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1.
The EcoRV restriction endonuclease cleaves DNA not only at its recognition sequence but also at most other sequences that differ from the recognition site by one base pair. Compared to the reaction at the recognition site, the reactions at noncognate sites are slow but 1 out of the 12 noncognate sites on the plasmid pAT153 is cleaved more than 50 times faster than any other. The increase in the reaction rate at the preferred noncognate site, relative to other sites, was caused by the DNA sequences in the 4 base pairs from either side of the site. For enhanced activity by EcoRV, particular bases were needed immediately adjacent to the site, inside the DNA-protein complex. At these loci, the protein interacts with the phosphate groups in the DNA and the flanking sequence may control the activity of the enzyme by determining the conformation of the DNA, thus aligning the phosphate contacts. But the preferential cleavage also depended on sequences further away from the site, at loci outside the complex. At external positions, beyond the reach of the protein, the EcoRV enzyme required flanking sequences that give rise to flexibility in DNA conformation. These may facilitate the distortion of the DNA required for catalysis by EcoRV.  相似文献   

2.
Low salt extracts of chicken oviduct nuclei contain a DNA binding protein with high affinity for specific DNA sequences in the flanking regions of the chicken lysozyme gene. Two of the three binding sites found within a total of 11 kb upstream from the promoter are located only 92 bp apart from each other. Upon comparison of the DNA binding sites, the symmetrical consensus sequence 5'- TGGCANNNTGCCA -3' can be deduced as the protein recognition site. This sequence is the central part of 23 to 25 base pairs protected by the DNA binding protein from DNAase I digestion. A homologous binding activity can be detected in nuclei from several chicken tissues and from mouse liver.  相似文献   

3.
The simultaneous analysis of DNAase I "footprinting" data and restriction endonucleases inhibition data was performed on the same DNA end-labelled fragment. The inhibition induced by netropsin, a number of bis-netropsins and distamycin A was investigated. These experiments led us to the following conclusions. The restriction endonucleases inhibition by the ligands is caused by the ligand molecules binding in the close vicinity to the restriction endonuclease recognition sequence. The zone of +/- 4 bp from the center of the restriction endonuclease recognition sequence can be defined as the zone of the influence of the bounded ligand on the restriction endonuclease. But in this case the intersection of recognition sequence and the binding site occupied by a single ligand molecule is not sufficient for the inhibition to occur. Restriction endonuclease cutting sites protected by netropsin can be predicted basing upon known nucleotide sequence specificity of netropsin. Netropsin and bis-netropsins show different nucleotide sequence specificity. This fact can be used for selective inhibition of restriction endonucleases.  相似文献   

4.
Ability of the EcoRII restriction endonuclease to cleave 14-base-pair DNA duplexes with nucleotide substitutions in the recognition site CCA/TGG and in the adjacent base pair has been studied. Modifications leading to a local change in the substrate conformation (rU residue in and outside the recognition site, A.A- or A.C-pairs in the flanking sequence) reduce the rate of hydrolysis, the effect being maximal when the modified base pair is outside the recognition site. No digestion occurs when the internal dC-residue of the recognition site is 5-methylated in one or both strands. Replacement of dT residue in the EcoRII recognition site by dfl5U residue results in a dramatic inhibition of hydrolysis. Km and kcat for the cleavage of 14-base-pair DNA duplex have been determined. The cleavage rate of the dT-containing strand of the recognition site in 1.5 fold higher comparing with the dA-containing strand. The cleavage of both strands of the substrate by EcoRII endonuclease is confirmed to proceed in one enzyme-substrate complex.  相似文献   

