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1.
The fate of 3H-labeled str-r fus-s DNA from Streptococcus pneumoniae, bound after a 1-min uptake to 14C-labeled str-s fus-r S. sanguis recipients, was followed by techniques previously developed for analyzing the fate of homospecific DNA. Heterospecific S. pneumoniae DNA was bound and formed complexes with recipient protein in a manner similar to that of homospecific DNA but transformed relatively poorly. The rate at which complexed heterospecific DNA becomes physically associated with recipient DNA, and at which donor markers are integrated into the chromosome, was slower than in the case of homospecific DNA. In addition, about half of the heterospecific donor counts initially bound in trichloracetic acid-insoluble form were gradually solubilized and released from the cell. The association of heterospecific DNA with the recipient chromosome was more unstable than that involving homospecific DNA, since only associations of the former type were largely dissociated by isolation and resedimentation. The donor DNA-containing material so dissociated had the same sedimentation properties as complexed heterospecific DNA before association, indicating that the complex of single-stranded donor DNA and recipient protein formed on uptake moves as a whole from its site of formation to synapse with the chromosome.  相似文献   

2.
Fate of homospecific transforming DNA bound to Streptococcus sanguis.   总被引:10,自引:9,他引:1       下载免费PDF全文
The fate of [3H]DNA from Streptococcus sanguis str-r43 fus-s donors in [14C]S. sanguis str-s fus-r1 recipients was studied by examining the lysates prepared from such recipients at various times after 1 min of exposure to DNA. The lysates were analyzed in CsCl and 10 to 30% sucrose gradients; fractions from the gradients were tested for biological activity and sensitivity to nucleases, subjected to various treatments and retested for nuclease sensitivity, and run on 5 to 20% neutral and alkaline sucrose gradients. The results demonstrate that donor DNA bound to S. sanguis cells in a form resistant to exogenous deoxyribonuclease is initially single stranded and complexed to recipient material. Donor DNA can be removed from the complex upon treatment of the complex with Pronase, phenol, or isoamyl alcohol-chloroform. Within the complex, donor DNA is relatively insensitive to S1 endonuclease but can regain its sensitivity by treatment with phenol. With time the complex moves as a whole to associate physically with the recipient chromosome. After a noncovalent stage of synapsis, donor material is covalently bonded to and acquires the nuclease sensitivity of recipient DNA, while donor markers regain transforming activity and become linked to resident markers.  相似文献   

3.
Female carriers of the T(5;12)31H reciprocal translocation had an average reduction of 73% in oocyte numbers compared with normal litter mates, which was of a magnitude similar to the reduction in sperm counts of male carriers. Analysis of synaptonemal complexes showed that the translocated chromosomes appeared as quadrivalents, or trivalents and univalents, or bivalents in both sexes. Quadrivalents were of three types: fully synapsed, with asynapsis confined to breakpoints, and with unsynapsed ends. There was more pairing in spermatocytes than in oocytes: 37% of spermatocytes, but only 14% of oocytes, contained a fully synapsed quadrivalent, and trivalents were also more frequently fully synapsed in spermatocytes. When these results are compared with those previously obtained for other chromosome anomalies, it becomes evident that there are considerable differences in chromosome pairing between males and females, and that different chromosome rearrangements differ in the relative amount of pairing failure occurring in male and female carriers.  相似文献   

4.
Solution structural studies of the Ag(I)-DNA complex.   总被引:5,自引:3,他引:2       下载免费PDF全文
We report equilibrium dialysis and electric dichroism studies of the two strong complexes (I and II) of silver ion with DNA. Cooperative conversion of DNA to the stronger type I complex results in a 9% length decrease, and a structure in which intercalated ethidium is perpendicular to the helix axis. Upon addition of more Ag+ to form the type II complex, the DNA length reverts to its original value and bound ethidium once again becomes tilted from the plane perpendicular to the helix axis. In both type I and type II Ag (I) - DNA complexes, ethidium binding is mildly cooperative. We interpret the results in terms of a sequence of silver-induced cooperative switches of DNA from its B-form structure with propeller twisted base pairs to a structure with flat base pairs in the type I complex, and back again to propellered base pairs in the type II complex.  相似文献   

