Showing papers in "Nucleic Acids Research in 1980"
TL;DR: A method is presented for the rapid isolation of high molecular weight plant DNA which is free of contaminants which interfere with complete digestion by restriction endonucleases, and which yields total cellular DNA.
Abstract: A method is presented for the rapid isolation of high molecular weight plant DNA (50,000 base pairs or more in length) which is free of contaminants which interfere with complete digestion by restriction endonucleases. The procedure yields total cellular DNA (i.e. nuclear, chloroplast, and mitochondrial DNA). The technique is ideal for the rapid isolation of small amounts of DNA from many different species and is also useful for large scale isolations.
10,481 citations
TL;DR: An analysis of nearest neighbour dinucleotide frequencies and the level of DNA methylation in animals strongly supports the suggestion that 5-methylcytosine (5mC) tends to mutate abnormally frequently to T.
Abstract: An analysis of nearest neighbour dinucleotide frequencies and the level of DNA methylation in animals strongly supports the suggestion that 5-methylcytosine (5mC) tends to mutate abnormally frequently to T. This tendency is the likely cause of the CpG deficiency in heavily methylated genomes.
1,148 citations
TL;DR: The sequence of regions of the chicken ovalbumin gene believed to be important in the control of initiation of transcription, splicing, and transcription termination or polyadenylation are presented.
Abstract: We present the sequence of regions of the chicken ovalbumin gene believed to be important in the control of initiation of transcription, splicing, and transcription termination or polyadenylation. Comparison with corresponding areas of other genes reveals some homologous regions which might play a role in these processes.
758 citations
TL;DR: This work indicates that the main factors distinguishing between mRNA sequences relate to choices among degenerate bases, and systematic third base choices can therefore be used to establish a new kind of genetic distance, which reflects differences in coding strategy.
Abstract: Frequencies for each of the 61 amino acid codons have been determined in every published mRNA sequence of 50 or more codons. The frequencies are shown for each kind of genome and for each individual gene. A surprising consistency of choices exists among genes of the same or similar genomes. Thus each genome, or kind of genome, appears to possess a "system" for choosing between codons. Frameshift genes, however, have widely different choice strategies from normal genes. Our work indicates that the main factors distinguishing between mRNA sequences relate to choices among degenerate bases. These systematic third base choices can therefore be used to establish a new kind of genetic distance, which reflects differences in coding strategy. The choice patterns we find seem compatible with the idea that the genome and not the individual gene is the unit of selection. Each gene in a genome tends to conform to its species' usage of the codon catalog; this is our genome hypothesis.
733 citations
TL;DR: Evidence is presented that specific protein-DNA interactions may be detected by this technique; under appropriate conditions, the lac repressor binds only to DNA containing the lac operator.
Abstract: A method, called "protein blotting," for the detection of DNA-binding proteins is described. Proteins are separated on an SDA-polyacrylamide gel. The gel is sandwiched between 2 nitrocellulose filters and the proteins allowed to diffuse out of the gel and onto the filters. The proteins are tightly bound to each filter, producing a replica of the original gel pattern. The replica is used to detect DNA-binding proteins, RNA-binding proteins or histone-binding proteins by incubation of the filter with [32P]DNA, [125I]RNA, or [125I] histone. Evidence is also presented that specific protein-DNA interactions may be detected by this technique; under appropriate conditions, the lac repressor binds only to DNA containing the lac operator. Strategies for the detection of specific protein-DNA interactions are discussed.
681 citations
TL;DR: A new way of storing DNA gel reading data and an accompanying set of computer programs that simplifies the computer processing involved with this sequencing method and has the capability of being able at any time during a project to display, lined up in register, all the gel reading covering any section of the sequence.
Abstract: This paper describes a new way of storing DNA gel reading data and an accompanying set of computer programs. These programs will perform all the manipulations that are required on data gained by the so-called 'shotgun' method of DNA sequencing. This system simplifies the computer processing involved with this sequencing method and also has the capability of being able at any time during a project to display, lined up in register, all the gel reading covering any section of the sequence.
561 citations
TL;DR: The results of these experiments indicate that the tK gene is not interrupted by intervening DNA sequences, and that certain oligonucleotide sequences adjacent to the termini of the tk gene are homologous to similarly positioned sequences common to structural genes of eukaryotic cells.
