Abstract: New and useful intermediate nucleotides bound to an inorganic polymer support, including the preparation thereof, and processes for the conversion to oligonucleotides which are especially useful for the synthesis of polynucleotides, particularly ribonucleic (RNA) and deoxyribonucleic acids (DNA).

Abstract: N-Acetylvalyl-tRNA1Val (AcVal-tRNA1Val) was bound to the P site of uniformly 32P-labeled 70S ribosomes from Escherichia coli and crosslinked to 16S RNA in the 30S ribosomal subunit by irradiation with light of 300-400 nm. To identify the crosslinked nucleotide in 16S RNA. AcVal-tRNA1Val-16S [32P]RNA was digested completely with RNase T1 and the band containing the covalently attached oligonucleotides from tRNA and rRNA was isolated by polyacrylamide gel electrophoresis. The crosslinked oligonucleotide, and the 32P-labeled rRNA moiety released from it by photoreversal of the crosslink at 254 nm, were then analyzed by secondary hydrolysis with pancreatic RNase A and RNase U2.The oligonucleotide derived from 16S RNA was found to be the evolutionarily conserved sequence, U-A-C-A-C-A-C-C-G1401, and the nucleotide crosslinked to tRNA1Val, C1400. The identity of the covalently attached residue in the tRNA was established by using AcVal-tRNA1Val-16S RNA prepared from unlabeled ribosomes. This complex was digested to completion with RNase T1 and the resulting RNA fragments were labeled at the 3' end with [5'-32P]pCp. The crosslinked T1 oligonucleotide isolated from the mixture yielded one major end-labeled component upon photoreversal. Chemical sequence analysis demonstrated that this product was derived from the anticodon-containing pentadecanucleotide of tRNA1Val, C-A-C-C-U-C-C-C-U-cmo5U-A-C-m6A-A-G39(cmo5U, 5-carboxymethoxyuridine). A similar study of the crosslinked oligonucleotide revealed that the residue covalently bound to 16S was cmo5U34, the 5' or wobble base of the anticodon. The adduct is believed to result from formation of a cyclobutane dimer between cmo5U34 of tRNA1Val and C1400 of the 16S RNA.

Abstract: A method has been developed to determine the adducts formed upon interaction of cis- and trans-diamminedichloroplatinum(II) (cis- and trans-DDP) with DNA. After 5 h at 50 degrees C in the dark, the amount of cis-DDP bound to salmon sperm DNA was larger than the amount of the trans-isomer. After enzymatic degradation with deoxyribonucleases to nucleotides and Pt-containing (oligo)nucleotides, the various products were separated by DEAE chromatography and analyzed for Pt by flameless AAS. Indications were obtained for the presence of nucleotides containing monofunctionally bound Pt and of adducts originating from interstrand DNA crosslinks. DEAE chromatography of digests of cis-DDP-treated DNA yielded a product with overall charge -1, which was identified with NMR and CD as cis-[Pt(NH3)2-d(pGpG)], the oligonucleotide derived from intrastrand crosslinks between two adjacent guanines. Another major peak contained Pt-oligonucleotides with overall charge -2, which could be derived from intrastrand crosslinks between two guanines at sites with pGpXpG (X=T,C,A or G) base sequences.

Abstract: The small adenovirus-encoded VA RNAs occur as ribonucleoprotein (RNP) particles in association with a cellular protein antigen, La, recognized by the anti-La class of lupus sera [Lerner, M. R., Boyle, J. A., Hardin, J. A. & Steitz, J. A. (1981) Science 211, 400-402]. We have tentatively identified the La antigen as a HeLa cell phosphoprotein of Mr approximately equal to 45,000, present in infected and uninfected cells. The antigen appears not to be required for the transcription of VA RNAs in vitro. RNP particles that contain newly synthesized VA RNAs assemble rapidly in transcription extracts making VA RNA and also can be reconstituted from purified VA RNA and a source of La antigen. Variant forms of VA RNAI with sequence deletions and substitutions bind to the La antigen, suggesting that the recognition site includes the RNA termini or the sequences corresponding to the internal control region (promoter), or both. Upon reconstitution with fragments of VA RNAI, oligonucleotides from both the 5' and 3' termini bind to the antigen, but those from the control region do not. The terminal oligonucleotides of wild-type VA RNA can form a basepaired stem, but structures of comparable stability cannot be formed by the chimeric variant molecules. Therefore, the recognition site is probably the terminal nucleotides themselves rather than the stem structure.

