首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到10条相似文献,搜索用时 134 毫秒
1.
Separation of the complementary strands of adenovirus type 2 DNA by poly(U,G)-CsCl density gradient centrifugation permitted studies of Ad23 DNA renaturation with independently variable concentrations of each complementary strand. Single-stranded DNA was isolated by hydroxylapatite chromatography following exhaustive incubation under such conditions, and was found to selectively represent sequences of the complement present in excess during the incubation. This result was exploited in a general method for isolation of complementary strand-specific sequences of radioactively labeled Ad2 DNA or restriction enzyme fragments of Ad2 DNA. Liquid phase saturation-hybridization experiments were carried out with labeled DNA representing each complementary strand of the six endo R.EcoRI cleavage fragments of Ad2 DNA and unlabeled messenger RNA prepared from HeLa cells late after productive infections with Ad2. The results were combined with the known endo R.EcoRI cleavage map of Ad2 DNA to construct a low-resolution map showing physically separated regions, on both complementary strands of Ad2 DNA, represented in mRNA late after infection.  相似文献   

2.
The locations of thirty restriction endonuclease cleavage sites were determined on the genome of adenovirus type 4 (Ad4), the sole member of the subgroup E adenovirions. The restriction endonucleases BglII, EcoRI, HindIII, HpaI, KpnI, SalI, and XbaI cut Ad4 DNA 10, 3, 2, 3, 5, 5 and 3 times, respectively. Orientation of the linear Ad4 map with respect to left and right molecular ends was accomplished by taking advantage of the limited sequence homology between Ad2 and Ad4. Ten non-overlapping fragments of Ad4 DNA representing 98% of the genome, map units 1.6 to 99.6, have been cloned into the plasmid vector pKC7.  相似文献   

3.
4.
An examination of Autographa californica nuclear polyhedrosis virus DNA revealed the presence of five interspersed regions, rich in EcoRI restriction sites, which shared homologous sequences. These homologous regions (hr), designated hr1 to hr5, occur at or near the following EcoRI fragment junctions: hr1EcoRI-B—EcoRI-I (0.0 map units); hr2, EcoRI-A—EcoRI-J (19.8 map units); hr3, EcoRI-C—EcoRI-G (52.9 map units); hr4, EcoRI-Q—EcoRI-L (69.8 map units); and hr5, EcoRI-S—EcoRI-X (88.0 map units). Four of these regions were identified, by cross-blot hybridization of HindIII-restricted A. californica nuclear polyhedrosis virus DNA, to be within the HindIII-A/B, -F, -L, and -Q fragments. The location of these regions and the identification of a fifth homologous region were confirmed, and their characterization was facilitated, by using two plasmids with HindIII-L or -Q fragment insertions, which contained the homologous regions hr2 and hr5, respectively. The sizes of the homologous regions were about 800 base pairs for hr2, 500 base pairs for hr5, and less than 500 base pairs for hr1, hr3, and hr4. A set of small EcoRI fragments (EcoRI minifragments) which ranged in size from 225 to 73 base pairs were detected in A. californica nuclear polyhedrosis virus DNA and HindIII-L and -Q fragments by polyacrylamide gel analysis. Some of the minifragments in viral DNA were present in extramolar amounts and corresponded in size to some of the minifragments present in HindIII-L and -Q. Clones of some of the EcoRI minifragments were used as probes in hybridizations to digests of viral DNA and of HindIII-L and -Q. The hybridization data, obtained under various levels of stringency, suggested that there was a degree of mismatching between the sequences which were responsible for the homology.  相似文献   

5.
An apparently full-length complementary DNA copy of in vitro polyadenylated MS2 RNA was synthesized with avian myeloblastosis virus RNA-dependent DNA polymerase. After the MS2 RNA template was removed from the complementary DNA strand with T1 and pancreatic RNase digestion, the complementary DNA became a good template for the synthesis of double-stranded MS2 DNA with Escherichia coli DNA polymerase I. We then constructed molecular chimeras by inserting the double-stranded MS2 DNA into the PstI restriction endonuclease cleavage site of the E. coli plasmid pBR322 by means of the poly(dA)· poly(dT) tailing procedure. An E. coli transformant carrying a plasmid with a nearly full-length MS2 DNA insertion, called pMS2-7, was chosen for further study. Correlation between the restriction cleavage site map of pMS2-7 DNA and the cleavage map predicted from the primary structure of MS2 RNA, and nucleotide sequence analysis of the 5′ and 3′ end regions of the MS2 DNA insertion, showed that the entire MS2 RNA had been faithfully copied, and that, except for 14 nucleotides corresponding to the 5′-terminal sequence of MS2 RNA, the fulllength DNA copy of the viral genetic information had been inserted into the plasmid. Restriction endonuclease analysis of the chimera plasmid DNA also revealed the presence of an extra DNA insertion which was identified as the translocatable element IS13 (see following paper).  相似文献   

