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991.
Molecular modeling of flavonoids that inhibits xanthine oxidase 总被引:8,自引:0,他引:8
Lin CM Chen CS Chen CT Liang YC Lin JK 《Biochemical and biophysical research communications》2002,294(1):167-172
The inhibition of xanthine oxidase activity by various flavonoids was assessed. All of the tested flavonoids were competitive inhibitors, and from the kinetic analysis suggested that flavonoids bind to the reactive site. To further understand the stereochemistry between these flavonoids and xanthine oxidase, structure-based molecular modeling was performed. Apigenin was the most potent inhibitor which showed the most favorable interaction in the reactive site. The bicyclic benzopyranone ring of apigenin stacked with phenyl of Phe 914, and the phenolic group stretched to the space surrounding with several hydrophobic residues. Quercetin and myricetin composed a 3-hydroxyl group on benzopyranone which resulting in reduction of binding affinity. The phenolic group of genistein positioned in opposite orientation comparison with apigenin, and resulted in a weaker interaction with xanthine oxidase. Isovitexin showed the weakest inhibitory effect among the compounds tested. The bulky group of sugar in isovitexin may hamper its interaction with xanthine oxidase. 相似文献
992.
DNA sequences of matR gene from three species of Saururaceae and the selected outgroups, Chloranthus holostegius and Zippelia begoniaefolia, are reported. All DNA sequences of six species in four genera of Saururaceae and the two outgroups are analyzed on PAUP 4.0 8b to reconstruct the phylogeny. A single matR gene tree is generated from parsimony, distance, and likelihood analyses, respectively. The three trees with the same topology are slightly different in bootstrapping support for some clades. The result indicates that Saururaceae is monophyletic. Anemopsis is sister to Houttuynia, and the two genera form the first diverging lineage of the family. The sister group relationship between Saururus and Gymnotheca is also supported by a relatively high bootstrap value. The result is different from all the former phylogenetic opinions on Saururaceae based on morphology, but it is supported by the evolution of flower-bract stalk in Saururaceae. In addition, some characteristics of the matR gene are analyzed. The MatR gene is a relatively better tool to reconstruct the molecular clock because the base substitution bias greatly decreases in the gene. 相似文献
993.
Zhang S Zhou W Ding Y He X Zhang H An J Gao F Heckmann K Liang A Rao Z 《Protein and peptide letters》2002,9(1):81-85
eRF1a, one of the class-I release factors from ciliate Euplotes octocarinatus, has been crystallized by the vapor-diffusion method using polyethylene glycol 4000 as the precipitant at pH 7.5. The crystal belongs to space group P2(1) and the unit-cell parameters are a=90.4, b=107.9, c=114.8A, beta=94.2 degrees. There appear to be four eRF1a molecules in the asymmetric unit. 相似文献
994.
A procedure has been developed for protein identification using mass spectrometry (MS) that incorporates sample cleanup, preconcentration, and protein digestion in a single-stage system. The procedure involves the adsorption of a protein, or protein mixture, from solution onto a hydrophobic resin that is contained within a microcolumn. Sample loading is accomplished by flowing the protein solution through the microcolumn, where the protein adsorbs to the hydrophobic surface. The protein is digested while still bound to the hydrophobic surface by flowing a buffered trypsin solution through the column bed. The peptide fragments are subsequently eluted for detection by MALDI or ESI-MS. The procedure is demonstrated using dilute protein samples containing high concentrations of salt, urea, and modest amount of sodium dodecyl sulfate relative to protein. Peptide fragments are also detected by MS from a 500 nM bacteriorhodopsin solution digested in a microcolumn. In this case, a combined cyanogen bromide/trypsin digestion was performed in-column. The procedure is applied to the MALDI-MS/MS identification of proteins present in an individual fraction collected by ion exchange HPLC separation of E. coli total cell extract. An additional application is illustrated in the analysis of a human plasma fraction. A total of 14 proteins, which were present in the sample at sub-micromolar concentrations, were identified from ESI-MS/MS. The microcolumn digestion procedure represents the next step toward a system for fully automated protein analysis through capture and digestion of the adsorbed protein on hydrophobic surfaces. 相似文献
995.