Abstract: The method of construction of at least a portion of, an RNA vector from an RNA plant virus, e.g. tobacco mosaic virus (TMV) using as specific functional regions, at least two nucleotide sequences selected from oligonucleotides and polynucleotides of viral RNA for the purpose of producing an RNA molecule containing those nucleotide sequences essential for self-replication or those nucleotide sequences essential for replication upon co-infection with complete TMV in a plant cell or cells, and having the potential, in the plant cell or cells, to express and control the expression of genetic information inserted thereby and those regions necessary for the production and accumulation of stable vector particles in the plant or plant cells. The production of a gene-derived product in a plant cell from the said at least a portion of an RNA vector is also described.

Abstract: We have constructed a transformation-defective polyoma virus mutant (Py 1387-T) that directs the synthesis of a normal small tumor antigen, a functional large tumor antigen, and a truncated (51,000-dalton) middle-sized tumor (mT) antigen that lacks 37 amino acids at its COOH terminus. The shortened mT polypeptide is missing the hydrophobic "tail" thought to be responsible for the anchorage of this protein into the plasma membrane and is in fact in cytosol fractions. This truncated mT polypeptide is inactive in an in vitro protein kinase assay and is altered in its phosphorylation in vivo. Mutant 1387-T differs from wild-type virus in having a T.A base pair instead of a C.G base at nucleotide position 1387. This change was introduced into viral DNA by using a synthetic undecanucleotide as a specific mutagen. Wild-type polyoma DNA was rendered single stranded by molecular cloning into coliphage M13. The oligonucleotide, which hybridizes with a mismatch at the site to be altered, was used to prime the synthesis of double-stranded closed circular DNA. Progeny recombinant phage were screened by DNA sequence analysis for the desired base change. The polyoma mutant was reconstructed from recombinant phage replicative form DNA molecules containing the mutation.

Abstract: Actinomycin D (AMD) is used clinically to treat tumours such as Wilms' tumour1 and gestational choriocarcinoma2. It inhibits transcription in most cellular systems3,4, and binds to DNA, not to RNA3–5, with a preference for guanine6. The study of the crystal structure of a 2:1 complex between deoxyguanosine and AMD demonstrated both stacking and hydrogen-bonding interactions between the drug and the guanine ring7. Solution studies8,9 have indicated that the drug binds preferentially to guanine–pyrimidine sequences, such as d(GpC), and that an intercalated complex forms with both DNA10 and DNA fragments11. External binding12 and intercalation10,13 models for the structure of the complex between AMD and DNA have been proposed, but until now no crystal strucutre of a complex between AMD and an oligonucleotide has been reported. As the smallest unit of DNA with the potential for forming an intercalated duplex is a self-complementary deoxydinucleoside monophosphate, we undertook the crystallographic analysis of the 2:1 complex between deoxyguanylyl-3′, 5′-deoxycytidine, d(GpC), and AMD. The complex is found to form an unusual pseudo-intercalated structure.

Abstract: Poly(dA-dC).poly(dG-dT) was studied by circular dichroism in the presence of high CsCl concentrations and in ethanolic solutions. This alternating purine-pyrimidine duplex may undergo two conformational transitions from a B-type to a novel structure and subsequently into an A-form. Cs+ ions or increasing ethanol concentrations induced a change of the B-type CD spectrum and an inversion of the long wavelength CD band. Lowering the temperature below 0 C or addition of small amounts of Ca++ ions were particularly potent in producing a large negative CD band. A modified B-type structure or a conversion into a left-handed Z-form is considered for this conformational transition.

Abstract: A frequently used method of comparing large RNA molecules employs the two-dimensional display of oligonucleotides generated through the action of specific RNases (oligonucleotide mapping, fingerprinting). Using computer simulations and simple analytic expressions the number of large RNase T1-resistant oligonucleotides obtained from random RNA sequences can be estimated. The computer simulations also permit estimation of the number of large oligonucleotides which remain unchanged as random variations are introduced into a random RNA sequence. In addition, computer analysis also provides a means of estimating statistical confidence limits to be used in a quantitative comparison of fingerprints of different RNA molecules. The model shows that two RNA sequences which differ overall by 1%, 5% or 10% share, on average, only 85%, 50% or 25%, respectively, of their large oligonucleotides. Thus, the use of fingerprint analysis is recommended only when closely related RNAs or regions of RNAs are compared (sequence homology greater than 90%).