5.
Genetic transformation in recA1 strains of Bacillus subtilis was studied to test the hypothesis that, in these strains, a major pathway of recombination is missing, leaving only residual transformation via a pathway specific for transduction. The two putative recombinational pathways have been hypothesized to differ in either length of synapsed regions or specificity for nucleotide sequence homology. It was found that the efficiency of transformation of recA1 cells by deoxyribonucleic acid (DNA) from the heterologous strain W23 was much lower than when a homologous donor DNA was used, the relative efficiency being different for different genetic markers. Because the frequency of recombination between linked markers is only slightly changed in recA1 recipients, and because markers of heterologous origin in DNA from intergenotic strains are not discriminated against strongly by recA1 recipients, it is concluded that neither a difference in length of synapsed DNA nor a difference in specificity for nucleotide sequence homology accounts for reduced transformation in recA1 cells. It is proposed that at some time between uptake and integration, heterologous DNA is inactivated by restriction, and that aberrant restriction of repaired regions may account for reduced transformation by homologous DNA.  相似文献   

6.
4,5',8-Trimethylpsoralen (TMP) monoadducts inactive transforming deoxyribonucleic acid (DNA) in Bacillus subtilis. Contrary to TMP diadducts (TMP cross-links), which severely inhibit entry of donor DNA (G. Venema and U. Canosi, Mol. Gen. Genet. 179:1--11), TMP monoadducts have only a slight effect on entry. Since reextracted TMP-monoadduct-containing transforming DNA is a differentially repaired by Uvr- and Uvr+ recipients and cross-linkable to the recipient strand in the heteroduplex recombinant DNA molecules, the monoadducts can be integrated along with the donor DNA into the recipient chromosome.  相似文献   

7.
The synapsis of DNA sites is a prerequisite for the reactions of many proteins that act at specific DNA sequences. The requirement for synapsis was investigated by analysing the reactions of Sfi I, a tetrameric restriction enzyme that cleaves DNA only after interacting with two recognition sites. In the presence of Mg2+, oligonucleotide duplexes with the cognate recognition sequence were cleaved rapidly, with cooperative kinetics, while non-cognate duplexes were not cleaved. In the absence of Mg2+, the primary complex formed by Sfi I with cognate DNA contained two duplexes synapsed by the tetramer: a secondary complex containing one duplex was seen only at elevated Sfi I concentrations. In contrast, the principal complex with non-cognate DNA contained one duplex bound to Sfi I. Pairs of non-cognate duplexes, or one cognate and one non-cognate duplex, generally failed to form synaptic complexes. On adding Mg2+to complexes with cognate DNA, cleavage occurred much more rapidly in the synaptic complex than in the secondary complex. DNA synapsis thus acts to enhance the specificity of Sfi I for its recognition sequence, by demanding two cognate sites for a catalytically active complex and by excluding non-cognate sites from the synaptic complex.  相似文献   

8.
The antitumor agent amsacrine, 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), when bound to double-stranded DNA, particularly poly(deoxyadenylicthymidylic acid), reduced the fluorescence of bound ethidium without physically displacing it from DNA. Fluorescence lifetime measurements showed that the reduction of fluorescence was not due to reduction of the lifetime of the excited state of ethidium. Rather, a proportion of the DNA-bound ethidium changed to a state where the fluorescence was highly quenched. Several other 9-anilinoacridine derivatives, and also 9-hydroxyellipticine, caused quenching of ethidium-DNA fluorescence, whereas 9-aminoacridine, proflavin, and ellipticine had no effect. Resonance energy transfer (F?rster transfer) is not responsible for the effect since there is no spectral overlap between the absorption spectrum of any of the agents and the fluorescence emission spectrum of ethidium. It is suggested that quenching may occur as a result of reversible formation of electron-transfer complexes between the intercalating drug and the excited state of ethidium.  相似文献   