Abstract: This paper presents the nucleotide sequence of the Herpes Simplex Virus thymidine kinase (tk) gene. The position on the DNA sequence corresponding to the 5' and 3' termini of tk messenger RNA have been mapped. The mRNA termini are separated by slightly more than 1,300 nucleotides. The same 2,300 nucleotide segment of tk coding strand DNA is fully protected from S1 nuclease digestion when hybridized to tk mRNA. The location and size of the mRNA-coding segment corresponds to a region of the viral DNA that is essential for tk gene expression in microinjected frog oocytes. The nucleotide sequence of the HSV tk gene exhibits an open translational reading frame of 376 codons that extends from the methionine codon most proximal to the 5' terminus of tk mRNA to a UGA stop codon approximately 70 nucleotides from the poly-A addition site. The results of these experiments indicate that the tk gene is not interrupted by intervening DNA sequences, and that certain oligonucleotide sequences adjacent to the termini of the tk gene are homologous to similarly positioned sequences common to structural genes of eukaryotic cells.
479 citations
TL;DR: Examples of both the 410 and 500 bp size classes of repeating units containing wheat 5S rRNA genes have been cloned in plasmid pBR322 and sequenced and the structural genes showed sequence microheterogeneity.
Abstract: Examples of both the 410 and 500 bp size classes of repeating units containing wheat 5S rRNA genes have been cloned in plasmid pBR322 and sequenced. The structural genes showed sequence microheterogeneity. Also the gene in the 500 bp repeat which was sequenced had a 15 bp tandem duplication within it and appears to be representative of non-transcribed subfamily of repeating units. The transcription terminators comprise 14-17 A.T bp immediately preceded by a region of weak dyad symmetry. The spacer regions adjacent to the transcription terminators in the two different size repeat units have interspersed oligonucleotides of high and low homology. The central spacer regions of the two size classes have very different sequences. The only repeated sequence in the spacers has undergone extensive divergence. In contrast to most of the spacer, the 70 bp region preceding the genes of each type of repeat show high homology, suggesting that it has functional importance. The transcription start point obeys the pyrimidine-1 purine+1 rule.
469 citations
TL;DR: A cDNA library was constructed using mRNA from human fibroblasts induced with poly(I):poly(C) to create a bacterial clone containing fibroblast interferon cDNA sequences which is indistinguishable from authentic human Fibroblast Interferon by several criteria.
Abstract: A cDNA library was constructed using mRNA from human fibroblasts induced with poly(I):poly(C). A bacterial clone containing fibroblast interferon cDNA sequences was identified by hybridization to a cDNA probe synthesized using deoxyoligonucleotide primers which hybridize to fibroblast interferon mRNA specifically. Expression plasmids were constructed which permitted the synthesis in E. coli of 8 x 10(7) units of human fibroblast interferon per liter of culture. The bacterially produced fibroblast interferon is indistinguishable from authentic human fibroblast interferon by several criteria.
396 citations
TL;DR: This analysis reinforces the claim that most genes in a genome, or genome type, have the same coding strategy; that is, they show similar choices among synonymous codons, or among degenerate bases.
Abstract: The poor printing of our previous Figure 2 (1) is corrected Codon usage in mRNA sequences just published is also given A new correspondence analysis is done, based on simultaneous comparison in all mRNA of use of the 61 codons This analysis reinforces our claim that most genes in a genome, or genome type, have the same coding strategy; that is, they show similar choices among synonymous codons, or among degenerate bases (2) Like analysis on frequency variation in the amino acids coded reveals an entirely different pattern
365 citations
TL;DR: In this article, the authors derived a secondary structure model for 16S ribosomal RNA on the basis of comparative sequence analysis, chemical modification studies and nuclease susceptibility data.
