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101.
Binding of flavan-3-ols to nuclei is characteristic of Tsuga canadensis (coniferous tree). This is achieved with the DMACA reagent (p-dimethylamino-cinnamaldehyde), which stains almost exclusively monomeric and oligomeric flavan-3-ols with an intense blue colour. Deep flavanol staining also occurred when calf cells of small intestine were enriched with added catechins. In order to detect the components of nuclei that may associate with catechins, the principal components of chromatin (DNA, histones) were subjected to UV-VIS spectroscopic titration. DNA or histone sulphate containing the histones H1, H2A, H2B, H3 and H4 were dissolved in cationic and anionic buffers (Tris, phosphate) at different pH values (pH 8.0, 7.4 and 7.0) and titrated with EGCG (epigallocatechin gallate) or catechin. The results show that DNA of calf thymus and the catechins investigated form no spectroscopically detectable association equilibria. However, strong association complexes are found between histone sulphate and EGCG or catechin by means of the Mauser diagrams (A and AD diagrams). The association equilibria can be accompanied by aggregation (precipitation) of histone proteins, especially initiated by EGCG. The titration equilibria are spectroscopically more pronounced in Tris buffers at higher pH values than at lower values, whereas in phosphate buffers the opposite trend is found. Surprisingly, catechin shows nearly no interactions with histone sulphate in phosphate buffers in the pH range 7.0-8.0, which is in contrast to EGCG. Fundamentally, the targets of chromosomes for catechins seem to be the histone proteins of chromatin. 相似文献
102.
Betat H Vogel S Struhalla M Förster HH Famulok M Welzel P Hahn U 《Biological chemistry》2003,384(10-11):1497-1500
Moenomycin A is an amphiphilic phosphoglycolipid antibiotic that interferes with the transglycosylation step in peptidoglycan biosynthesis. The antibiotic consists of a branched pentasaccharide moiety, connected to the moenocinol lipid via a glycerophosphate linker. We have previously described the selection of aptamers that require the lipid group and the disaccharide epitopes of the oligosaccharide moiety for moenomycin binding. Here we report that the enriched moenomycin-binding library contains sequences that evolved for specific recognition of the unpolar lipid group of the antibiotic. These results suggest that the evolution of hydrophobic binding pockets in RNA molecules may be much more common than previously assumed. 相似文献
103.
Emmrich M Floss H Zühlsdorf B Martiny H 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》2003,795(2):363-370
Glutardialdehyde (GDA) is the most commonly used disinfectant for flexible endoscopes. After inappropriate rinsing of endoscopes residual GDA in the narrow endoscope channels may lead to toxic effects in patients. Common methods for determination of aldehydes in water involve derivatization with 2,4-dinitrophenylhydrazine (DNPH), liquid-liquid or solid-phase extraction and HPLC determination. Since derivatization and extraction is both time-consuming and labor-intensive only a small number of samples can be measured. Thus, we developed a fully automated method which includes a conventional HPLC system, a programmable autosampler, and UV detection. After GDA derivatization using DNPH the samples remain in the aqueous phase and no preconcentration of the analyte is necessary. The samples are automatically derivatized through the autosampler. While derivatization in one sample takes place the previous sample is injected and measured by HPLC. Our method is well suited for screening residual GDA in endoscopes as it is both time- and labor-saving. 相似文献
104.
Recently we investigated the influence of classical and emerging antibiotics on the proteome of Bacillus subtilis including in our studies actinonin, a potent novel inhibitor of peptide deformylase. The protein synthesis pattern under actinonin treatment changed so dramatically that a direct comparison to the control pattern was impossible. Dual channel imaging revealed that actinonin treatment caused the majority of newly synthesised proteins to accumulate in spots different from the ones usually observed, indicating a more acidic isoelectric point. Two strategies were used to investigate the nature of the charge shift. In the first place, protein patterns of a conditional peptide deformylase mutant under nonrepressing and repressing conditions were compared. Secondly, several protein pairs excised from two-dimensional (2-D) gels of the peptide deformylase mutant, exponentially growing untreated wild-type and the actinonin treated wild-type were investigated with matrix-assisted laser desorption/ionization and electrospray ionization (ESI) time of flight mass spectrometry (TOF MS) for the existence of N-terminal formylation. Under nonrepressing conditions the mutant protein pattern resembled that of the wild-type. The loss of peptide deformylase activity under repressing conditions led to the same pI shift observed for actinonin treatment in the wild-type. Quadrupole TOF-MS on 11 protein pairs proved that the remaining N-terminal formyl residue was indeed responsible for the charge shift. Eight of these protein pairs were also present on 2-D gels of exponentially growing B. subtilis, where the more acidic, still formylated protein species represented the smaller parts. 相似文献
105.
