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181.
Characterization of interaction between DNA and 4',6-diamidino-2-phenylindole by optical spectroscopy 总被引:6,自引:0,他引:6
We have examined the interaction between 4',6-diamidino-2-phenylindole (DAPI) and DNA using flow linear dichroism (LD), circular dichroism (CD), and fluorescence techniques. We show the presence of two spectroscopically distinct binding sites at low binding ratios with saturation values of 0.025 and 0.17, respectively. In both sites DAPI is bound with its long axis approximately parallel to the grooves of the DNA helix. Resolution of CD spectra shows that an exciton component is present at higher binding ratios, which we attribute to the interaction of two accidentally close-lying DAPI molecules. We also find evidence that DAPI, at least in the high-affinity site, binds preferentially to AT-rich regions. From the spectroscopic results, supported by structural considerations, we can completely exclude that DAPI is bound to DNA by intercalation. Binding geometries and site densities are consistent with a location of DAPI in the grooves of DNA, with the high-affinity site most probably in the minor groove. 相似文献
182.
The effects of a synthetic protein kinase C (PKC) activator, (-)-indolactam V (ILV), were studied in SH-SY5Y human neuroblastoma cells. (-)-ILV induced a translocation of PKC from cytosol to plasma membrane and displaced 3H-phorbol dibutyrate binding in the micromolar range. In addition, (-)-ILV caused a decreased sensitivity of cells to muscarinic agonist-induced Ca2+ mobilization measured with quin-2 and induced a down-regulation of cell surface muscarinic receptors. All the changes induced by (-)-ILV were similar in magnitude to those seen with the phorbol ester tetradecanoyl phorbol acetate (TPA). The results suggest that (-)-ILV is a full activator of PKC and a promising alternative to phorbol esters in studies on mechanism of actions of PKC. 相似文献
183.
Petraccone L Duro I Erra E Randazzo A Virno A Giancola C 《Nucleosides, nucleotides & nucleic acids》2007,26(6-7):675-679
Differential scanning calorimetry (DSC) and circular dichroism (CD) techniques were used to investigate the physico-chemical properties of the quadruplexes formed by the two different truncations of human telomeric sequence d(TAGGGT) and d(AGGGT), where the adenines were substituted by 2'-deoxy-8-(hydroxyl)adenosine (A --> A OH). CD spectra show that the modified sequences are able to form parallel-stranded quadruplex structure. Analysis of the thermodynamic parameters reveals that the introduction of the modified adenine affects in different way the thermal stability of the [d(TAGGGT)]4 and [d(AGGGT)]4 quadruplexes. 相似文献
184.
Myosin has an intrinsic ability to organize into ordered thick filaments that mediate muscle contraction. Here, we use surface plasmon resonance and light scattering analysis to further characterize the molecular determinants that guide myosin filament assembly. Both assays identify a cluster of lysine and arginine residues as important for myosin polymerization in vitro. Moreover, in cardiomyocytes, replacement of these charged residues by alanine severely affects the incorporation of myosin into the distal ends of the sarcomere. Our findings show that a novel assembly element with a distinct charge profile is present at the C-terminus of sarcomeric myosins.
Structured summary of protein interactions
WT LMMbinds to WT LMM by surface plasmon resonance (View Interaction)WT LMMbinds to CT2 LMM by surface plasmon resonance (View Interaction)WT LMMbinds to Alanine mutant LMM by surface plasmon resonance (View Interaction)WT LMM and WT LMMbind by light scattering (View Interaction)Alanine mutant LMM and Alanine mutant LMMbind by light scattering (View Interaction)WT LMM and Alanine mutant LMMbind by light scattering (View Interaction) 相似文献185.
Laing distal myopathy (MPD1) is a genetically dominant myopathy characterized by early and selective weakness of the distal muscles. Mutations in the MYH7 gene encoding for the β-myosin heavy chain are the underlying genetic cause of MPD1. However, their pathogenic mechanisms are currently unknown. Here, we measure the biological effects of the R1500P and L1706P MPD1 mutations in different cellular systems. We show that, while the two mutations inhibit myosin self-assembly in non-muscle cells, they do not prevent incorporation of the mutant myosin into sarcomeres. Nevertheless, we find that the L1706P mutation affects proper antiparallel myosin association by accumulating in the bare zone of the sarcomere. Furthermore, bimolecular fluorescence complementation assay shows that the α-helix containing the R1500P mutation folds into homodimeric (mutant/mutant) and heterodimeric [mutant/wild type (WT)] myosin molecules that are competent for sarcomere incorporation. Both mutations also form aggregates consisting of cytoplasmic vacuoles surrounding paracrystalline arrays and amorphous rod-like inclusions that sequester WT myosin. Myosin aggregates were also detected in transgenic nematodes expressing the R1500P mutation. By showing that the two MPD1 mutations can have dominant effects on distinct components of the contractile apparatus, our data provide the first insights into the pathogenesis of the disease. 相似文献
186.