Abstract: We have derived a secondary structure model for 16S ribosomal RNA on the basis of comparative sequence analysis, chemical modification studies and nuclease susceptibility data. Nucleotide sequences of the E. coli and B. brevis 16S rRNA chains, and of RNAse T1 oligomer catalogs from 16S rRNAs of over 100 species of eubacteria were used for phylogenetic comparison. Chemical modification of G by glyoxal, A by m-chloroperbenzoic acid and C by bisulfite in naked 16S rRNA, and G by kethoxal in active and inactive 30S ribosomal subunits was taken as an indication of single stranded structure. Further support for the structure was obtained from susceptibility to RNases A and T1. These three approaches are in excellent agreement. The structure contains fifty helical elements organized into four major domains, in which 46 percent of the nucleotides of 16S rRNA are involved in base pairing. Phylogenetic comparison shows that highly conserved sequences are found principally in unpaired regions of the molecule. No knots are created by the structure.
TL;DR: A method to accurately determine the complete major and modified base composition of a few micrograms of unlabeled DNA in which the m5dCyd comprises only 1 to 2% of the total bases is developed.
Abstract: We have developed a method to accurately determine (< 3% RSD) the complete major and modified base composition of a few micrograms of unlabeled DNA. The DNA samples were quantitatively hydrolyzed with DNase 1, Nuclease P1, and bacterial alkaline phosphatase. The resulting deoxyribonucleosides were directly separated in 70 min by reversed-phase high performance liquid chromatography with detection by ultraviolet absorption at 254 nm and 280 nm (RP-HPLC). The highly sensitive and selective dual wavelength quantitation greatly enhances the precision and accuracy of the chromatographic analysis. Contamination of DNA preparations with RNA does not interfere with the DNA analysis due to the high resolution of the chromatography. We have used this method for the quantitation of m5dCyd in 5 microgram of calf thymus and salmon sperm DNA in which the m5dCyd comprises only 1 to 2% of the total bases. This method should be a useful research tool in studies on various DNAs and DNA subfractions and should help to elucidate the functions of methylation of DNA.
TL;DR: Comparison of the yeast 18 S rRNA sequences with partial sequence data, available for rRNAs of the other eucaryotes, provides strong evidence that a substantial portion of the 18 S RNA sequence has been conserved in evolution.
Abstract: The cloned 18 S ribosomal RNA gene from Saccharomyces cerevisiae have been sequenced, using the Maxam-Gilbert procedure. From this data the complete sequence of 1789 nucleotides of the 18 S RNA was deduced. Extensive homology with many eucaryotic as well as E. coli ribosomal small subunit rRNA (S-rRNA) has been observed in the 3'-end region of the rRNA molecule. Comparison of the yeast 18 S rRNA sequences with partial sequence data, available for rRNAs of the other eucaryotes provides strong evidence that a substantial portion of the 18 S RNA sequence has been conserved in evolution.
TL;DR: Plasmid pLC1437a contains DNA from Escherichia coli K12 including fol, the structural gene for dihydrofolate reductase, and the nucleotide sequence for the entire fol gene and its flanking regions from this strain was determined.
Abstract: Plasmid pLC1437a contains DNA from Escherichia coli K12 including fol, the structural gene for dihydrofolate reductase. The fol gene was mapped on this plasmid relative to several restriction endonuclease cleavage sites. fol was also cloned from strain RSO and the nucleotide sequence for the entire fol gene and its flanking regions from this strain was determined. The amino acid sequence predicted from the nucleotide sequence differs in only a few respects from the reported amino acid sequence of dihydrofolate reductase from E. coli B. The major RNA transcripts initiated at the fol promotor in vivo are approximately 550 and 590 nucleotides long. In addition to these, several longer transcripts (up to 1400 nucleotides) are present in lesser amounts. A new procedure is described for 3' end labeling of DNA fragments having blunt ends using E. coli exonuclease III and avian myeloblastoma virus reverse transcriptase.
Journal Article•
TL;DR: Phylogenetic comparison shows that highly conserved sequences are found principally in unpaired regions of the molecule, in which 46 percent of the nucleotides of 16S rRNA are involved in base pairing.
TL;DR: Aphidicolin is a more useful reagent than hydroxyurea and thymidine because it does not affect cell viability or "S" phase duration and does not interfere with the synthesis of dNTPs or DNA polymerases.