Basically no methods are available for the analysis of quantitative traits in longitudinal genetic epidemiological studies. We introduce a nonparametric factorial design for longitudinal data on independent sib pairs, modelling the phenotypic quadratic differences as the dependent variable. Factors are the number of alleles shared identically by descent (IBD) and the age categories at which the dependent variable is measured, allowing for dependence due to age. To identify a linked marker a rank statistic tests the influence of IBD group on phenotypic quadratic differences. No assumptions are made on normality or variances of the dependent variable. We apply our method to 71 sib pairs from the Framingham Heart Study data provided at the Genetic Analysis Workshop 13. For all 15 available markers on chromosome 17 we analyzed the influence on systolic blood pressure. In addition, different selection strategies to sample from the whole data are discussed. 相似文献
106.
Evidence of cytochrome P450-catalyzed cleavage of the ether bond of phenoxybutyrate herbicides in Rhodococcus erythropolis K2-3 总被引:3,自引:0,他引:3
Bacterial strain Rhodococcus erythropolis K2-3 can cleave theether bond of the phenoxybutyrate herbicides, i.e., 4-(2,4-dichlorophenoxy)butyrate(2,4-DB) and 4-(4-chloro-2-methylphenoxy)butyrate (MCPB), by anenzyme system that is constitutively expressed. The enzyme(s) involved were investigated in this study. The rate ofdisappearance of 2,4-DB determined in a whole cell assay amounted to0.6 mmol/h ¶ gdry mass.Carbon monoxide difference spectra of dithionite-reduced wholecells and crude cell extracts suggested that strain K2-3 contains a soluble cytochrome P450(P450), named P450PB-1. The addition of various phenoxybutyrate substrates to crude cell extracts resulted in typical difference spectra following the type I pattern ofsubstrate binding with P450. The rate of 2,4-DB cleavage was reduced by inhibitors of P450: 5 mM metyrapone and carbon monoxide at a CO/O2 ratio of 10 reduced the activity by about 20%, and 70%, respectively. The ether cleaving activity completely disappearedafter disruption of the cells and could not be detected in crude extracts. To elucidate theenzymatic basis of this reaction, P450 was partially purified. With the resulting enzyme preparation,2,4-DB cleavage activity was re-established, becoming measurable after the addition of eitherphenazine methosulfate or ferredoxin and ferredoxin/NADP oxidoreductase from spinach. We detected no activities attributable to -ketoglutarate-dependent dioxygenase orNAD(P)H-dependent monooxygenase. These results collectively indicatethat cleavage of the ether bond of phenoxybutyrate herbicides is catalyzed by P450-mediated activityin this strain. One of the products derived from this reaction is dichlorophenol, and comparativechromatographic analyses suggest that the other product is a C4-carbonicacid, most likely succinic semialdehyde/succinate. 相似文献
107.
108.