9.
Dexamethasone, a glucocorticoid steroid, can dilate the nuclear pore complexes and translocate into the nucleus when it is bound to its glucocorticoid receptor, suggesting that the transport of DNA into the nucleus may be facilitated by the reagent. In this research, dexamethasone was conjugated to low molecular weight polyethylenimine (2 kDa) for efficient translocation of the polymer/DNA complex into the nucleus. Polyethylenimine (PEI)-dexamethasone (PEI-Dexa) was synthesized by one-step reaction using the Traut's reagent. In gel retardation assay, the PEI-Dexa/DNA complex was completely retarded at or above 0.3/1 weight ratio (polymer/DNA). The average size distributions and zeta-potential values of the complexes were measured at various weight ratios. In vitro transfection assay showed that the PEI-Dexa/DNA complex had higher gene delivery efficiency compared to PEI 2kDa/DNA complex. The localization of PEI-Dexa/plasmid DNA complexes in the nucleus was confirmed by using total internal reflection fluorescence and Nomarski differential interference contrast microscope as well as confocal microscope. Therefore, with efficient nuclear translocation and low cytotoxicity, PEI-Dexa may be useful for nonviral gene therapy.  相似文献   

10.
M Mizuuchi  T A Baker  K Mizuuchi 《Cell》1992,70(2):303-311
Discovery and characterization of a new intermediate in Mu DNA transposition allowed assembly of the transposition machinery to be separated from the chemical steps of recombination. This stable intermediate, which accumulates in the presence of Ca2+, consists of the two ends of the Mu DNA synapsed by a tetramer of the Mu transposase. Within this stable synaptic complex (SSC), the recombination sites are engaged but not yet cleaved. Thus, the SSC is structurally related to both the cleaved donor and strand transfer complexes, but precedes them on the transposition pathway. Once the active protein-DNA complex is constructed, it is conserved throughout transposition. The participation of internal sequence elements and accessory factors exclusively during SSC assembly allows recombination to be controlled prior to the irreversible chemical steps.  相似文献   

11.
Summary Transformation in B. subtilis is achieved by the uptake of donor DNA into recipient cells and the integration of part of this donor DNA into the host chromosome. The evidence presented in this report is interpreted to indicate that donor double helical DNA, on entry into host cells is rapidly membrane bound and can remain in this state for a consicerable time, perhaps even until integration. This bound DNA consists of molecules which have been reduced in size and degraded on uptake, and appear as partially single-stranded molecules. It is suggested that the donor DNA initially forms single strands which rapidly assume a partially single stranded nature by association with the host DNA or by reannealing.Host cells, by virtue of the competent state, possess temporarily, and prior to the addition of donor DNA, chromosomes with single-stranded gaps. It is likely that such gaps are larger than the single-stranded segments of donor DNA which are to be integrated. Results are described which are best explained if integration is achieved by an initial annealing between the single-stranded donor and host segments followed by their covalent linkage.  相似文献   

12.
The effect of the antitumour acridine derivative amsacrine [4'-(9-acridinylamino)methanesulphon-m-anisidide] on the fluorescence lifetime of DNA-bound ethidium has been investigated using a synchronously pumped cavity dumped dye laser producing picosecond pulses for sample excitation and a time-correlated single photon counting detection system. As the proportion of DNA-bound amsacrine on the synthetic DNA polymer poly[deoxyadenylic-thymidylic acid] is increased, the fluorescence decay curve of ethidium can be accurately resolved into two exponential components. The short lifetime component, whose proportion increases with increasing proportions of DNA-bound amsacrine, has a lifetime of between 3 and 4 ns, significantly longer than that of ethidium in aqueous solution (1.63 ns). The magnitude of the long lifetime component decreases from 25.4 to 14 ns with increasing proportions of bound amsacrine. It is concluded that a new fluorescence state of ethidium (lifetime 3-4 ns) is present, probably resulting from reversible electron transfer between ethidium and amsacrine. The ability of various 9-anilinoacridine derivatives to quench the fluorescence of DNA-bound ethidium appears to be related to the electron donor properties of the substituents on the anilino ring, as well as to experimental antitumour activity. The electron donor properties of DNA-bound amsacrine may therefore be relevant to its antitumour action.  相似文献   

