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991.
992.
Esposito V Randazzo A Petraccone L Giancola C Erra E Virgilio A Mayol L 《Nucleosides, nucleotides & nucleic acids》2005,24(5-7):789-794
Truncated sequences of human telomeric DNA can readily assemble to form parallel stranded quadruplexes containing A- and G-tetrads. The formation of an A-tetrad is highly context-dependent and the relationship between the formation of an A-tetrad and the glycosidic torsion angle of the adenosine residues implicated has not been completely clarified so far. In order to give a further insight in this issue we synthesized the modified oligomers d(ABrGGGT) and d(TABrGGGT), two different truncations of the human telomeric sequence containing a 8-bromoadenosine residue, named ABr. NMR data show that both the modified oligomers are able to perfectly fold into highly symmetric quadruplexes with all strands parallel to each other. Molecular modeling studies were performed on both [d(ABrGGGT)]4 and [d(TABrGGGT)]4, indicating that a bulky substituent, such as a bromine atom at the C8 position of adenines, can force the glycosidic bond to adopt a syn conformation, stabilizing the resulting quadruplexes. 相似文献
993.
Hwang K Houston JP Rasmussen JC Joshi A Ke S Li C Sevick-Muraca EM 《Molecular imaging》2005,4(3):194-204
Small-animal fluorescence-enhanced imaging involves the detection of weak fluorescent signals emanating from nanomolar to picomolar concentrations of exogenous or endogenously produced fluorophore concurrent with the rejection of an overwhelmingly large component of backscattered excitation light. The elimination of the back-reflected excitation light of the collected signal remains a major and often unrecognized challenge for further reducing the noise floor and increasing sensitivity of small-animal fluorescence imaging. Herein, we show that the combination of three-cavity interference and holographic super notch filters with appropriate imaging lenses to collimate light improves rejection of excitation light, enabling more accurate imaging. To assess excitation leakage, the "out-of-band (S(lambda x))" to "in-band (S(lambda m) - S(lambda x))" signal ratio from phantom studies and the target-to-background ratio (TBR) from in vivo animal imaging was acquired with and without collimating optics. The addition of collimating optics resulted in a 51% to 75% reduction in the ratio of (S(lambda x))/(S(lambda m) - S(lambda x)) for the phantom studies and an improvement of TBR from 11% to 31% and of signal-to-noise ratio from 11% to 142% for an integrin-targeting conjugate in human glioma xenografts. 相似文献
994.
Ondrovicová G Liu T Singh K Tian B Li H Gakh O Perecko D Janata J Granot Z Orly J Kutejová E Suzuki CK 《The Journal of biological chemistry》2005,280(26):25103-25110
Mechanistic studies of ATP-dependent proteolysis demonstrate that substrate unfolding is a prerequisite for processive peptide bond hydrolysis. We show that mitochondrial Lon also degrades folded proteins and initiates substrate cleavage non-processively. Two mitochondrial substrates with known or homology-derived three-dimensional structures were used: the mitochondrial processing peptidase alpha-subunit (MPPalpha) and the steroidogenic acute regulatory protein (StAR). Peptides generated during a time course of Lon-mediated proteolysis were identified and mapped within the primary, secondary, and tertiary structure of the substrate. Initiating cleavages occurred preferentially between hydrophobic amino acids located within highly charged environments at the surface of the folded protein. Subsequent cleavages proceeded sequentially along the primary polypeptide sequence. We propose that Lon recognizes specific surface determinants or folds, initiates proteolysis at solvent-accessible sites, and generates unfolded polypeptides that are then processively degraded. 相似文献
995.
996.