Abstract: Diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) primes DNA synthesis in an in vitro system containing purified HeLa cell DNA polymerase alpha, deoxyadenosine triphosphate, and the double-stranded synthetic octadecamer template 5'-d-(G-G-A-G-G-C-T-T-T-T-T-T-G-G-A-G-G-C) (C-C-T-C-C-G-A-A-A-A-A-A-C-C-T-C-C-G)-d-5'; this octadecamer sequence is part of the origin region of DNA synthesis in simian virus 40. Ap4A is shown to be covalently linked to the first residue of the short deoxynucleotide chain synthesized under these experimental conditions. This template-primer system can initiate the new deoxynucleotide chain but cannot extend it beyond the A . T region.

Abstract: We describe a 2560 base pair herpes simplex virus type 1 (HSV-1) DNA sequence containing the entire immediate-early mRNA-5 (IEmRNA-5) gene. The 3' and 5' termini of IEmRNA-5 were mapped within this DNA sequence by single-strand specific endonuclease protection experiments. The IEmRNA-5 gene contains DNA sequences from both the unique (Us) and reiterated (TRs/IRs) regions of the HSV-1 DNA short component and is interrupted by a single intron mapping in TRs/IRs. A search of the transcribed DNA sequence revealed no initiator codon within TRs/IRs. The first ATG was located 6 bases into Us sequences and this reading frame (316 codons) was also observed in the 3' transcribed region. The oligonucleotide sequences adjacent to the IEmRNA-5 termini are discussed in relation to those of the HSV-1 thymidine kinase gene and other genes transcribed by RNA polymerase II.

Abstract: We have recently shown that a newly isolated avian sarcoma virus, UR2, is defective in replication and contains no sequences homologous to the src gene of Rous sarcoma virus. In this study, we analyzed the genetic structure and transforming sequence of UR2 by oligonucleotide fingerprinting. The sizes of the genomic RNAs of UR2 and its associated helper virus, UR2AV, were determined to be 24S and 35S, respectively, by sucrose gradient sedimentation. The molecular weight of the 24S UR2 genomic RNA was estimated to be 1.1 x 10(6), corresponding to 3,300 nucleotides, by gel electrophoresis under the native and denatured conditions. RNase T1 oligonucleotide mapping indicated that UR2 RNA contains seven unique oligonucleotides in the middle of the genome and shares eight 5'- and six 3'-terminal oligonucleotides with UR2AV RNA. From these data, we estimated that UR2 RNA contains a unique sequence of about 12 kilobases in the middle of the genome, and contains 1.4 and 0.7 kilobases of sequences shared with UR2AV RNA at the 5' and 3' ends, respectively. Partial sequence analysis of the UR2-specific oligonucleotides by RNase A digestion revealed that there are no homologous counterparts to these oligonucleotides in the RNAs of other avian sarcoma and acute leukemia viruses studied to date. UR2-transformed non-virus-producing cells contain a single 24S viral RNA which is most likely the message coding for the transforming protein of UR2. On the basis of the uniqueness of the transforming sequence, we concluded that UR2 is a new member of the defective avian sarcoma viruses.

Abstract: The kinetics of double-strand formation were measured by using temperature-jump kinetic techniques for the DNA oligonucleotides dCA5G + dCT5G, the analogous RNA oligonucleotides rCA5G + rCU5G, and the hybrid rCA5G + dCT5G. The DNA oligonucleotides have a faster rate of recombination and a slower rate of dissociation at 12.0 degrees C than the RNA oligonucleotides; the hybrid has about the same recombination rate and a slightly faster dissociation rate than the RNA oligonucleotides. The activation energies for recombination for the DNA and RNA oligonucleotides are both near 0 kcal/mol. The difference in dissociation and recombination activation energies is consistent with the thermodynamic results obtained earlier. The relaxation process is composed of two exponential components for the RNA and hybrid oligonucleotides at temperatures of 12.0 degrees C and lower. One exponential component is observed for these oligonucleotides above 12.0 degrees C and for the DNA oligonucleotides at all temperatures.