13.
B Q Ferguson  D C Yang 《Biochemistry》1986,25(18):5298-5304
Ethidium binds tRNAfMet with 17-fold enhancement in the emission intensity at 600 nm. Fluorescence titration of tRNAfMet with ethidium indicates a single high-affinity site in tRNAfMet with a dissociation constant of 5 microM. Ethidium is apparently rigidly bound to tRNAfMet and effectively shielded from solvent. tRNAfMet(8-13), tRNAfMet(3'-Flc), and tRNAfMet(D-PF) with fluorophores at thiouridine, the 3'-terminus, and dihydrouridine, respectively, are prepared, and the singlet-singlet energy-transfer efficiencies between these fluorophores and noncovalently bound ethidium are determined. The transfer efficiency between bound ethidium and the fluorophore in tRNAfMet(8-13) determined by donor quenching and sensitized emission is the same, strongly suggesting that there is only one bound ethidium per tRNAfMet molecule. The apparent distances between ethidium and various fluorophores including 3'-fluorescein, the 8-13 photo-cross-link, and D-proflavin are 41, 19, and 30 A, respectively, assuming random orientation between the donor and the acceptor. The results suggest that noncovalently bound ethidium is intercalated in the amino acid acceptor stem. In the complex of tRNAfMet and methionyl-tRNA synthetase, the transfer efficiencies for the tRNAfMet(8-13), tRNAfMet(3'-Flc), and tRNAfMet(D-PF) are reduced, enhanced, and little changed, respectively. These methionyl-tRNA synthetase induced changes suggest changes in the conformation of the 3'-terminal unpaired bases and the relative orientation or location between tRNAfMet and ethidium upon binding of methionyl-tRNA synthetase.  相似文献   

14.
The irreversible dissociation kinetics of complexes of M13-encoded gene-5 protein with the polynucleotides poly(dA) and M13 DNA was studied by means of stopped-flow experiments. A linear decay was found for all gene-5-protein.poly(dA) complexes and for the gene-5-protein.M13 DNA complexes for which the DNA lattice was completely saturated at the beginning of the dissociation experiments. Only at the end of the dissociation curve was a deviation from linearity observed. A single-exponential decay was found for the dissociation of gene-5-protein.M13 DNA complexes when the DNA was not completely saturated initially. These results could be interpreted by assuming that dissociation of bound protein is only possible from isolated binding sites, while during the dissociation, rearrangement of bound protein clusters takes place continuously, including the formation of newly isolated bound protein. This redistribution results from a translocation of the protein along the lattice, which, for the poly(dA) complex, is fast with respect to the dissociation step, but which is slow for the M13 DNA complex. During this process the equilibrium cluster distribution predicted by the theory of McGhee and Von Hippel is not maintained. The binding of gene-5 protein to poly(dA) or poly(dT) does not result in a broadening of the nucleotide resonances in the NMR spectra of these polynucleotides, as had been observed for E. coli DNA-binding protein and interpreted as an indication for a high rate of translocation of the protein on the polynucleotide. The absence of line broadening for gene-5-protein.polynucleotide complexes is caused by the high binding cooperativity. As a consequence the majority of the protein molecules are bound in a cluster which makes the concentration of isolated bound protein very low. This results in a decrease of the signal/noise ratio at higher degrees of binding, but does not lead to line broadening while fast translocation still occurs.  相似文献   