Keller BO Wang Z Li L 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》2002,782(1-2):317-329
HPLC fractionation combined with mass spectrometry can become a powerful tool for analyzing the proteome in the mass range below 15 kDa where efficient protein separation by gel electrophoresis can be difficult. For sensitive and high-resolution separation of the low-mass proteome, the use of analytical rather than preparative HPLC columns is preferred. However, individual fractions collected by a conventional HPLC separation usually contain a small amount of proteins whose concentrations may not be sufficiently high for subsequent enzyme digestion and protein identification by mass spectrometry. In this work, we present a high sensitivity nanoliter sample handling technique to analyze proteins fractionated by HPLC. In this technique, an individual HPLC fraction in hundreds of microliter volume is pre-concentrated to several microliters. About 700 pl of the pre-concentrated fraction is then drawn into a 20-microm I.D. capillary and dried in a small region near the capillary's entrance. This process can be repeated many times to concentrate a sufficient amount of protein to the small region of the capillary. After protein concentration, protein digestion is achieved by drawing 1 nl of chemical or enzymatic reagent into the capillary and placing it in the same region where the dried protein sits. The resulting peptides are then deposited onto a microspot in a MALDI probe for mass analysis. The performance of this technique is demonstrated with the use of a standard protein solution. This technique is applied to the identification of low-mass proteins separated by HPLC from a complex mixture of an E. coli extract. 相似文献
996.
997.
Interhelical hydrogen bonds and spatial motifs in membrane proteins: polar clamps and serine zippers
Polar and ionizable amino acid residues are frequently found in the transmembrane (TM) regions of membrane proteins. In this study, we show that they help to form extensive hydrogen bond connections between TM helices. We find that almost all TM helices have interhelical hydrogen bonding. In addition, we find that a pair of contacting TM helices is packed tighter when there are interhelical hydrogen bonds between them. We further describe several spatial motifs in the TM regions, including "Polar Clamp" and "Serine Zipper," where conserved Ser residues coincide with tightly packed locations in the TM region. With the examples of halorhodopsin, calcium-transporting ATPase, and bovine cytochrome c oxidase, we discuss the roles of hydrogen bonds in stabilizing helical bundles in polytopic membrane proteins and in protein functions. 相似文献
998.
Li HT Chang T Liu MY Le Gall J An XM Gui LL Zhang JP Liang DC Chang WR 《Biochemical and biophysical research communications》2002,299(2):173-176
The C-terminal segment of copper-containing nitrite reductase from Achromobacter cycloclastes (AcNiR) has been found essential for maintaining both the quaternary structure and the enzyme activity of AcNiR. C-terminal despentapeptide AcNiR (NiRc-5) and desundecapeptide AcNiR (NiRc-11) are two important truncated mutants whose activities and stability have been affected by residue deletion. In this study, the two mutants were crystallized using the hanging drop vapor diffusion method. Crystals of NiRc-5 obtained at pH 5.0 and 6.2 both belonged to the P2(1)2(1)2(1) space group with unit cell parameters a=99.0 A, b=117.4 A, c=122.8 A (pH 5.0) and a=98.9A, b=117.7A, c=123.0A (pH 6.2). NiRc-11 was crystallized in two crystal forms: the tetragonal form belonged to the space group P4(1) with a=b=96.0A and c=146.6A; the monoclinic form belonged to the space group P2(1) with a=86.0A, b=110.1A, c=122.7A, and beta=101.9 degrees. The crystallizing behaviors of the two mutants differed from that of the native enzyme. Such change in combination with residue deletion is also discussed here. 相似文献
999.
1000.