Abstract: One of the principal photochemical reactions of DNA on exposure to UV is the formation of intrastrand cyclobutane-type pyrimidine dimmers1,2. The efficiency of this reaction depends on both the wavelength of the UV2 and the specific nucleotide sequence in the DNA3. The formation of the pyrimidine dimer and its repair in living cells have been studied extensively4. We have examined the possibility that pyrimidines at the ends of DNA strands may be adequately juxtaposed for dimer formation by the presence of a complementary strand, even when no phosphodiester linkage joins their sugars. In these conditions the formation of a dimer will ‘ligate’ two DNA strands end-to-end. We report here that thymidine oligonucleotides annealed to polydeoxyadenylate can be ligated end-to-end by UV irradiation, via thymine dimerization of the terminal nucleotides in adjacent oligonucleotides. The linkages are susceptible to direct photoreversal by 254 nm UV, as expected for cyclobutane-type thymine dimers, but they are not cleaved by the bacteriophage T4 endonuclease V, a dimer-specific DNA repair enzyme. We demonstrate that the ligating dimers are also resistant to photolyase from Escherichia coli. Although the phosphodiester backbone is not required for dimer formation, it is required for recognition of dimers by these DNA repair enzymes. We discuss the possibility that high molecular weight polynucleotides in primordial seas might have been generated from oligonucleotides by pyrimidine dimerization under the intense solar UV flux unattenuated by an ozone layer.

Abstract: The viral RNAs of three nonconditional mutants of avian myelocytomatosis virus MC29 were analyzed. These mutants, which were originally isolated from the quail producer line Q10 and were designated 10A, 10C, and 10H, have lost most of the ability to transform hematopoietic cells in vitro and to induce tumors in vivo, but they still transform cultured fibroblasts with the same efficiency as wild-type (wt) MC29. Electrophoretic analyses showed that the mutant genomic RNAs were smaller than the 5.7-kilobase genome of wt MC29; the genomes of mutants 10A, 10C, and 10H were about 5.5, 5.3, and 5.1 kilobases long, respectively. Analyses of the transformation-specific sequences of these mutant RNAs by a combination of T(1) oligonucleotide fingerprinting and hybridization with cDNA from the transformation-specific sequences myc of wt MC29 or competition hybridization including wt MC29 RNA revealed that deletions of myc-specific sequences had occurred. The deletions in all three mutants overlapped, since they all had lost one particular myc-specific oligonucleotide. In agreement with the size of the genomic RNAs, mutants 10C and 10H had lost two additional myc oligonucleotides, and mutant 10A contained a modified myc oligonucleotide. The locations of the deletions were deduced from comparisons with previously established oligonucleotide maps of several members of the MC29 subgroup of acute leukemia viruses and by hybridization of wt and mutant RNAs to molecularly cloned subgenomic fragments of wt MC29 proviral DNA, representing the 5' and 3' domains of the myc sequence. We found that the deleted sequences represented overlapping internal segments of the myc sequence and that the borders of myc with the partial complements of the virion genes gag and env appeared to be conserved in mutant and wt MC29 RNAs. The correlation between the altered transforming potential for hematopoietic cells and the partial deletion of myc in the mutant RNAs provided direct genetic evidence for the involvement of myc in oncogenesis. However, the unaffected efficiency of these mutants in fibroblast transformation suggested that the deleted sequences are not essential for the fibroblast-transforming potential of the onc gene of MC29.

Abstract: Heterogeneous nuclear RNA contains double-stranded regions that are not found in mRNA and that may serve as recognition elements for processing enzymes. The double-stranded regions of heterogeneous nuclear RNA prepared from HeLa cells promoted the synthesis of (2',5')oligoadenylate [(2',5')oligo(A) or (2'5')An] when incubated with (2',5')An polymerase. This enzyme is present in elevated levels in interferon-treated cells, and labeled heterogeneous nuclear RNA incubated with extracts of these cells is preferentially cleaved, since mRNA included in the same incubations is not appreciably degraded. The cleavage of heterogenous nuclear RNA is caused by the synthesis of (2'5')An and by a "localized" activation of the (2',5')An-dependent endonuclease, since it was enhanced by ATP, the substrate of the (2',5')An polymerase, and inhibited by 2'-dATP and ethidium bromide. Both of these compounds suppress the synthesis of (2',5')An, the first by competitive inhibition and the latter by intercalating into double-stranded RNA. The possible role of double-stranded regions and of the (2',5')An polymerase-endonuclease system in the processing of heterogeneous nuclear RNA is discussed.

Abstract: A new and attractive phosphorylation procedure which allows the introduction, via phosphotriester intermediates, of 5'-phosphate functions of DNA fragments is described. The method is based on the activation of bifunctional phosphorylating agents with 1-hydroxybenzotriazole. The approach will be exemplified by the synthesis of pACGC using four different 5'-phosphotriester intermediates.

