Isolation of DNA from agarose gels using DEAE-paper. Application to restriction site mapping of adenovirus type 16 DNA

Tissue-specific expression of human provirus ERV3 mRNA in human placenta: two of the three ERV3 mRNAs contain human cellular sequences

Three polyadenylated RNAs, 9, 7.3, and 3.5 kilobases long, of a human endogenous retrovirus, ERV3, are abundant in human placental chorion, representing about 0.03 to 0.05% of the total mRNA. We characterized the structure of these mRNAs by Northern blot and S1 nuclease mapping analyses. We found that all three RNAs were spliced mRNAs that lacked 5.9 kilobases of proviral sequence, including the gag gene and most of the pol gene. In contrast to the transcription pattern usual for other retroviruses, the transcription pattern of the ERV3 provirus did not include a genome-length mRNA. All three of the ERV3 mRNAs initiated transcription at the same point in the 5' long terminal repeat (LTR) and contained identical splice junctions in the provirus. The 3.5-kilobase RNA was a typical subgenomic proviral mRNA, with its polyadenylation site in the 3' LTR. The two larger ERV3 mRNAs, however, extended through the polyadenylation site in the 3' LTR and were spliced at a second position approximately 370 nucleotides downstream from the 3' LTR. This finding suggests that when the ERV3 retrovirus integrated at this genomic locus in an ancestor of humans, it integrated within or adjacent to a cellular gene.

Quantitation of genes and transcripts by saturation hybridization in urea solutions using strand-selected probes

This report describes methods for quantifying specific sequences in preparations of single-stranded or double-stranded nucleic acids. We use saturating amounts of hybrid-selected, strand-specific probes and perform hybridizations in urea solutions. Hybrids (RNA-DNA or DNA-DNA) are then analyzed by either of two methods. The first employs standard S1 nuclease digestion, precipitation of resistant material on glass fiber filters, and assay by liquid scintillation counting. This method is generally chosen in the assay of rare transcripts in total nucleic acid extracts as well as preparations of polyadenylated RNA. The second employs the separation of excess probe from probe-target hybrids by gel electrophoresis, recovery of hybrids on ion-exchange paper, and determination of cpm bound by liquid scintillation counting. This method is of particular value in the assay of double-stranded sequences and the quantitation of restriction fragment length polymorphisms. Whereas both methods are accurate over ranges of target abundance representing at least several orders of magnitude, the latter ("NA45 assay") is most sensitive, and the selection of M13-bound or unbound DNA fragments by this method can be exploited in a variety of other applications.

Transient expression system to measure the efficiency of vaccinia promoter regions

A transient expression system has been developed to compare the relative efficiency of expression of various vaccinia virus DNA sequences containing transcriptional regulatory elements. A plasmid vector was constructed containing both the Escherichia coli galactokinase gene (galK) and the guanine phosphoribosyltransferase gene (gpt). To direct the expression of gpt within this vector, a vaccinia virus promoter region was isolated from the HindIII-F fragment of the genome and inserted 5' to gpt coding sequence. Four unique cloning sites in front of galK allow simple and precise fusion of various vaccinia virus DNA fragments that contain the regulatory site of interest to galK. Sequences containing promoter regions were ligated to the coding segment of the galK to create four recombinant plasmids, which were introduced into vaccinia virus-infected cells by transfection. Both galK and gpt were thus expressed under the control of vaccinia virus transcriptional units, and the enzymatic activities were measured in the same cell extract with a filter-binding assay. The major advantage of this transient expression system is that the variations in galK expression are always measured relative to the internal gpt standard. Changes in the galK/gpt ratio resulting from different vaccinia promoters of galK are thus a quantitative measurement of promoter strength.

Influence of some dietary chemopreventive agents on the expression of functional differentiation of the mouse mammary gland in vitro

The purpose of the present studies was to determine the influence of the chemopreventive agents selenium, 4-(hydroxyphenyl)-retinamide (4-HPR) and beta-carotene, on functional differentiation (lactogenesis) of the mouse mammary gland cells. The hormone-induced expression of the milk-protein genes, beta-casein, epsilon-casein and the whey acidic protein (WAP) was used as molecular marker of differentiation of the mammary cells in organ culture medium containing insulin, prolactin, aldosterone and hydrocortisone. Quantitative determination of the cellular concentration of the respective mRNA was ascertained by molecular hybridization of RNA to the specific cloned cDNA probes using both the solution and the filter hybridization methods. Selenium at 100 nm concentration caused a pronounced inhibition of accumulation of the respective mRNAs. The retinoid, 4-HPR, also caused a dose-dependent inhibition of expression of these mRNA sequences. In contrast, concentrations of the 3 mRNAs in beta-carotene-treated glands remained similar to those observed in glands cultured in medium containing the hormones and hexane (the latter being the solvent for beta-carotene). The significant antagonistic action of selenium and 4-HPR, however, was reversible after removal of the chemicals from the culture medium. Thus, among the 3 chemicals tested, selenium and retinoid can cause an adverse effect on functional differentiation (lactogenesis) of the mammary cells. This inhibitory effect, however, was reversible. beta-Carotene, on the other hand, caused no apparent antagonistic effect on expression of the milk-protein genes in the isolated whole mammary organ in culture.