5.
C M Low  H R Drew    M J Waring 《Nucleic acids research》1984,12(12):4865-4879
The technique of DNAase I footprinting has been used to investigate preferred binding sites for echinomycin on a 160-base-pair DNA fragment from E. coli containing the tyr T promoter sequence. Six binding sites have been precisely located in the sequence; a seventh has been partially identified. The minimum site-size is six base pairs. All the binding sites contain the dinucleotide sequence CpG but no other regularities can be discerned. When the protected regions on each complementary strand are compared it is evident that they are staggered by 2-3 base-pairs towards the 3' end at each site. Footprinting with DNAase II reports a similar, though less precise, pattern of protection. Cutting by both enzymes is markedly enhanced at AT-rich regions flanking the antibiotic-binding sites. This increased susceptibility to nuclease attack can be attributed to an altered helix conformation in the vicinity of the bis-intercalated echinomycin molecule. It seems that certain sequences, mainly runs of A or runs of T, switch from a nuclease-resistant to a nuclease-sensitive form when echinomycin binds nearby.  相似文献   

6.
7.
Despite the apparent uniformity of the collagen molecule, vertebrate and invertebrate collagenases cleave it in one region only. We suggest that the enzyme recognises the cleavage site by the arrangement of the imino acids proline and hydroxyproline on either side of a region where the helical conformation of the collagen molecule is less stable. This less stable region could fold out of the rigid collagen molecule allowing the two recognition sites to be simultaneously attached to identical subunits in the same collagenase molecule. Class II DNA restriction endonucleases are confronted by a similar recognition problem in cleaving the DNA molecule at a specific site and it is generally accepted that here recognition is achieved by a sequence of bases with two-fold symmetry. We postulate that collagenase may, like the DNA restriction enzyme, be active in the dimeric form and that it recognises its substrate site by a similar two-fold symmetric arrangement of imino acid residues.  相似文献   

8.
Cleavage of pBR322 DNA I by the restriction endonuclease HinfI is preferentially inhibited at specific HinfI cleavage sites. These sites in pBR322 DNA I have been identified and ordered with respect to the frequency with which they are cleaved. The HinfI site most resistant to cleavage in pBR322 DNA I is unique in that runs of G-C base pairs are immediately adjacent on both sites. Two differently permuted linear (DNA III) species were produced by cleavage with two different restriction endonucleases, PstI and AvaI. Only one of these linear molecules, that produced by PstI, exhibits the same preferential cleavage pattern as DNA I. The second linear species, that arising from AvaI digestion, shows pronounced relative inhibition of cleavage at the HinfI sites nearest the ends of the molecule (100 to 120 base pairs away, respectively). This result suggest that proximity to the termini of a linear DNA molecule might also influence preferential cleavage. The possibility of formation of stem-loop structures does not appear to influence preferential cleavage by HinfI.  相似文献   

9.
Nucleotide sequences of 5'-flanking regions of 11 glucocorticoid-regulated genes and 14 genes non-regulated by these hormones were studied using context computer analysis. Consensus TGTTCT, previously found in DNA fragments protected by glucocorticoid-receptor complexes from DNAase I digestion, was shown to be nonspecific for glucocorticoid-regulated genes. However, the analysis of sequences flanking the TGTTCT consensus has revealed that only glucocorticoid-regulated genes contain four regularly distributed cytosine residues, one of them belonging to TGTTCT consensus. Three of cytosine residues are separated by 8-10 bp, which provides their close neighbourhood at one side of DNA double helix; the fourth extreme cytosine residue is located 6 bp from the nearest one and therefore, the complementary guanine residue is adjacent to the consensus in DNA helix. It is suggested that the consensus itself and two flanking cytosine and one guanine residues form a specific site for the interaction with glucocorticoid-receptor complex.  相似文献   