Abstract: A 450 base pair fragment of double stranded DNA consisting of a gene for a human immune interferon (146 amino acid residues), initiation and termination signals plus appropriate restriction endonuclease sites was totally synthesized. The synthesis involved preparation of 62 oligodeoxyribonucleotides by rapid, solid phase procedures, and enzymatic ligation of the oligonucleotides. This synthetic gene was expressed in E. coli under the control of the lac UV5 promoter. Molecular weight of IFN-gamma produced by E. coli was estimated to be about 32,000 and 17,000 dalton by gel filtration and SDS-polyacrylamide gel electrophoresis respectively, suggesting that a dimer-form molecule was expressed in E. coli.

Abstract: We examined the kinetics of synthesis in vitro of the 5' ends of the vesicular stomatitis virus mRNAs by analysis of specific RNase T1 oligonucleotides located near the 5' ends of the mRNAs. Our results indicate that, like synthesis of full-length mRNAs, the 5' ends of the mRNAs are synthesized sequentially, following the gene order N, NS, and M. Additional experiments with UV-irradiated virus demonstrated that synthesis of the mRNA regions containing these oligonucleotides is dependent on synthesis of the mRNA from the preceding gene. These results are inconsistent with a model of vesicular stomatitis virus transcription involving simultaneous initiation and presynthesis of leader RNAs 30 to 70 nucleotides long for each mRNA. We also characterized two small RNA species whose synthesis is highly resistant to UV irradiation. Partial sequence analysis indicates that these RNAs are a 5'-capped fragment of the N mRNA and a 5' fragment of the leader RNA.

Abstract: The first photochemical crosslinking of a protein to a nucleic acid using laser excitation is reported. A single, 120 mJ, 20 ns pulse at 248 nm crosslinks about 10% of bound E. coli RNA polymerase to T7 DNA under the conditions studied. The crosslinking yield depends on mercaptoethanol concentration, and is a linear function of laser intensity. The protein subunits crosslinked to DNA are beta, beta' and sigma.

Abstract: Binding of ribosomes to the 32P-labeled genomic RNA of mengovirus was studied in lysates of mouse L929 and Krebs ascites cells under conditions for initiation of translation. Upon total digestion with RNase T1, the 32P-labeled RNA protected in either 40S or 80S initiation complexes yielded four unique, large oligonucleotides. Each of these oligonucleotides occurred once in the viral RNA molecule. The same four oligonucleotides were recovered from 80S initiation complexes formed in lysates in which unlabeled mengovirus RNA had been translated extensively, indicating that recognition by ribosomes was not modulated detectably by a viral translation product. The recognition of intact, 32P-labeled mengovirus RNA by eucaryotic initiation factor 2 (eIF-2) was examined by direct complex formation. Fingerprint analysis of the RNA protected by eIF-2 against RNase T1 digestion yielded three T1 oligonucleotides that were identical to three of the four oligonucleotides protected in either 40S or 80S initiation complexes. A physical map of the large T1 oligonucleotides of the mengovirus RNA molecule was constructed, and the four protected oligonucleotides were found to map internally, within the region between the polycytidylate tract and the 3' end. For either ribosomes or eIF-2, the protected oligonucleotides could not be arranged in a continuous sequence, suggesting that they constitute at least two widely separated domains. These results show that ribosomes recognize and blind to more than a single sequence in mengovirus RNA, located internally in regions that are far removed from the 5' end of the molecule. eIF-2 itself binds with high specificity to mengovirus RNA, recognizing apparently three of the four sequences recognized by ribosomes.

Abstract: An 82 base pair DNA fragment has been synthesised which contains the E. coli trp promoter and operator sequences and also encodes the first Shine Dalgarno sequence of the trp operon. This DNA fragment is flanked by EcoRI and ClaI/TaqI cohesive ends and is thus easy to clone, transfer between vector systems and couple to genes to drive their expression. It has been cloned into plasmid pAT153, producing a convenient trp promoter vector. We have also joined the fragment to a synthetic IFN-alpha 1 gene, using synthetic oligonucleotides to generate a completely natural, highly efficient bacterial translation initiation signal on the promoter proximal side of the IFN gene. Plasmids carrying this construction enable E. coli cells to express IFN-alpha 1 almost constitutively and with significantly higher efficiency than from a lacUV5 promoter based system.