Abstract: Both the inhibitory effect of aphidicolin on the replicative alpha-polymerase and the reversibility of its action in vivo (Pedrali-Noy & Spadari, 1979, Biochem. Biophys. Res. Commun. 88, 1194-2002) allow the synchronization of cells in culture. Aphidicolin prevents G1 cells from entering the DNA synthetic period, blocks cells in "S" phase, allows G2, M and G1 cells to continue the cell cycle and to accumulate at the G1/S border. Aphidicolin is a more useful reagent than hydroxyurea and thymidine because it does not affect cell viability or "S" phase duration and does not interfere with the synthesis of dNTPs or DNA polymerases. In fact cells exposed to the drug continue to synthesize all three DNA polymerases alpha, beta and gamma as well as all dNTPs which, when the block is removed, are present at levels optimal for DNA initiation and replication. The technique is simple and can be applied to cells growing in suspension or monolayers and allows one to harvest large quantities of synchronized cells.
TL;DR: The much lower reactivity of m5Cyt and its derivatives compared to that of the unmethylated analogs is primarily due to a decrease in the rate of formation of the sulfonate adduct.
Abstract: Sodium bisulfite is a mutagen which can specifically deaminate more than 96% of the cytosine residues in single-stranded DNA via formation of a 5,6-dihydrocytosine-6-sulfonate intermediate. Under the same reaction conditions, only 2-3% of the 5-methylcytosine (m5Cyt) residues in single-stranded XP-12 DNA, which has 34 mole% m5Cyt, was converted to thymine (Thy) residues. In contrast, at the deoxynucleoside and free base levels, the same treatment with bisulfite and then alkali converted 51% and > 95%, respectively, of the m5Cyt to the corresponding Thy derivatives. However, the rate of reaction of m5Cyt and its deoxyribonucleoside was much slower than that of the analogous quantitative conversion of cytosine or deoxycytidine to uracil or deoxyuridine, respectively. The much lower reactivity of m5Cyt and its derivatives compared to that of the unmethylated analogs is primarily due to a decrease in the rate of formation of the sulfonate adduct.
TL;DR: Three copies of a highly repetitive DNA sequence B1 which is complementary to the most abundant class of mouse fold-back RNA have been cloned in pBR322 plasmid and sequenced by the method of Maxam and Gilbert and two regions within the B1 sequence which are homologous to the intron-exon junctions are found.
Abstract: Three copies of a highly repetitive DNA sequence B1 which is complementary to the most abundant class of mouse fold-back RNA have been cloned in pBR322 plasmid and sequenced by the method of Maxam and Gilbert. All the three have a length of about 130 base pairs and are very similar in their base sequence. The deviation from the average sequence is equal to 4% and the overall mismatch between each two is not higher than 8%. One of the recombinant clones used contained two copies of B1 oriented in the same direction. All of the B1 copies are flanked with sequences which possess nonidentical but very similar structure. They consist of a number of AmCn blocks (where m varies from 2 to 8 and n equals 1-2). These peculiar sequences in all cases are separated from B1 by non-homologous DNA stretches of 2-8 residues. In one case, a long polypurine stretch is located next to such a block. It consists of 74 residues most of which represent a reiteration of the basic sequence AAAAG. We have found two regions within the B1 sequence which are homologous to the intron-exon junctions, especially to those present in the large intron of the mouse beta-globin gene. It may indicate the involvement of the B1 sequence in pre-mRNA splicing.
TL;DR: Physarum polycephalum, an acellular slime mold, produces an endoribonuclease activity (Phy M) useful in direct RNA sequence determination that is identical to that found with RNase Phy I2 digests performed under the same reaction conditions.
Abstract: Physarum polycephalum, an acellular slime mold, produces an endoribonuclease activity (Phy M) useful in direct RNA sequence determination. Under conditions previously described for direct enzymatic RNA sequencing (7M urea, 50 degrees C, pH 5.0)1 Phy M cleaves almost exclusively and uniformly at Up-N and Ap-N. In the absence of urea Up-N, Ap-N, and Gp-N are attacked in a sequence specific way identical to that found with RNase Phy I2 digests performed under the same reaction conditions.
TL;DR: The effect of ionizing radiation on DNA synthesis in control and ataxia telangiectasia (AT) lymphoblastoid cell lines was determined, and a dose dependent decrease was observed in control cells, and the rate and extent of decrease increased with time after irradiation.