15.
The pathways whereby Sox2 scans DNA to locate its specific binding site are investigated by NMR in specific and nonspecific Sox2·DNA complexes and in a specific ternary complex with Oct1 on the Hoxb1 regulatory element. Direct transfer of Sox2 between nonspecific sites on different DNA molecules occurs without dissociation into free solution at a rate of ~10(6) M(-1) s(-1), whereas one-dimensional sliding proceeds with a diffusion constant of ≥0.1 μm(2)·s(-1). Translocation of Sox2 from one specific DNA site to another occurs via jumping, involving complete dissociation into free solution (k(d) ~5-6 s(-1)) followed by reassociation (k(a) ~5 × 10(8) M(-1) s(-1)). In the presence of Oct1 bound to an adjacent specific site, k(d) is reduced by more than 10-fold. Paramagnetic relaxation measurements, however, demonstrate that sparsely populated (<1%), transient states involving nonspecifically bound Sox2 in rapid exchange with specifically bound Sox2 are sampled in both binary Sox2·DNA- and ternary Oct1·Sox2·Hoxb1-DNA-specific complexes. Moreover, Sox2 modulates the mechanism of translocation of Oct1. Both Sox2 and the Oct1 POU(HD) domain are transiently released from the specific ternary complex by sliding to an adjacent nonspecific site, followed by direct transfer to another DNA molecule, whereas the Oct1 POU(S) domain is fixed to its specific site through direct interactions with Sox2. Intermolecular translocation of POU(HD) results in the formation of a bridged intermediate spanning two DNA molecules, enhancing the probability of complete intermolecular translocation of Oct1. By way of contrast, in the specific Oct1·DNA binary complex, POU(S) undergoes direct intermolecular translocation, whereas POU(HD) scans the DNA by sliding.  相似文献   

16.
The equilibria and kinetics of the interaction of the Zn(II) and Cu(II) complexes of the macrocyclic polyamine 2,5,8,11-tetraaza[12]-[12](2,9)[1,10]-phenanthrolinophane (Neotrien) with calf thymus DNA have been investigated at pH=7.0 and T=25 degrees C by spectrophotometry, spectrofluorimetry and stopped-flow method. At low dye/polymer ratios both complexes bind to DNA according to the excluded site model. At high dye/polymer ratios the binding displays cooperative features. The logarithm of the binding constant depends linearly on -log[NaCl]. The kinetic results suggest the D + S <==> D, S <==> DS mechanism where the metal complexes (D) react with the DNA sites (S) leading to fast formation of an externally bound form (D,S) which, in turn, is converted into internally bound complex (DS) by intercalation. The binding constants, evaluated as ratios of rate constants, agree with those obtained from equilibrium binding experiments, thus confirming the validity of the proposed model. Fluorescence titrations, where the metal-Neotrien complexes were added to DNA previously saturated with ethidium bromide (EB), show that both complexes displace EB from the DNA cavities. The reverse process, i.e. the addition of excess ethidium to the DNA/metal Neotrien systems, leads to fluorescence recovery for DNA/ZnNeotrien but not for DNA/CuNeotrien. This observation suggests that the binding of CuNeotrien induces deep alterations in the DNA structure. Experiments with Poly(dA-dT)*Poly(dA-dT) and Poly(dG-dC)*Poly(dG-dC) reveal that CuNeotrien mainly affects the structure of the latter polynucleotide.  相似文献   

17.
A. Weith  W. Traut 《Chromosoma》1986,94(2):125-131
Microspread pachytene nuclei of wild-type and W chromosome mutants of the mealmoth Ephestia kuehniella were used to study synaptonemal complex (SC) formation. In structurally heterozygous bivalents, axial elements of considerable length differences were brought to the same length by synaptic adjustment. The adjustment length was a compromise between the mutant and the wildtype homologue length in a structural heterozygote of a W chromosome-autosome translocation, T(A; W). The translocated non-homologous W segment really participated in SC formation as could be seen from the W chromosomal heterochromatin, used as a cytogenetic marker. Pachytene pairing of the wild-type W-Z bivalent extended from about two-thirds to the full length of the W chromosome, though from cytogenetic and genetic evidence W and Z are largely — if not completely — non-homologous. Nonhomologous pairing was even more conspicuous in sex chromosome bivalents containing a deleted W chromosome, Df(W). In one of the pairing configurations the halves of the Z chromosome were synapsed to either side of the Df(W). Thus, one side was pairing with the Df(W) in reversed order. The pairing behavior of the W with homologous chromosome segments was tested by introducing supernumerary W segments via the T(A; W) translocation. Pairing between the W and the translocated homologous W segment never occurred, whereas the Z frequently synapsed with it. Even in T(A; W) homozygotes, pairing between the two translocated W segments was not regularly found while the autosomal parts of the translocation chromosomes were always completely paired. Homologous chromosomes and the ability to form an SC are not sufficient for pairing initiation. Specific loci or sequences are postulated for this function. They are either absent from the W chromosome or are present in only low concentrations.  相似文献   