Identification of novel mutations of the human N-acetylglutamate synthase gene and their functional investigation by expression studies 总被引:1,自引:0,他引:1
Schmidt E Nuoffer JM Häberle J Pauli S Guffon N Vianey-Saban C Wermuth B Koch HG 《Biochimica et biophysica acta》2005,1740(1):54-59
The mitochondrial enzyme N-acetylglutamate synthase (NAGS) produces N-acetylglutamate serving as an allosteric activator of carbamylphosphate synthetase 1, the first enzyme of the urea cycle. Autosomal recessively inherited NAGS deficiency (NAGSD) leads to severe neonatal or late-onset hyperammonemia. To date few patients have been described and the gene involved was described only recently. In this study, another three families affected by NAGSD were analyzed for NAGS gene mutations resulting in the identification of three novel missense mutations (C200R [c.598T > C], S410P [c.1228T > C], A518T [c.1552G > A]). In order to investigate the effects of these three and two additional previously published missense mutations on enzyme activity, the mutated proteins were overexpressed in a bacterial expression system using the NAGS deficient E. coli strain NK5992. All mutated proteins showed a severe decrease in enzyme activity providing evidence for the disease-causing nature of the mutations. In addition, we expressed the full-length NAGS wild type protein including the mitochondrial leading sequence, the mature protein as well as a highly conserved core protein. NAGS activity was detected in all three recombinant proteins but varied regarding activity levels and response to stimulation by l-arginine. In conclusion, overexpression of wild type and mutated NAGS proteins in E. coli provides a suitable tool for functional analysis of NAGS deficiency. 相似文献
997.
998.
999.
Hsp90 isoforms: functions, expression and clinical importance 总被引:1,自引:0,他引:1
The 90 kDa heat shock protein, Hsp90, is a main functional component of an important cytoplasmic chaperone complex, and it is involved in various cellular processes, such as cell proliferation, differentiation and apoptosis. Identification of Hsp90 as a molecular target of various anticancer drugs highlighted its importance from the clinical point of view. Here we summarize the current knowledge of various Hsp90 isoforms regarding their genomic location, molecular evolution, functional differences, differential induction after various environmental stresses and in pathological conditions as well as the growing importance of discriminating between Hsp90 isoforms in clinical practice. 相似文献
1000.
Goyer A Johnson TL Olsen LJ Collakova E Shachar-Hill Y Rhodes D Hanson AD 《The Journal of biological chemistry》2004,279(17):16947-16953
Sarcosine oxidase (SOX) is known as a peroxisomal enzyme in mammals and as a sarcosine-inducible enzyme in soil bacteria. Its presence in plants was unsuspected until the Arabidopsis genome was found to encode a protein (AtSOX) with approximately 33% sequence identity to mammalian and bacterial SOXs. When overexpressed in Escherichia coli, AtSOX enhanced growth on sarcosine as sole nitrogen source, showing that it has SOX activity in vivo, and the recombinant protein catalyzed the oxidation of sarcosine to glycine, formaldehyde, and H(2) O(2) in vitro. AtSOX also attacked other N-methyl amino acids and, like mammalian SOXs, catalyzed the oxidation of l-pipecolate to Delta(1)-piperideine-6-carboxylate. Like bacterial monomeric SOXs, AtSOX was active as a monomer, contained FAD covalently bound to a cysteine residue near the C terminus, and was not stimulated by tetrahydrofolate. Although AtSOX lacks a typical peroxisome-targeting signal, in vitro assays established that it is imported into peroxisomes. Quantitation of mRNA showed that AtSOX is expressed at a low level throughout the plant and is not sarcosine-inducible. Consistent with a low level of AtSOX expression, Arabidopsis plantlets slowly metabolized supplied [(14)C]sarcosine to glycine and serine. Gas chromatography-mass spectrometry analysis revealed low levels of pipecolate but almost no sarcosine in wild type Arabidopsis and showed that pipecolate but not sarcosine accumulated 6-fold when AtSOX expression was suppressed by RNA interference. Moreover, the pipecolate catabolite alpha-aminoadipate decreased 30-fold in RNA interference plants. These data indicate that pipecolate is the endogenous substrate for SOX in plants and that plants can utilize exogenous sarcosine opportunistically, sarcosine being a common soil metabolite. 相似文献