6.
Restriction of bacteriophage lambda by Escherichia coli K   总被引:13,自引:0,他引:13  
Derivatives of phage lambda, for which the numbers and positions of the recognition sites for endonuclease R. Ecok are known, were used as substrates for the Escherichia coli K restriction system in vivo and in vitro. A single unmodified recognition site was sufficient for a DNA molecule to be bound and broken by the K restriction enzyme. Although discrete fragments of DNA were not produced, the breaks were made preferentially in the proximity of the recognition site. Breakage of a DNA molecule with only one recognition site required a 10 to 40-fold higher concentration of restriction enzyme than breakage of a DNA molecule with two or more recognition sites, but these substrates were all equally effective in a binding assay for the enzyme.The polynucleotide kinase reaction provided no evidence for new 5′-terminal sequences generated by restriction in vitro; the 5′ termini were either refractory to the polynucleotide kinase reaction or had no sequence specificity.  相似文献   

7.
8.
Structures at the 5′ terminus of poly (A)-containing cytoplasmic RNA and heterogeneous nuclear RNA containing and lacking poly(A) have been examined in RNA extracted from both normal and heat-shocked Drosophila cells. 32P-labeled RNA was digested with ribonucleases T2, T1 and A and the products fractionated by a fingerprinting procedure which separates both unblocked 5′ phosphorylated termini and the blocked, methylated, “capped” termini, known to be present in the messenger RNA of most eukaryotes.Approximately 80% of the 5′-terminal structures recovered from digests of poly(A)-containing Drosophila mRNA are cap structures of the general form m7G5′ppp5′X(m)pY(m)pZp. With respect to the extent of ribose methylation and the base distribution, the 5′-terminal sequences of Drosophila capped mRNA appear to be intermediate between those of unicellular eukaryotes and those of mammals. Drosophila is the first organism known in which type 0 (no ribose methylations), type 1 (one ribose methylation), and type 2 (two ribose methylations) caps are all present. In contrast to mammalian cells, the caps of Drosophila never contain the doubly methylated nucleoside N6,2′-O-dimethyladenosine. Both purines and pyrimidines can be found as the penultimate nucleoside of Drosophila caps and there is a wide variety of X-Y base combinations. The relative frequencies of these different base combinations, and the extent of ribose methylation, vary with the duration of labeling. The large majority of poly(A)-containing cytoplasmic RNA molecules from heat-shocked Drosophila cells are also capped, but these caps are unusual in having almost exclusively purines as the penultimate X base.Greater than 75% of the 5′ termini of heterogeneous nuclear RNA (hnRNA) containing poly(A) and greater than 50% of the termini of hnRNA lacking poly (A) are also capped. Triphosphorylated nucleotides, common as the 5′ nucleotides of mammalian hnRNA, are rare in the poly(A)-containing hnRNA of Drosophila. The frequency of the various type 0 and type 1 cap sequences of cytoplasmic and nuclear poly (A)-containing RNA are almost identical. The caps of hnRNA lacking poly(A) are also quite similar to those of poly-adenylated hnRNA, but are somewhat lower in their content of penultimate pyrimidine nucleosides, suggesting that these two populations of molecules are not identical.  相似文献   

9.
Linear DNA plasmids, designated pSLA1 and pSLA2, which were isolated from two strains of Streptomyces sp. producing lankacidin group antibiotics, were analyzed by using restriction endonucleases. Cleavage patterns of these plasmids were very similar, indicating that they are closely related. Cleavage maps of pSLA2 were constructed with BamHI, SalI, BglII, and EcoRI. A protein was associated with the restriction fragments of both ends of pSLA2 and this was not removed by sodium dodecyl sulfate-phenol treatment. pSLA2 was senstive to a 3′-exonuclease, exonuclease III, but was resistant to the 5′-exonuclease, λ-exonuclease. These results suggest that the protein is associated with the 5′ termini of pSLA2. The same terminal structure was also found on pSLA1. The approximate copy number of the plasmid was estimated by a brief method using agarose gel electrophoresis.  相似文献   

10.
The patterns of integration of viral DNA in five lines of adenovirus type 2-transformed hamster cells have been investigated. Cell lines HE1 to HE5 were obtained by in vitro transformation of hamster embryo cells by ultraviolet light-inactivated Ad22. In all lines, segments in the central parts of the viral genome are missing. The lines HE1, HE2, HE3, HE4 and HE5 contain 2 to 4, 2 to 4, 6 to 10, about 10, and 2 to 3 genome fragment equivalents per cell, respectively.The patterns of integration in lines HE2 and HE3 are identical; however, the viral genome has been amplified in these cell lines to different extents. This result provides evidence for the post-integrational amplification of inserted viral genomes. It is also conceivable that line HE2 may have undergone losses of integrated Ad2 genomes. The persisting Ad2 genomes in lines HE2 and HE3 have deletions in parts of the EcoRI F and D fragments. The remainders of these fragments are linked to cellular DNA. The termini of the segments of the viral genome have been inverted and linked to each other. This linkage could have occurred via a circular intermediate in integration or via tandemly integrated viral genomes with subsequent deletion events. The linkage of the termini of viral DNA might be mediated by short sequences of cellular DNA.In line HE5, approximately 40% of the Ad2 genome is deleted, and the truncated segments, again comprising the terminal Ad2 DNA fragments, have been fused. The termini of the viral DNA are linked to cellular DNA. In lines HE1 and HE4 complex deletion and fusion events have altered the inserted Ad2 genomes.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号