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1.
Size classes of replication units in DNA from sea urchin embryos   总被引:4,自引:1,他引:3       下载免费PDF全文
Sea urchin DNA containing replication structures was isolated from two to four cell stage and blastula stage embryos, and examined by electron microscopy. In addition to the expected eye forms, we also observed molecules with large internal single-stranded gaps. Such structures were not present in DNA devoid of replicating molecules such as that isolated from sea urchin sperm. When the size of eye forms and interbubble distances between the two stages were compared, there was no detectable difference. In both stages, we observed two distinct size classes of bubbles and of interbubble distances. In the case of bubble sizes, the smaller size class was comprised of clustered microbubbles that ranged from 200 base pairs to 1 Kilobase (kb) with a mean of 432 base pairs. The large eye forms measured 1--35 kb with a mean of 6.8 kb. Interbubble distances also yielded two distinct populations, with the smaller class ranging from 400 base pairs to 2.3 kb (mean = 1.1 kb) and the larger population ranging from 2.8 to 36 kb (mean = 10.9 kb). Although other possibilities cannot be entirely excluded, the data support the contention that a substantial fraction of the larger eye-form population arises from the fusion of the clustered microbubbles.  相似文献   

2.
Sequence-dependent bending of the helical axes in 112 oligonucleotide duplex crystal structures resident in the Nucleic Acid Database have been analyzed and compared with the use of bending dials, a computer graphics tool. Our analysis includes structures of both A and B forms of DNA and considers both uncomplexed forms of the double helix as well as those bound to drugs and proteins. The patterns in bending preferences in the crystal structures are analyzed by base pair steps, and emerging trends are noted. Analysis of the 66 B-form structures in the Nucleic Acid Database indicates that uniform trends within all pyrimidine-purine and purine-pyrimidine steps are not necessarily observed but are found particularly at CG and GC steps of dodecamers. The results support the idea that AA steps are relatively straight and that larger roll bends occur at or near the junctions of these A-tracts with their flanking sequences. The data on 16 available crystal structures of protein-DNA complexes indicate that the majority of the DNA bends induced via protein binding are sharp localized kinks. The analysis of the 30 available A-form DNA structures indicates that these structures are also bent and show a definitive preference for bending into the deep major groove over the shallow minor groove.  相似文献   

3.
Cationic silanes stabilize intermediates in DNA condensation.   总被引:5,自引:0,他引:5  
Y Fang  J H Hoh 《FEBS letters》1999,459(2):173-176
In vitro condensation of DNA has been widely studied to gain insight into the mechanisms of DNA compaction in biological systems such as chromosomes and phage heads and has been used to produce nanostructured particles with novel material and functional properties. Here we report on the condensation of DNA in aqueous solutions by cationic silanes, which combine the condensing properties of polyamines with the cross-linking chemistry of silanes. DNA can be reversibly condensed into classical toroidal and rod-shaped structures with these agents. At low silane concentrations DNA forms a variety of looped structures with well-defined characteristics, including flower- and sausage-shaped forms. These structures suggest that at low silane concentrations a DNA-DNA contact in which the strands are at very large angles to each other is stabilized. Changes in these structures observed as a function of silane concentration suggest possible pathways for the formation of toroids and rods.  相似文献   

4.
In eukaryotes, DNA is packaged into a basic unit, the nucleosome which consists of 147 bp of DNA wrapped around a histone octamer composed of two copies each of the histones H2A, H2B, H3 and H4. Nucleosome structures are diverse not only by histone variants, histone modifications, histone composition but also through accommodating different conformational states such as DNA breathing and dimer splitting. Variation in nucleosome structures allows it to perform a variety of cellular functions. Here, we identified a novel spontaneous conformational switching of nucleosomes under physiological conditions using single-molecule FRET. Using FRET probes placed at various positions on the nucleosomal DNA to monitor conformation of the nucleosome over a long period of time (30–60 min) at various ionic conditions, we identified conformational changes we refer to as nucleosome gaping. Gaping transitions are distinct from nucleosome breathing, sliding or tightening. Gaping modes switch along the direction normal to the DNA plane through about 5–10 angstroms and at minutes (1–10 min) time scale. This conformational transition, which has not been observed previously, may be potentially important for enzymatic reactions/transactions on nucleosomal substrate and the formation of multiple compression forms of chromatin fibers.  相似文献   