10.
11.
A complete understanding of the sequence-specific interaction between the EcoRI restriction endonuclease and its DNA substrate requires identification of all contacts between the enzyme and substrate, and evaluation of their significance. We have searched for possible contacts adjacent to the recognition site, GAATTC, by using a series of substrates with differing lengths of flanking sequence. Each substrate is a duplex of non-self-complementary oligodeoxyribonucleotides in which the recognition site is flanked by six base pairs on one side and from zero to three base pairs on the other. Steady-state kinetic values were determined for the cleavage of each strand of these duplexes. A series of substrates in which the length of flanking sequence was varied on both sides of the hexamer was also examined. The enzyme cleaved both strands of each of the substrates. Decreasing the flanking sequence to fewer than three base pairs on one side of the recognition site induced an asymmetry in the rates of cleavage of the two strands. The scissile bond nearest the shortening sequence was hydrolyzed with increasing rapidity as base pairs were successively removed. Taken together, the KM and kcat values obtained may be interpreted to indicate the relative importance of several likely enzyme-substrate contacts located outside the canonical hexameric recognition site.  相似文献   

12.
A polymerase chain reaction-based method of site-directed mutagenesis was used to introduce anNco I restriction site on the translation start site of a tomato peroxidase gene. This quick and efficient method utilized two overlapping synthetic oligonucleotide primers containing the requisite base pair changes on the ATG translation start site and two flanking primers in PCR. The resulting DNA amplified fragments were fused together byNco I digestion at the mutated ends followed by a T4 ligation reaction. A rapid alternative method utilizing the overlapping fragments and the flanking primers in PCR can also be used for ligating the two fragments. Cloning and sequencing of the PCR-amplified fragments provided additional evidence for the presence of the site-specific mutations. Unique restriction sites upstream and downstream of the site-specific mutation allows for the easy transfer of this mutated region into the wild type peroxidase gene.  相似文献   

13.
14.
Type III restriction enzymes have been demonstrated to require two unmethylated asymmetric recognition sites oriented head-to-head to elicit double-strand break 25–27 bp downstream of one of the two sites. The proposed DNA cleavage mechanism involves ATP-dependent DNA translocation. The sequence context of the recognition site was suggested to influence the site of DNA cleavage by the enzyme. In this investigation, we demonstrate that the cleavage site of the R.EcoP15I restriction enzyme does not depend on the sequence context of the recognition site. Strikingly, this study demonstrates that the enzyme can cleave linear DNA having either recognition sites in the same orientation or a single recognition site. Cleavage occurs predominantly at a site proximal to the DNA end in the case of multiple site substrates. Such cleavage can be abolished by the binding of Lac repressor downstream (3′ side) but not upstream (5′ side) of the recognition site. Binding of HU protein has also been observed to interfere with R.EcoP15I cleavage activity. In accordance with a mechanism requiring two enzyme molecules cooperating to elicit double-strand break on DNA, our results convincingly demonstrate that the enzyme translocates on DNA in a 5′ to 3′ direction from its recognition site and indicate a switch in the direction of enzyme motion at the DNA ends. This study demonstrates a new facet in the mode of action of these restriction enzymes.  相似文献   

15.
16.
Isolated nucleoli from exponentially growing microplasmodia of Physarum polycephalum were digested with micrococcal nuclease or DNAase I, or were photoreacted with trimethyl psoralen. In the coding region for the precursor of the ribosomal RNA, micrococcal nuclease and DNAase I digestions show predominantly a smear, and treatment with psoralen leads to a fairly continuous crosslinking of the DNA. All three assays are compatible with the absence of a typical nucleosomal array in most of the gene copies. In contrast, in the central non-transcribed spacer, except in the immediate 5'-flanking region, micrococcal nuclease and DNAase I digestions yield fragments that are multiples of a basic repeat, compatible with a nucleosomal packing of this region. The crosslinking pattern with psoralen confirms this conclusion. In addition, there are three sites over 400 base-pairs long that are inaccessible for psoralen crosslinking. Two of these sites have been mapped to the putative origins of replication. In the terminal non-transcribed spacer, except in the immediate 3'-flanking region, digestions with micrococcal nuclease and DNAase I give a smeared repeat. The crosslinking pattern after treatment with psoralen suggests that this region is packed in nucleosomes, except for about 900 base-pairs constituting the telomere regions of the linear extrachromosomal palindromic rDNA. Micrococcal nuclease digestion of the immediate 5'-flanking region shows a complete absence of any nucleosomal repeat, but digestion with DNAase I leads to a faint ten base-pair repeat. In contrast, in the 3'-flanking regions both nuclease assays indicate a chromatin structure similar to the coding region. Both flanking regions are unusual with respect to psoralen crosslinking, in that crosslinking is reduced both in chromatin and deproteinized DNA. On the basis of the known sequence-dependent psoralen crosslinking and the established sequences in these regions, crosslinking should be expected to occur. However, it does not and we therefore propose the presence of an unusual DNA conformation in these regions.  相似文献   

