of the formation of a U·A·U base triple, which imposes structural constraints on the global conformation of the molecule. Free energy analysis, which includes solvation contributions, was used to evaluate the influence of van der Waals and electrostatic terms on formation of the complex and on the conformational rearrangement from free to bound TAR. 相似文献
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We present molecular dynamics (MD) simulations on two enzymes: a human hypoxanthine-guanine-phosphoribosyltransferase (HGPRTase) and its analogue in the protozoan parasite Tritrichomonas foetus. The parasite enzyme has an additional ability to process xanthine as a substrate, making it a hypoxanthine-guanine-xanthine phosphoribosyltransferase (HGXPRTase) [Chin, M. S., and Wang, C. C. (1994) Mol. Biochem. Parasitol. 63 (2), 221-229 (1)]. X-ray crystal structures of both enzymes complexed to guanine monoribosyl phosphate (GMP) have been solved, and show only subtle differences in the two active sites [Eads et al. (1994) Cell 78 (2), 325-334 (2); Somoza et al. (1996) Biochemistry 35 (22), 7032-7040 (3)]. Most of the direct contacts with the base region of the substrate are made by the protein backbone, complicating the identification of residues significantly associated with xanthine recognition. Our calculations suggest that the broader specificity of the parasite enzyme is due to a significantly more flexible base-binding region, and rationalize the effect of two mutations, R155E and D163N, that alter substrate specificity [Munagala, N. R., and Wang, C. C. (1998) Biochemistry 37 (47), 16612-16619 (4)]. In addition, our simulations suggested a double mutant (D106E/D163N) that might rescue the D163N mutant. This double mutant was expressed and assayed, and its catalytic activity was confirmed. Our molecular dynamics trajectories were also used with a structure-based design program, Pictorial Representation Of Free Energy Changes (PROFEC), to suggest parasite-selective derivatives of GMP. Our calculations here successfully rationalize the parasite-selectivity of two novel inhibitors derived from the computer-aided design of Somoza et al. (5) and demonstrate the utility of PROFEC in the design of species-selective inhibitors. 相似文献
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Benjamin A. Lange Christine Michel Justin F. Beckers J. Alec Casey Hauke Flores Ido Hatam Guillaume Meisterhans Andrea Niemi Christian Haas 《PloS one》2015,10(4)
With near-complete replacement of Arctic multi-year ice (MYI) by first-year ice (FYI) predicted to occur within this century, it remains uncertain how the loss of MYI will impact the abundance and distribution of sea ice associated algae. In this study we compare the chlorophyll a (chl a) concentrations and physical properties of MYI and FYI from the Lincoln Sea during 3 spring seasons (2010-2012). Cores were analysed for texture, salinity, and chl a. We identified annual growth layers for 7 of 11 MYI cores and found no significant differences in chl a concentration between the bottom first-year-ice portions of MYI, upper old-ice portions of MYI, and FYI cores. Overall, the maximum chl a concentrations were observed at the bottom of young FYI. However, there were no significant differences in chl a concentrations between MYI and FYI. This suggests little or no change in algal biomass with a shift from MYI to FYI and that the spatial extent and regional variability of refrozen leads and younger FYI will likely be key factors governing future changes in Arctic sea ice algal biomass. Bottom-integrated chl a concentrations showed negative logistic relationships with snow depth and bulk (snow plus ice) integrated extinction coefficients; indicating a strong influence of snow cover in controlling bottom ice algal biomass. The maximum bottom MYI chl a concentration was observed in a hummock, representing the thickest ice with lowest snow depth of this study. Hence, in this and other studies MYI chl a biomass may be under-estimated due to an under-representation of thick MYI (e.g., hummocks), which typically have a relatively thin snowpack allowing for increased light transmission. Therefore, we suggest the on-going loss of MYI in the Arctic Ocean may have a larger impact on ice–associated production than generally assumed. 相似文献
88.
Molecular dynamics studies of a DNA-binding protein: 1. A comparison of the trp repressor and trp aporepressor aqueous simulations. 总被引:1,自引:1,他引:0 下载免费PDF全文
A. E. Howard P. A. Kollman 《Protein science : a publication of the Protein Society》1992,1(9):1173-1184
The results of two 30-ps molecular dynamics simulations of the trp repressor and trp aporepressor proteins are presented in this paper. The simulations were obtained using the AMBER molecular mechanical force field and in both simulations a 6-A shell of TIP3P waters surrounded the proteins. The trp repressor protein is a DNA-binding regulatory protein and it utilizes a helix-turn-helix (D helix-turn-E helix) motif to interact with DNA. The trp aporepressor, lacking two molecules of the L-tryptophan corepressor, cannot bind specifically to DNA. Our simulations show that the N- and C-termini and the residues in and near the helix-turn-helix motifs are the most mobile regions of the proteins, in agreement with the X-ray crystallographic studies. Our simulations also find increased mobility of the residues in the turn-D helix-turn regions of the proteins. We find the average distance separating the DNA-binding motifs to be larger in the repressor as compared to the aporepressor. In addition to examining the protein residue fluctuations and deviations with respect to X-ray structures, we have also focused on backbone dihedral angles and corepressor hydrogen-bonding patterns in this paper. 相似文献
89.
The distribution of 12 acid hydrolase and two polysaccharide depolymerase enzymes in the rumen entodiniomorphid ciliatePolyplastron multivesiculatum, isolated from the ovine rumen 2 h after feeding, was examined by differential and density-gradient centrifugation. Approximately 60%–70% of the recovered activity was sedimentable in fractions prepared by centrifugation at 103
g for 10 min (F1) and 104
g for 10 min (F2) with 25%–35% of the acid hydrolases and 15%–20% of acid phosphatase and the polysaccharidases remaining nonsedimentable (in fraction F5) after centrifugation at 105
g for 60 min. Approximately 60% of the sedimentable activity was located in fraction F1. Latency of the hydrolase activity was demonstrated. After isopycnic centrifugation in sucrose density gradients, the hydrolytic enzymes cosedimented in acid phosphatase-containing, membrane-bound, pleomorphic lysosomelike vesicles 0.1–1.0 m in size, with a mean equilibrium density of 1.17 (1.15–1.19) g/ml. 相似文献
90.
Eric J. Ditzel Hui Li Caroline E. Foy Alec B. Perrera Patricia Parker Benjamin J. Renquist Nathan J. Cherrington Todd D. Camenisch 《Journal of biochemical and molecular toxicology》2016,30(7):321-330
Non‐alcoholic fatty liver disease can result in changes to drug metabolism and disposition potentiating adverse drug reactions. Furthermore, arsenite exposure during development compounds the severity of diet‐induced fatty liver disease. This study examines the effects of arsenite potentiated diet‐induced fatty liver disease on hepatic transport in male mice. Changes were detected for Mrp2/3/4 hepatic transporter gene expression as well as for Oatp1a4/2b1/1b2. Plasma concentrations of Mrp and Oatp substrates were increased in arsenic exposure groups compared with diet‐only controls. In addition, murine embryonic hepatocytes and adult primary hepatocytes show significantly altered transporter expression after exposure to arsenite alone: a previously unreported phenomenon. These data indicate that developmental exposure to arsenite leads to changes in hepatic transport which could increase the risk for ADRs during fatty liver disease. 相似文献