5.
Crystallographic study of one turn of G/C-rich B-DNA   总被引:15,自引:0,他引:15  
The DNA decamer d(CCAGGCCTGG) has been studied by X-ray crystallography. At a nominal resolution of 1.6 A, the structure was refined to R = 16.9% using stereochemical restraints. The oligodeoxyribonucleotide forms a straight B-DNA double helix with crystallographic dyad symmetry and ten base-pairs per turn. In the crystal lattice, DNA fragments stack end-to-end along the c-axis to form continuous double helices. The overall helical structure and, notably, the groove dimensions of the decamer are more similar to standard, fiber diffraction-determined B-DNA than A-tract DNA. A unique stacking geometry is observed at the CA/TG base-pair step, where an increased rotation about the helix axis and a sliding motion of the base-pairs along their long axes leads to a superposition of the base rings with neighboring carbonyl and amino functions. Three-center (bifurcated) hydrogen bonds are possible at the CC/GG base-pair steps of the decamer. In their common sequence elements, d(CCAGGCCTGG) and the related G.A mismatch decamer d(CCAAGATTGG) show very similar three-dimensional structures, except that d(CCAGGCCTGG) appears to have a less regularly hydrated minor groove. The paucity of minor groove hydration in the center of the decamer may be a general feature of G/C-rich DNA and explain its relative instability in the B-form of DNA.  相似文献   

6.
Cell-free virus preparations from persistently infected monoblastoid cells (HU937) become progressively less infectious during long-term passage. This effect is specific for cell lines derived from U937 and is not observed in persistently infected T-cell lines. Reduced infectivity is correlated with accumulation of unusual, high-molecular-weight, extrachromosomal forms of the human immunodeficiency virus type 1 (HIV-1) DNA. These DNA molecules contain multiple copies of the viral genome, and their structures are highly variable. Of 17 subclones of the HU937 cell line, 15 unique restriction fragment patterns were observed for the HIV-1 viral DNA. Structural analysis of these viral DNA species indicated that they were formed by sequential rounds of long terminal repeat-mediated integration of one circular DNA form into preexisting monomeric or multimeric structures. These viral DNA structures are termed nested self-integrates. Once formed, self-integrates prove to be stable and can be maintained for several months in culture. The unusual structures of HIV-1 DNA in persistently infected monoblastoid cells attest to an alternative to the accepted retrovirus life cycle. The self-integrated viral DNA species reported here may explain some aspects of the mechanism controlling establishment and maintenance of persistent HIV-1 infection in cells of the monocyte/macrophage lineage.  相似文献   

7.
Aggregate formation from short fragments of plant DNA   总被引:4,自引:2,他引:2       下载免费PDF全文
Large aggregates have been observed after partial reassociation of pea (Pisum sativum L.) DNA preparations sheared to mean single strand fragment lengths as short as 350 nucleotides. At high DNA concentrations and conditions of salt and temperature which require only moderate precision of base pairing, aggregates pelletable by brief centrifugation account for 30 to 40% of the total DNA from peas, while calf thymus DNA reassociated under similar conditions forms less than 10% pelletable structures. In contrast to networks formed during the reassociation of long DNA fragments containing interspersed repetitive sequences, these aggregates contain a high percentage of double-stranded DNA and are enriched in repetitive sequences.  相似文献   

8.
Bacteriophage PRD1 is unusual, with an internal lipid membrane, but has striking resemblances to adenovirus that include receptor binding spikes. The PRD1 vertex complex contains P2, a 590 residue monomer that binds to receptors on antibiotic-resistant strains of E. coli and so is the functional counterpart to adenovirus fiber. P2 structures from two crystal forms, at 2.2 and 2.4 A resolution, reveal an elongated club-shaped molecule with a novel beta propeller "head" showing pseudo-6-fold symmetry. An extended loop with another novel fold forms a long "tail" containing a protruding proline-rich "fin." The head and fin structures are well suited to recognition and attachment, and the tail is likely to trigger the processes of vertex disassembly, membrane tube formation, and subsequent DNA injection.  相似文献   