Determination of the promoter region of an early vaccinia virus gene encoding thymidine kinase

Nine recombinant vaccinia viruses that contain overlapping segments of the putative promoter region of the vaccinia virus thymidine kinase (TK) gene linked to DNA coding for the prokaryotic enzyme chloramphenicol acetyltransferase (CAT) were constructed. In each case, the RNA start site and 5 bp of DNA downstream were retained. No significant difference in CAT expression occurred as the deletion was extended from 352 to 32 bp before the RNA start site. Deletion of a further 10 bp, however, led to complete cessation of early promoter activity. Primer extension analysis of the 5' ends of the transcripts verified that the natural TK RNA start site was still used when only 32 bp of upstream DNA remained. Loss of early promoter activity was previously found when deletions were extended from 31 to 24 bp before the RNA start site of another vaccinia gene that is expressed constitutively throughout infection (M.A. Cochran, C. Puckett, and B. Moss, 1985, Proc. Natl. Acad. Sci. USA 82, 19-23). Sequence similarities in the promoter regions of these two genes were noted.

Competence for genetic transformation in Streptococcus pneumoniae: molecular cloning of com, a competence control locus

To identify and map genes involved in competence for genetic transformation in Streptococcus pneumoniae, we have cloned DNA surrounding an ermB insertion mutation that causes a competence factor deficiency. We recovered the insert and approximately 500 base pairs of neighboring pneumococcal DNA in pMB9. Larger pieces of DNA from this region were unstable in pMB9 and pBR325. However, larger pieces were stable in pKK232-8, an Escherichia coli vector containing strong transcription terminators. Overlapping pieces of wild-type DNA from this competence control region were cloned and mapped in this vector. Insertion mutations were constructed in vitro throughout the cloned region. When crossed into the pneumococcus chromosome, they showed that the com locus was 4.2 to 5.2 kilobases long.

Transformation of mammalian cells with recombinant DNA directly from Seaplaque agarose

Transfection of African green monkey kidney cells directly with recombinant DNA excised from, but still present in, Seaplaque agarose after electrophoresis, is described. Efficiencies of transfection increased by 30% when the gel was present compared with transfection in the absence of the agarose. Extraction of the DNA from the gel was not necessary, thereby obviating a purification step and the concomitant losses. To generate recombinant molecules bacterial plasmid sequences are not necessary, thereby reducing considerably the size of the recombinant molecule and removing extraneous and deleterious sequences, e.g., "poison sequences." Linear or circular DNA molecules could be transfected in the melted and diluted agarose with the same ease as in its absence. Hence linear partial ligation products can be excised from the gel after electrophoresis to generate recombinant DNA molecules directly in mammalian cells.

Coordinated regulation of type I and type III collagen production and mRNA levels of pro alpha 1(I) and pro alpha 2(I) collagen in cultured morphea fibroblasts

Fibroblast cultures were started from affected and unaffected skin areas of six patients with localized scleroderma in an active stage. The cell lines were studied for synthesis of procollagens and fibronectin by metabolic labeling with 3H-proline and for their contents of mRNAs for pro alpha 1(I) and pro alpha 2(I) collagen. For this purpose a cDNA clone for human pro alpha 1(I) collagen mRNA was constructed. The clone was identified by restriction site mapping and hybridization to the specific mRNAs. All the scleroderma fibroblast lines produced increased amounts of type I and type III collagens and fibronectin during the early passages. The cell lines gradually reduced their elevated synthesis of collagen and fibronectin to normal or near normal levels by the tenth passage. The ratios of alpha 1(I) and alpha 2(I) chains and of type I and type III collagens, and the extent of type I procollagen processing, remained relatively unchanged in all the cultures. The cellular levels of type I procollagen mRNAs were increased in all the cells exhibiting an increased synthesis of collagen. The results suggest that in localized scleroderma the fibroblasts have undergone a coordinated activation of collagen synthesis at transcriptional level.