Hardin SC Tang GQ Scholz A Holtgraewe D Winter H Huber SC 《The Plant journal : for cell and molecular biology》2003,35(5):588-603
Sequence analysis identified serine 170 (S170) of the maize (Zea mays L.) SUS1 sucrose synthase (SUS) protein as a possible, second phosphorylation site. Maize leaves contained two calcium-dependent protein kinase activities and a calcium-independent kinase activity with characteristics of an sucrose non-fermenting 1 (SNF1)-related protein kinase. Phosphorylation of the novel S170 and the known serine 15 (S15) site by these protein kinases was determined in peptide substrates and detected in SUS1 protein substrates utilizing sequence- and phosphorylation-specific antibodies. We demonstrate phosphorylation of S170 in vitro and in vivo. The calcium-dependent protein kinases phosphorylated both S170 and S15, whereas SNF1-related protein kinase activity was restricted to S15. Calcium-dependent protein-kinase-mediated S170 and S15 phosphorylation kinetics were determined in wild-type and mutant SUS1 substrates. These analyses revealed that kinase specificity for S170 was threefold lower than that for S15, and that phosphorylation of S170 was stimulated by prior phosphorylation at the S15 site. The SUS-binding peptides encoded by early nodulin 40 (ENOD40) specifically antagonized S170 phosphorylation in vitro. A model wherein S170 phosphorylation functions as part of a mechanism targeting SUS for proteasome-mediated degradation is supported by the observations that SUS proteolytic fragments: (i) were detected and possessed relatively high phosphorylated-S170 (pS170) stoichiometry; (ii) were spatially coincident with proteasome activity within developing leaves; and (iii) co-sedimented with proteasome activity. In addition, full-length pS170-SUS protein was less stable than S170-SUS in cultured leaf segments and was stabilized by proteasome inhibition. Post-translational control of SUS protein level through pS170-promoted proteolysis may explain the specific and significant decrease in SUS abundance that accompanies the sink-to-source transition in developing maize leaves. 相似文献
109.
A new multicolor-FISH approach for the characterization of marker chromosomes: centromere-specific multicolor-FISH (cenM-FISH) 总被引:6,自引:0,他引:6
Nietzel A Rocchi M Starke H Heller A Fiedler W Wlodarska I Loncarevic IF Beensen V Claussen U Liehr T 《Human genetics》2001,108(3):199-204
Centromere-specific multi-color FISH (cenM-FISH) is a new multicolor FISH technique that allows the simultaneous characterization of all human centromeres by using labeled centromeric satellite DNA as probes. This approach allows the rapid identification of all human centromeres by their individual pseudo-coloring in one single step and is therefore a powerful tool in molecular cytogenetics. CenM-FISH fills a gap in multicolor karyotyping using WCP probes and distinguishes all centromeric regions apart from the evolutionary highly conserved regions on the chromosomes 13 and 21. The usefulness of the cenM-FISH technique for the characterization of small supernumerary marker chromosomes with no (or nearly no) euchromatin and restricted amounts of available sample material is demonstrated in prenatal, postnatal, and tumor cytogenetic cases. In addition, rarely described markers with the involvement of heterochromatic material inserted into homogeneously staining regions could be identified and characterized by using the cenM-FISH technique. 相似文献
110.
Susannetom Dieck Lydia Sanmartí-Vila Kristina Langnaese Karin Richter Stefan Kindler Antje Soyke Heike Wex Karl-Heinz Smalla Udo K?mpf Jürgen-Theodor Fr?nzer Markus Stumm Craig C. Garner Eckart D. Gundelfinger 《The Journal of cell biology》1998,142(2):499-509
The molecular architecture of the cytomatrix of presynaptic nerve terminals is poorly understood. Here we show that Bassoon, a novel protein of >400,000 M
r, is a new component of the presynaptic cytoskeleton. The murine bassoon gene maps to chromosome 9F. A comparison with the corresponding rat cDNA identified 10 exons within its protein-coding region. The Bassoon protein is predicted to contain two double-zinc fingers, several coiled-coil domains, and a stretch of polyglutamines (24 and 11 residues in rat and mouse, respectively). In some human proteins, e.g., Huntingtin, abnormal amplification of such poly-glutamine regions causes late-onset neurodegeneration. Bassoon is highly enriched in synaptic protein preparations. In cultured hippocampal neurons, Bassoon colocalizes with the synaptic vesicle protein synaptophysin and Piccolo, a presynaptic cytomatrix component. At the ultrastructural level, Bassoon is detected in axon terminals of hippocampal neurons where it is highly concentrated in the vicinity of the active zone. Immunogold labeling of synaptosomes revealed that Bassoon is associated with material interspersed between clear synaptic vesicles, and biochemical studies suggest a tight association with cytoskeletal structures. These data indicate that Bassoon is a strong candidate to be involved in cytomatrix organization at the site of neurotransmitter release. 相似文献