9.
10.
DNA was extracted from embryos of the sea urchin, Hemicentrotus pulcherrimus, at the S phase and examined by electron microscopy. We detected replication microbubbles with a mean size of 404 bases, in addition to replication macrobubbles of more than 1.0 kilobase (kb) in length. Seventy-five percent of the center-to-center distances of the microbubbles were 0.6-1.8 kb with a mean of 1.2 kb. Forty-five percent of the microbubbles were arranged as clusters of four or five microbubbles. These results suggest that at least 34% of the initiation sites for DNA replication are present on a DNA molecule in clusters in which the sites are arranged at 1.2-kb intervals.  相似文献   

11.
Saha T  Usdin K 《FEBS letters》2001,491(3):184-187
The repeat expansion diseases are a group of genetic disorders resulting from an increase in size or expansion of a specific array of tandem repeats. It has been suggested that DNA secondary structures are responsible for this expansion. If this is so, we would expect that all unstable repeats should form such structures. We show here that the unstable repeat that causes progressive myoclonus epilepsy type-1 (EPM1), like the repeats associated with other diseases in this category, forms a variety of secondary structures. However, EPM1 is unique in that tetraplexes are the only structures likely to form in long unpaired repeat tracts under physiological conditions.  相似文献   

12.
Basal structure and attachment of flagella in cells of Proteus vulgaris   总被引:18,自引:14,他引:4  
Abram, Dinah (Purdue University, Lafayette, Ind.), Henry Koffler, and A. E. Vatter. Basal structure and attachment of flagella in cells of Proteus vulgaris. J. Bacteriol. 90:1337-1354. 1965.-The attachment of flagella to cells of Proteus vulgaris was studied electron microscopically with negatively stained and shadow-cast preparations of ghosts from standard cultures and from special cultures that produced "long forms." The flagellum, the basal portion of which is hooked, arises within the cell from a nearly spherical structure, 110 to 140 A in diameter. This structure appears to be associated with the cytoplasmic membrane; it may be a part of the membrane or a separate entity that lies just beneath the membrane. Flagella associated with cell walls free from cytoplasmic membrane frequently have larger bodies, 200 to 700 A in diameter, associated with their base. These structures probably consist at least partly of fragments of the cytoplasmic membrane, a portion of which folds around a smaller structure. Flagella in various stages of development were observed in long forms of P. vulgaris cells grown at low temperature. The basal structure of these flagella was similar to that of the long or "mature" flagella. Strands connecting the basal structures were observed in ghosts of long forms; these strands appear to be derived from the cytoplasmic membrane. Flagella were found to be attached to fragments of cell wall and to cytoplasmic membrane in a similar manner as they are attached to ghosts. In isolates of flagella that have been separated from the cells mechanically, the organelles often terminate in hooks which almost always appear naked, but have a different fine structure than the flagellum proper.  相似文献   

13.
Solution structures and base pair stacking of a self- complementary DNA hexamer d(CGTACG)(2) have been studied at 5, 10 and 15 degrees C, respectively. The stacking interactions among the center base pair steps of the DNA duplex are found to improve when the terminal base pairs became less stable due to end fraying. A new structural quantity, the stacking sum (Sigma(s)), is introduced to indicate small changes in the stacking overlaps between base pairs. The improvements in the stacking overlaps to maintain the double helical conformation are probably the cause for the observed temperature dependent structural changes in double helical DNA molecule. A detailed analysis of the helical parameters, backbone torsion angles, base orientations and sugar conformations of these structures has been performed.  相似文献   

14.
A new coarse-grained model of the DNA molecule has been proposed, which was elaborated on the basis of its all-atomic model analysis. The model has been shown to rather well reproduce the DNA structure under low and room temperatures. The Young's and torsion moduli calculated using the coarse-grained model are in close agreement with experimental data and the theoretical results of other authors. The model can be used for DNA fragments of several hundreds base pairs for rather long time scales (of the order of micros) and for simulating their interactions with other structures.  相似文献   

