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991.
992.
We studied 1140 bp cytochrome b sequences of social voles from three localities in Lebanon. The results were compared with published sequences representing seven species of social voles. New sequences from Lebanon clustered with reference samples of two species: M. guentheri and M. irani. While M. guentheri was already reported for Lebanon, M. irani is a new addition to the fauna of Lebanon, and the third known record for the species. Animals were collected in two localities above Tripolis at 855 m and 1430 m a.s.l., respectively. 相似文献
993.
Oleksandr V. Savytskyi Semen O. Yesylevskyy Alexander I. Kornelyuk 《Journal of molecular recognition : JMR》2013,26(2):113-120
Human tyrosyl‐tRNA synthetase (HsTyrRS) is composed of two structural modules: N‐terminal catalytic core and an EMAP II‐like C‐terminal domain. The structures of these modules are known, but no crystal structure of the full‐length HsTyrRS is currently available. An all‐atom model of the full‐length HsTyrRS was developed in this work. The structure, dynamics, and domain binding interfaces of HsTyrRS were investigated by extensive molecular dynamics (MD) simulations. Our data suggest that HsTyrRS in solution consists of a number of compact asymmetric conformations, which differ significantly by their rigidity, internal mobility, orientation of C‐terminal modules, and the strength of interdomain binding. Interfaces of domain binding obtained in MD simulations are in perfect agreement with our previous coarse‐grained hierarchical rotations technique simulations. Formation of the hydrogen bonds between R93 residue of the ELR cytokine motif and the residues A340 and E479 in the C‐module was observed. This observation supports the idea that the lack of cytokine activity in the full‐length HsTyrRS is explained by interactions between N‐modules and C‐modules, which block the ELR motif. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
994.
Raja Mohmed Beema Shafreen Chandrabose Selvaraj Sanjeev Kumar Singh Shunmugiah Karutha Pandian 《Journal of molecular recognition : JMR》2013,26(6):276-285
Quinolone resistance‐determining region is known to be the druggability site of the target protein that undergoes frequent mutation and thus renders quinolone resistance. In the present study, ligands were tested for their inhibitory activity against DNA gyrase of Streptococcus pyogenes involved in DNA replication. In silico mutational analysis on modelled gyrase A revealed that GLU85 had the most possible interactions with all the ligands used for the study. The amino acid residue GLU85 had also been predicted with an essential role of maintaining the three‐dimensional structure of the protein. When introduced with a mutation (GLU 85 LYS) on this particular residue, it had readily denatured the whole α‐helix (from 80 to 90 amino acids). This was confirmed through the molecular dynamics simulation and revealed that this single mutation can cause many functional and structural changes. Furthermore, LYS85 mutation has altered the original secondary structure of the protein, which in turn led to the steric hindrance during the ligand–receptor interaction. The results based on the G‐score revealed that ligands have reduced interaction with the mutant protein. The semisynthetic fluoroquinolone 6d, which is an exception, forms a strong interaction with the mutant protein and was experimentally verified using the antimicrobial test. Hence, the present study unravels the fact that mutation at the drug binding site is the major cause for different level of resistance by the S. pyogenes when exposed against the varying concentrations of the fluoroquinolones. Furthermore, a comparative assessment of quinolone derivative with the older generation fluoroquinolones will be of great impact for S. pyogenes–related infections. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
995.
Gizem Ertürk Nilay Bereli M. Aşkın Tümer Rıdvan Say Adil Denizli 《Journal of molecular recognition : JMR》2013,26(12):633-642
Interferons are important proteins for the immune system because of their antiviral, anti‐proliferating and immunomodulatory activities. Therapeutic value of these proteins against certain types of tumors caused interest and investigations aimed to obtain highly purified interferons. Molecular imprinting is an efficient method for purification with high selectivity, specificity and good reproducibility. In this study, we utilized advantages of molecular imprinting technique for the purification of interferon from human gingival fibroblast culture. For this purpose, interferon α‐2b imprinted poly(hydroxyethyl methacrylate) cryogel (hIFN‐α‐MIP) was prepared. Optimum adsorption conditions were determined, and maximum adsorption capacity of hIFN‐α‐MIP cryogel was found as 254.8 × 104 IU/g from aqueous solution. All interferon measurements are expressed as International Unit (IU), which is a unit measurement used to quantify biologically active substances like interferon based on their biological activity or effect. Selectivity experiments were performed using competitive proteins and repeated adsorption–desorption studies showed that the adsorption capacity maintained almost at a constant value after ten cycles. For the purification of interferon from human gingival fibroblast culture, fast protein liquid chromatography was used and the specific activity of the purified interferon α‐2b on HeLa cell line was found between the values 3.45 × 108 IU/mg and 3.75 × 108 IU/mg. The results are promising, and the molecular imprinting technique is effective for the purification of interferon α‐2b. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
996.