Abstract: The effect of ionizing radiation on DNA synthesis in control and ataxia telangiectasia (AT) lymphoblastoid cell lines was determined. A dose dependent decrease in DNA synthesis was observed in control cells, and the rate and extent of thi decrease in synthesis increased with time after irradiation. No decrease in DNA synthesis was obtained in AT cells, immediately following irradiation, at doses up to 400 rads. At longer times postirradiation, inhibition of synthesis increased but the extent of inhibition was less in AT cell than controls at all doses used. An immediate depression of DNA synthesis was evident in control cells after a radiation dose of 200 rads reaching a maximum at 90 min postirradiation. Little or no decrease in DNA synthesis was evident in AT cells up to 60 min after the same radiation dose, but a decrease occurred between 60 and 90 min after irradiation. The rate of recovery of DNA synthesis to normal levels was more rapid in AT cells than in controls.
TL;DR: Hydroxylamine hydrochloride at pH 6 specifically attacks cytosine and potassium permanganate reacts selectively with thymidine residues in DNA, adopting these reactions for use with the chemical sequencing method developed by Maxam and Gilbert.
Abstract: Potassium permanganate reacts selectively with thymidine residues in DNA (1) while hydroxylamine hydrochloride at pH 6 specifically attacks cytosine (2). We have adopted these reactions for use with the chemical sequencing method developed by Maxam and Gilbert (3).
TL;DR: This work has shown that a DNA-RNA hybrid oligonucleotide duplex, dC(pA) 5pG:rC( pU)5pG, which contains a (dA:rU) 5 sequence, is at least 200 times less stable at room temperature than the corresponding duplex containing an (rA:dT) 5 sequences.
Abstract: A DNA-RNA hybrid oligonucleotide duplex, dC(pA) 5pG:rC(pU)5pG, which contains a (dA:rU) 5 sequence, is at least 200 times less stable at room temperature than the corresponding duplex containing an (rA:dT) 5 sequence, rC(pA)5pG:dC(pT)5pG. This result provides an explanation for the finding that most primary RNA transcripts terminate in several consecutive rU residues, but not rA residues. It strongly supports the idea that instability of the DNA-RNA hybrid at the growing point of transcription plays a role in termination of transcription.
TL;DR: Histone 2B in mouse and man can be modified by the post-translational addition of ubiquitin, however only to the extent of 1-1.5% compared with about 11% of H2A.
Abstract: Histone 2B in mouse and man can be modified by the post-translational addition of ubiquitin. In mouse L1210 cells, both H2B variants are modified, however only to the extent of 1-1.5% compared with about 11% of H2A. Analysis of cyanogen bromide peptides shows that ubiquitin is attached to the C-terminal part of the histone.
TL;DR: A strategy has been developed for sequencing the single-stranded RNA genes of influenza virus and the nucleotide sequence of segment 7 was completed and provides the primary structure of the matrix protein.
Abstract: A strategy has been developed for sequencing the single-stranded RNA genes of influenza virus. Restriction fragments derived from double-stranded cDNA copies of total influenza RNA were cloned into the bacteriophage M13mp2 and sequenced by the dideoxy technique. Sequences were extended and overlapped by using the virion RNA as template and priming with small restriction fragments. In the course of this strategy, the nucleotide sequence of segment 7 (1027 nucleotides) was completed and provides the primary structure of the matrix protein (27, 861 daltons). In addition, there is a second long reading frame which partly overlaps the reading frame of the matrix protein.
TL;DR: The proton and 13C NMR spectra of uridine, deoxyuridine and four 2' substituted uridines are reported and it is suggested that the influence of the electronegativity could be the dominating effect of nucleoside conformations and would also hold for arabinosides and xylosides.
Abstract: The proton and 13C NMR spectra of uridine, deoxyuridine and four 2' substituted uridines (dUn, dUz, dUcl and dUfl) are reported. A linear relationship between the electronegativity of the 2'-substituent and the carbon-13 chemical shift of C2' is observed. Taking into account the effect of electronegativity by using the correction proposed by Karplus or by Jankowski, the proton-proton coupling constants have been used to compute the conformational equilibria of the six uridines. It is shown that the contribution of the N form (3'-endo -2'-exo) increases with the electronegativity of the 2' substituent. Thus dUfl contains some 85% N form in solution. - Applying similar corrections to published data in the adenosine series, a similar correlation is observed. This observation, that the most polar substituent pulls the pucker to its side, holds also for 3'-substituted compounds, like cordycepin (3'dAdo) and 3'-deoxy-3'-amino-adenosine. It is suggested that the influence of the electronegativity could be the dominating effect of nucleoside conformations and would also hold for arabinosides and xylosides. This effect should therefore also be the principal force which determines the differences between DNA and RNA.