Martino L Virno A Randazzo A Virgilio A Esposito V Giancola C Bucci M Cirino G Mayol L 《Nucleic acids research》2006,34(22):6653-6662
The solution structure of a new modified thrombin binding aptamer (TBA) containing a 5′–5′ inversion of polarity site, namely d(3′GGT5′-5′TGGTGTGGTTGG3′), is reported. NMR and CD spectroscopy, as well as molecular dynamic and mechanic calculations, have been used to characterize the 3D structure. The modified oligonucleotide is characterized by a chair-like structure consisting of two G-tetrads connected by three edge-wise TT, TGT and TT loops. d(3′GGT5′-5′TGGTGTGGTTGG3′) is characterized by an unusual folding, being three strands parallel to each other and only one strand oriented in opposite manner. This led to an anti-anti-anti-syn and syn-syn-syn-anti arrangement of the Gs in the two tetrads. The thermal stability of the modified oligonucleotide is 4°C higher than the corresponding unmodified TBA. d(3′GGT5′-5′TGGTGTGGTTGG3′) continues to display an anticoagulant activity, even if decreased with respect to the TBA. 相似文献
187.
Frénal K Callebaut I Wecker K Prochnicka-Chalufour A Dendouga N Zinn-Justin S Delepierre M Tomavo S Wolff N 《Biochemistry》2006,45(15):4867-4874
The parasite Toxoplasma gondii expresses a 55 kDa protein or TgDRE that belongs to a novel family of proteins characterized by the presence of three domains, a human splicing factor 45-like motif (SF), a glycine-rich motif (G-patch), and a RNA recognition motif (RRM). The two latter domains are mainly known as RNA-binding domains, and their presence in TgDRE, whose partial DNA repair function was demonstrated, suggests that the protein could also be involved in the RNA metabolism. In this work, we characterized the structure and function of the different domains by using single or multidomain proteins to define their putative role. The SF45-like domain has a helical conformation and is involved in the oligomerization of the protein. The G-patch domain, mainly unstructured on its own as well as in the presence of the SF upstream and RRM downstream domains, is able to bind small RNA oligonucleotides. We also report the structure determination of the RRM domain from the NMR data. It adopts a classical betaalphabetabetaalphabeta topology consisting of a four-stranded beta sheet packed against two alpha helices but does not present the key residues for the RNA interaction. In contrast, our analysis shows that the RRM of TgDRE is not only unable to bind small RNA oligonucleotides but it also shares the protein-protein interaction characteristics with two unusual RRMs of the U2AF heterodimeric splicing factor. The presence of both RNA- and protein-binding domains seems to indicate that TgDRE could also be involved in RNA metabolism. 相似文献
188.
189.
Mangrove sediment is well known for its susceptibility to anthropogenic pollution, including polycyclic aromatic hydrocarbons
(PAHs), but knowledge of the sediment microbial community structure with regards to exposure to PAHs is limited. The study
aims to assess the effects of PAHs on the bacterial community of mangrove sediment using both 16s rDNA polymerase chain reaction-denaturing
gradient gel electrophoresis (PCR-DGGE) and traditional enrichment methods. Both the exposure time and the PAH concentration
reduced the microbial diversity, as determined by the DGGE bands. Although PAHs could act as carbon sources for microorganisms,
PAHs, at a concentration as low as 20 mg l−1, posed a toxic effect to the microbial community. Sequencing of DGGE bands showed that marine bacteria from the genera of
Vibrio, Roseobacter, and Ferrimonas were most abundant after PAH exposure, which suggests that both marine and terrestrial bacteria coexisted in the mangrove
sediment, but that the marine microbes were more difficult to isolate using the traditional culture method. DGGE determination
further demonstrated that the consistency among triplicates of the enriched consortia was significantly less than that of
the sediment slurries. The present study reveals that the mangrove sediment microbial structure is susceptible to PAH contamination,
and complex microbial community interactions occur in mangrove sediment. 相似文献
190.