Ranajay Saha Surajit Rakshit Samir Kumar Pal 《Journal of molecular recognition : JMR》2013,26(11):568-577
Labelling of proteins with some extrinsic probe is unavoidable in molecular biology research. Particularly, spectroscopic studies in the optical region require fluorescence modification of native proteins by attaching polycyclic aromatic fluoroprobe with the proteins under investigation. Our present study aims to address the consequence of the attachment of a fluoroprobe at the protein surface in the molecular recognition of the protein by selectively small model receptor. A spectroscopic study involving apomyoglobin (Apo‐Mb) and cyclodextrin (CyD) of various cavity sizes as model globular protein and synthetic receptors, respectively, using steady‐state and picosecond‐resolved techniques, is detailed here. A study involving Förster resonance energy transfer, between intrinsic amino acid tryptophan (donor) and N, N‐dimethyl naphthalene moiety of the extrinsic dansyl probes at the surface of Apo‐Mb, precisely monitor changes in donor acceptor distance as a consequence of interaction of the protein with CyD having different cavity sizes (β and γ variety). Molecular modelling studies on the interaction of tryptophan and dansyl probe with β‐CyD is reported here and found to be consistent with the experimental observations. In order to investigate structural aspects of the interacting protein, we have used circular dichroism spectroscopy. Temperature‐dependent circular dichroism studies explore the change in the secondary structure of Apo‐Mb in association with CyD, before and after fluorescence modification of the protein. Overall, the study well exemplifies approaches to protein recognition by CyD as a synthetic receptor and offers a cautionary note on the use of hydrophobic fluorescent labels for proteins in biochemical studies involving recognition of molecules. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
997.
Masanori Asada Kazuhiro Morimoto Kazuhiro Nakanishi Ryuichi Matsuno Atsuo Tanaka Akira Kimura 《Bioscience, biotechnology, and biochemistry》2013,77(8):1773-1774
Arthrobacter simplex was screened as an α-keto-δ-guanidinovalerate (ketoarginine) assimilating organism. A characteristic feature was its growth on ketoarginine as a carbon source; it began to grow after an extremely long lag. Its growth was stimulated by addition of 0.02% yeast extract to the medium.The results indicated the transamination of arginine-α-ketoglutarate (α-KGA) and the hydrolyzing reaction of ketoarginine into α-keto-δ-aminovalerate and urea. Two intermediates, ketoarginine and α-keto-δ-aminovalerate, were isolated and identified by various procedures. Coupling of the two reactions was demonstrated in cell-free extracts of arginine-grown cells; ketoarginine formed from arginine by transamination with α-KGA was hydrolyzed directly to α-keto-δ-aminovalerate and urea. The metabolic routes of arginine in microorganisms were discussed. 相似文献
998.
《Bioscience, biotechnology, and biochemistry》2013,77(6):1224-1232
Hemoglobin (Hb) solution-based blood substitutes are being developed as oxygen-carrying agents for the prevention of ischemic tissue damage and low blood volume-shock. However, the cell-free Hb molecule has intrinsic toxicity to the tissue since harmful reactive oxygen species (ROS) are readily produced during autoxidation of Hb from the ferrous state to the ferric state, and the cell-free Hb also causes distortion in the oxidant/antioxidant balance in the tissues. There may be further hindering dangers in the use of free Hb as a blood substitute. It has been reported that Hb has peroxidase-like activity oxidizing peroxidase substrates such as aromatic amines. Here we observed the Hb-catalyzed ROS production coupled to oxidation of a neurotransmitter precursor, β-phenylethylamine (PEA). Addition of PEA to Hb solution resulted in generation of superoxide anion (O2??). We also observed that PEA increases the Hb-catalyzed monovalent oxidation of ascorbate to ascorbate free radicals (Asc?). The O2?? generation and Asc? formation were detected by O2??-specific chemiluminescence of the Cypridina lucigenin analog and electron spin resonance spectroscopy, respectively. PEA-dependent O2?? production and monovalent oxidation of ascorbate in the Hb solution occurred without addition of H2O2, but a trace of H2O2 added to the system greatly increased the production of both O2?? and Asc?. Addition of GSH completely inhibited the PEA-dependent production of O2?? and Asc? in Hb solution. We propose that the O2?? generation and Asc? formation in the Hb solution are due to the pseudoperoxidase activity-dependent oxidation of PEA and resultant ROS may damage tissues rich in monoamines, if the Hb-based blood substitutes were circulated without addition of ROS scavengers such as thiols. 相似文献
999.
Shigeyoshi Katohda Fumiko Suzuki Shigemi Katsuki Tetsuro Sato 《Bioscience, biotechnology, and biochemistry》2013,77(10):2029-2034
A kind of endo-β-1, 6-glucanase has been purified from the culture filtrate of Acinetobacter sp. grown in the medium containing baker’s yeast cells as a carbon source. A 100-fold purified preparation was obtained by DEAE-Sephadex A–50 column chromatography. The enzyme hydrolyzed pustulan giving a series of gentio-oligosaccharides and glucose. Gentiotriose and gentiotetraose were hydrolyzed by this enzyme yielding glucose and gentiobiose, and glucose, gentiobiose and gentiotriose, respectively. Gentiobiose was not hydrolyzed. Baker’s yeast glucans obtained from the isolated cell walls were also hydrolyzed by this enzyme giving a series of oligosaccharides and glucose. From the action patterns on these carbohydrates, we concluded the present enzyme being endo-β-1, 6-glucanase. 相似文献
1000.
Yasuto Watanabe Tatsuhiko Ohe Makoto Morita 《Bioscience, biotechnology, and biochemistry》2013,77(12):2735-2741
The effect of glucose on the formation of uricase by a strain of Streptomyces sp. incubated under conditions of nitrogen limitation was investigated. Glucose stimulated uricase formation in the presence of potassium ion and inhibited it in the absence of the ion. Glucose metabolism by the organism was altered in the absence of the ion, and this appeared to cause the inhibition of the enzyme formation. The stimulatory effect of glucose in the presence of potassium ion was to shorten the lag period. Comparisons of the enzyme formation with and without urate in the presence and absence of glucose revealed that glucose promoted the utilization of exogenous urate as the inducer. The effect of glucose appeared to require protein synthesis, since it was prevented by chloramphenicol. Cyclic adenosine 3′,5′-mono-phosphate showed apparently no effect on uricase formation of this organism. 相似文献