18.
Comparative 1H NMR and optical studies of the interaction between poly(dA-dT), ethidium bromide (Et) and ethidium dimer (Et2) in 0.7 M NaCl are reported as a function of the temperature. Denaturation of the complexes followed at both polynucleotide and drug levels leads to a biphasic melting process for poly(dA-dT) complexed with ethidium dimer (t1/2 = 75 degrees C; 93 degrees C) but a monophasic one in poly(dA-dT): ethidium bromide complex (t1/2 = 74 degrees C). In both cases drug signals exhibit monophasic thermal dependence (Et = 81 degrees C; Et2 = 95 degrees C). Evidence is presented showing that the ethidium dimer bisintercalates into poly(dA-dT) in high salt, based on the observation that i) dimer and monomer ring protons exhibit similar upfield shifts upon DNA binding, ii) upfield shifts of DNA sugar protons are twice as large with the dimer than with ethidium bromide. Comparison between native DNA fraction and bound drug fraction indicates that ethidium covers, n = 2.5-3 base pairs. The dimer bisintercalates and covers, n = 5.7 base pairs when the helix fraction is high but as the number of available sites decreases the binding mode changes and the drug monointercalates (n = 2.9).  相似文献   

19.
Summary Competent Streptococcus sanguis treated with non-lethal doses of coumermycin Al immediately before or after uptake of radioactive transforming DNA were reduced in their capacity to yield transformants. This treatment did not alter bacterial ability to bind DNA in DNase I-resistant form, nor did it prevent the single-stranded donor DNA-recipient protein complexes formed upon uptake at the surface of the bacteria from translocating to chromosomal sites. Inhibition of transformation by heterospecific DNA was greater than that by homospecific DNA. The reduction in transformant yield was not accompanied by any loss of donor counts incorporated into the recipient chromosome, but rather by a loss of genetic activity of incorporated donor material indicating a failure of genetic integration and degradation of donor DNA as a consequence of coumermycin treatment. The inhibitory effect of coumermycin on transformation was associated with in vivo loss of chromosomal DNA superhelicity. The chromosomal DNA remained intact, however, indicative of inhibition of a gyrase-like enzyme responsible for the maintenance of negative supercoiling of the S. sanguis chromosome. Upon treatment with the drug, a coumermycin-resistant mutant strain showed neither loss of chromosomal superhelicity nor any inhibitory effect on genetic integration of donor DNA. The evidence supports the idea that chromosomal superhelicity promotes genetic recombination in vivo.  相似文献   

20.
Mumm JP  Landy A  Gelles J 《The EMBO journal》2006,25(19):4586-4595
The site-specific recombination pathway by which the bacteriophage lambda chromosome is excised from its Escherichia coli host chromosome is a tightly regulated, highly directional, multistep reaction that is executed by a series of multiprotein complexes. Until now, it has been difficult to study the individual steps of such reactions in the context of the entire pathway. Using single-molecule light microscopy, we have examined this process from start to finish. Stable bent-DNA complexes containing integrase and the accessory proteins IHF (integration host factor) and Xis form rapidly on attL and attR recombination partners, and synapsis of partner complexes follows rapidly after their formation. Integrase-mediated DNA cleavage before or immediately after synapsis is required to stabilize the synaptic assemblies. Those complexes that synapsed (approximately 50% of the total) yield recombinant product with a remarkable approximately 100% efficiency. The rate-limiting step of excision occurs after synapsis, but closely precedes or is concomitant with the appearance of a stable Holliday junction. Our kinetic analysis shows that directionality of this recombination reaction is conferred by the irreversibility of multiple reaction steps.  相似文献   

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