TL;DR: It is suggested that the large differences between genome types are the result of evolutionary changes in the relative size of heavily methylated and unmethylated compartments.
Abstract: Restriction endonucleases were used to determine the degree of methylation at the sequences CCGG and GCGC in a wide range of animal DNAs. Both total DNA methylation and ribosomal DNA methylation were studied. Whole DNA methylation was indetectable in arthropods, fractional in other invertebrate phyla, and high in the vertebrates. Ribosomal DNA was predominantly unmethylated in all animals except fish and amphibia, where it was heavily methylated. We discuss the evolutionary and functional implications of these results, and suggest that the large differences between genome types are the result of evolutionary changes in the relative size of heavily methylated and unmethylated compartments.
TL;DR: The interaction of the high mobility group proteins, HMG14 and HMG17, with nucleosome core particles has been studied and it is shown that two molecules of H MG14/17 can be bound tightly but reversibly to each core particle.
Abstract: The interaction of the high mobility group proteins, HMG14 and HMG17, with nucleosome core particles has been studied. The results show that two molecules of HMG14/17 can be bound tightly but reversibly to each core particle and that their affinity for core particles is greater than their affinity for histone-free DNA of core size. Thermal denaturation and nuclease digestion studies suggest that major sites of interaction are located near the ends of the nucleosome core DNA. When nucleosome preparations from chicken erythrocyte nuclei stripped of HMG proteins are partially titrated with HMG14/17, the nucleosome-HMG complex fraction is enriched in beta-globin gene sequences.
TL;DR: It is suggested that induction by erythromycin involves a shift between alternative ribosome-bound mRNA conformations, so that the Ribosome binding sequence and the start codon for synthesis of the 29K protein are unmasked in the presence of inducer.
Abstract: The DNA sequence of the ermC gene of plasmid pE194 is presented. This determinant is responsible for erythromycin-induced resistance to the macrolide-lincosamide-streptogramin B group of antibiotics and specifies a 29,000 dalton inducible protein. The locations of the ermC promoter, as well as that of a probable transcriptional terminator, are established both from the sequence and by transcription mapping. The sequence contains an open reading frame sufficient to encode the previously identified 29,000 dalton ermC protein. Between the promoter and the putative ATG start codon is a 141 base pair leader sequence, within which several regulatory (constitutive) mutations have been mapped and sequenced. The leader has a second open reading frame, sufficient to encode a 19 amino acid peptide. It is suggested that induction by erythromycin involves a shift between alternative ribosome-bound mRNA conformations, so that the ribosome binding sequence and the start codon for synthesis of the 29K protein are unmasked in the presence of inducer. Possible active and inactive folded configuration of the leader sequence are presented, as well as the effects on these configurations of regulatory mutations.
TL;DR: Oligonucleotide analysis was used to obtain the sequence of nucleotides that should be present in a messenger RNA for optimum binding to the E. coli ribosome, and shows a preference rather than an absolute requirement for a specific base in any given position.
Abstract: Oligonucleotide analysis, by a novel computerized procedure, was first applied to determine the sequence of an ideal E. coli promoter (Scherer et al., Nucl. Acids Res. 1978, 5:3759-3773) and has now been used to obtain the sequence of nucleotides that should be present in a messenger RNA for optimum binding to the E. coli ribosome. This sequence is: UU.UUAAAAAUUAAGGAGGUAUAUUAUGAAAAAAAUUAAAAAACUCAA AA U A AUA A CUC G. Comparison of this sequence with each of the 68 ribosome binding site sequences used to generate it shows a preference rather than an absolute requirement for a specific base in any given position. The preference for certain bases persists along the whole length of the RNA within the ribosome binding domain even though nearly half of that length includes translated codons. Thus messages without leader sequences (like lambda CI mRNA) can still have some affinity for the ribosome. Part of the model sequence is complementary to the 3'end of 16S rRNA.