15.
16.
As gene delivery reagents, microbubbles have been successfully used in combination with ultrasound. Shock wave exposure has been shown to transfect cells with naked DNA in vitro, but it has not been tested whether the addition of microbubbles would enhance DNA uptake with adenovirus vector. Therefore, the aim of this study was to study the efficacy and safety of multidrug resistance 1 (MDR1) gene transfer into the bone marrow mononuclear cells of rabbits using adenovirus vector enhanced by ultrasound with microbubbles in vitro. The transfection rate of the MDR1 gene was significantly increased by ultrasound microbubbles with adenovirus. After ultrasonic irradiation, there were transient holes in the cell membrane, which disappeared after irradiation by ultrasound for 24 h. The temporary swelling of the organelles was reversible. Our in vitro findings conclusively demonstrate that the exogenous MDR1 gene transfer into the mononuclear cells of rabbits with adenovirus vector was enhanced by the ultrasonic microbubbles and this transfection technique is safe.  相似文献   

17.
The structures of B-form and A-form DNA are studied in 0–70 and 70–80% ethanol solutions, respectively, in an electric field, using linear dichroism. The limiting reduced linear dichroism data of B-form DNA are chain length dependent in 0% ethanol solution. However, there is no such chain length dependence of the limiting reduced linear dichroism of the A-form. Our reslts also suggest that (1) the transition moments at 260 nm lie within the plaxe of the DNA bases, (2) the two allomorphs (A and B forms) of the long chain DNA in solution in the electric field are like the respective classica forms.  相似文献   

18.
The crystal structure of the Type IIP restriction endonuclease MspI bound to DNA containing its cognate recognition sequence has been determined in both monoclinic and orthorhombic space groups. Significantly, these two independent crystal forms present an identical structure of a novel monomer-DNA complex, suggesting a functional role for this novel enzyme-DNA complex. In both crystals, MspI interacts with the CCGG DNA recognition sequence as a monomer, using an asymmetric mode of recognition by two different structural motifs in a single polypeptide. In the crystallographic asymmetric unit, the two DNA molecules in the two MspI-DNA complexes appear to stack with each other forming an end-to-end pseudo-continuous 19-mer duplex. They are primarily B-form and no major bends or kinks are observed. For DNA recognition, most of the specific contacts between the enzyme and the DNA are preserved in the orthorhombic structure compared with the monoclinic structure. A cation is observed near the catalytic center in the monoclinic structure at a position homologous to the 74/45 metal site of EcoRV, and the orthorhombic structure also shows signs of this same cation. However, the coordination ligands of the metal are somewhat different from those of the 74/45 metal site of EcoRV. Combined with structural information from other solved structures of Type II restriction enzymes, the possible relationship between the structures of the enzymes and their cleavage behaviors is discussed.  相似文献   

19.
The conformational states of the self-complementary deoxyhexanucleotides d(GCATGC) and d(GCTAGC) capable of forming hairpin structures in aqueous solution have been studied by one- and two-dimensional 1H NMR spectroscopy and molecular dynamics simulations. The equilibrium thermodynamic parameters of the formation of duplex and hairpin forms have been determined, and the spatial structures of the d(GCATGC) and d(GCTAGC) conformers have been calculated. A comparative analysis of the thermodynamic and conformational parameters of self-association has been made. The molecular dynamics of the hexamer forms in the nanosecond time scale has been studied, and the mobility of their structural constituents has been evaluated. Possible reasons for the observed distinction in the thermodynamic stability of duplex and hairpin forms of the deoxyhexanucleotide sequences are discussed.  相似文献   

20.
The natural populations of salmon-like catadromous fishes usually include several percents of residual (dwarf) forms, which are 10-15 times smaller than normal forms. A comparative investigation of normal and residual forms in two species: Oncorhynchus nerka and Salvelinus malma (Salmoniformes order) was made by means of DNA molecular hybridization technique. The essential differences in reassociation kinetics was detected in DNA from normal and residual forms of both species. The genome sizes (kinetic complexity) of normal and residual forms are approximately the same. But some families of repetitive nucleotide sequences are represented by considerably different amount of copies. Intrapopulational differences of genome structures of normal and residual forms in both species seem to be more rough in respect to reassociation kinetic than corresponding interspecies differences between malma and nerka. Comparative analyses and reassociation kinetics for long and shrt DNA fragments imply "xenopus type" of nucleotide sequence organization in both species which is common for the majority of animal and plant genomes investigated.  相似文献   

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