17.
Restriction endonucleases were tested for their ability to catalyze the cleavage of mismatch-containing recognition sites in DNA. These mismatched base pairs were T.G, U.G, or A.C in covalently closed, circular heteroduplexes prepared by in vitro extension of chemically synthesized oligonucleotide primers annealed to a bacteriophage M13-derived viral DNA. None of the restriction enzymes was able to completely cleave the mismatch-containing recognition sites under standard conditions. However, three of them, SmaI, SalI, and SstI, catalyzed partial digestion leading to an accumulation of DNA singly nicked at the mismatched recognition site. The ability of SmaI and SstI to partially cleave at a mismatch was shown to depend on the nature and position of the mismatch within the corresponding recognition site. In contrast, little or no digestion was obtained with AccI, HincII, HindIII, and KpnI at mismatch-containing sites. Therefore, in some cases a transition-type substitution in only one strand of a recognition site inhibits restriction endonuclease-catalyzed digestion at that site although in others partial digestion occurs.  相似文献   

18.
We analyzed the state of the genomic DNA of the papovavirus SV40 in human keratinocytes as viral-infected cells gradually acquired a transformed phenotype over time. Initially, the vast majority of the viral DNA is maintained either in a full-length supercoiled form or as truncated subgenomic fragments with little evidence of integration. However, analyses of clonal populations revealed great heterogeneity and instability of the viral DNA, and we were able to isolate one clonal subpopulation in which integrated forms of the virus appeared to predominate. Similarly, uncloned populations eventually ceased production of the "free" viral DNA after several years in culture and instead came to display tandemly repeated SV40 copies at a single host integration site. Interestingly, Bg1 II digestion of host DNA generated restriction fragments containing the integrated SV40 DNA, which were of differing sizes in cultures at the 144th vs the 163rd serial passage suggesting modification or rearrangement of sequences at or near the integration site. Host sequences flanking the integrated viral DNA at the 163rd serial passage have been isolated on restriction fragments generated by Eco RI, Bam HI, and Hpa II digestion. These analyses suggest that the integrated virus is linearized near the Bg1 I site and contains a large deletion in the SV40 early region at one of the viral-host junctions.  相似文献   

19.
20.
DNA structural variations in the E. coli tyrT promoter   总被引:90,自引:0,他引:90  
H R Drew  A A Travers 《Cell》1984,37(2):491-502
X-ray studies have established that the structure of a right-handed, Watson-Crick double helix can change from place to place along its length as a function of base sequence. The base pairs transmit deformations out to the phosphate backbone, where they can then be recognized by proteins and other DNA-binding reagents. Here we have examined at single-bond resolution the interactions of three commonly used nucleases (DNAase I, DNAase II, and copper-phenanthroline) with a DNA of natural origin, the 160 bp tyrT promoter. All three of these reagents seem sensitive to DNA backbone geometry rather than base sequence per se. Their sequence-dependent patterns of cleavage provide evidence for structural polymorphism of several sorts: global variation in helix groove width, global variation in radial asymmetry, and local variation in phosphate accessibility. These findings explain how sequence zones of a certain base composition, or purine-pyrimidine asymmetry, can influence the recognition of DNA by protein molecules.  相似文献   

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