Functional elements of DNA upstream from the integrase operon that are conserved in bacteriophages 434 and lambda

A 1488-bp restriction fragment of bacteriophage 434 DNA contains the integrase promoter and an adjacent nucleotide sequence (t'I) resembling a Rho-independent terminator. To identify and quantitate transcription termination, DNA segments were cloned into a plasmid between the galactose promoter and assayable galactokinase gene and tested for termination. Whereas the entire fragment effectively terminated transcription, a 331-bp restriction fragment containing the t'I terminator had only weak terminator activity. Random sequential deletions of the 434 DNA segment defined a strong terminator 650-bp upstream from t'I. This proposed Rho-independent terminator called tL4 consists of a 7-bp stem and 6-nt loop followed by a uridine-rich region in the RNA. Phage lambda contains an even stronger tL4 terminator that differs in 4 nt from 434 tL4. Thus, despite some sequence divergence, terminator activity has been conserved in these phages. The 434 DNA segment was also tested for promoter activity. Rightward promoter activity (opposite to pL in the phage) was located about 200 bp to the right of tL4 and was followed by an open reading frame (ORF) capable of encoding a 91 amino acid protein. Promoter activity in the same approximate location was also found in phage lambda. Thus the rightward promoter, the tL4 and t'I terminators, and ORF-55 all are elements in this segment of the genome that are conserved for function despite sequence divergence.

Determination of the transcriptional regulatory region of a vaccinia virus late gene

A putative promoter region, extending from 218 base pairs (bp) before (-218) to 10 bp after (+10) the RNA start site of a vaccinia virus gene encoding an Mr-28,000 precursor of a core polypeptide that is expressed only after the onset of DNA replication was linked to DNA coding for the procaryotic enzyme chloramphenicol acetyltransferase (CAT). When this chimeric gene was inserted into the genome of vaccinia virus, the infectious recombinant expressed CAT in a regulated fashion. A series of deletions starting upstream of the promoter region and extending toward the RNA start site were made. The effects of these mutations on CAT expression were examined in cells infected with recombinant viruses and confirmed in a helper virus-dependent transient assay system. A gradual reduction in CAT expression occurred as the deletions extended from -61 to -18. Mutants that retained 18 bp before and 10 bp after the RNA start site still expressed CAT as a late gene product, although at a submaximal level. A further 5'-to-3' deletion of 10 bp reduced CAT expression to background levels. To demonstrate that the effect on expression was not simply due to the bringing of upstream inhibitory sequences closer to the RNA start site, a point mutation substituting a G for the A at -12 was made. The sharp decrease in CAT expression indicated the importance of a run of eight A residues located between -15 and -7. Evidence that these mutations affected the level but not the site of transcriptional initiation was demonstrated by analysis of the 5' ends of the mRNAs from infected cells. The short DNA sequence required for accurate and temporally regulated transcription suggests that the same or overlapping signals are used for both aspects of this process.

Resistance of vaccinia virus to rifampicin conferred by a single nucleotide substitution near the predicted NH2 terminus of a gene encoding an Mr 62,000 polypeptide

Marker transfer procedures were used to locate the site of mutation in the genome of a previously characterized (B. Moss, E. N. Rosenblum, and P. Grimley, 1971), Virology 45, 135-148) rifampicin-resistant (RifR) vaccinia virus isolate. Starting with a cosmid library prepared from the mutant genome, recombination with successively smaller DNA fragments was shown to transfer drug resistance to wild-type vaccinia virus. In this manner, the mutation was mapped within a 485-bp DNA segment in the central region of the genome at the extreme right end of the HindIII D fragment. Nucleotide sequencing indicated that this DNA segment differed from the homologous region of wild-type DNA by a single C/G----A/T substitution. Sequencing of the flanking 2195 bp revealed two tandem nonoverlapping open reading frames (ORFs) encoding putative polypeptides of Mr 16,908 and 61,840. The RifR mutation resulted in a predicted glutamine----lysine change only 27 amino acids from the NH2 terminus of the longer ORF. A predicted asparagine to aspartic acid substitution, found in another RifR vaccinia virus mutant by J. Tartaglia and E. Paoletti (Virology 147, 394-404, 1985), mapped near the carboxyl terminus of the same ORF. These data suggest a model in which head-to-tail interaction between Mr 61,840 polypeptides occurs and in which rifampicin blocks virus assembly by preventing this association.

High resolution preparative gel electrophoresis of DNA fragments and plasmid DNA using a continuous elution apparatus

An apparatus designed for preparative gel electrophoretic separation of proteins (M. A. Hediger, (1984) Anal. Biochem. 142, 445-454) has been used successfully for separating DNA restriction fragments. The apparatus displayed yields and resolutions that are higher than those obtainable with commercially available devices. The amounts of DNA applied to the column range from a few micrograms to milligram quantities. Restriction DNA fragments very similar in size were isolated in pure form with the apparatus. After ethanol precipitation, these fragments were successfully used for restriction enzyme cleavages, ligation, or chemical sequencing. Furthermore the apparatus provides a convenient method for the large-scale isolation of plasmid DNA. The method requires only 4 h of electrophoresis and therefore greatly reduces the preparation time compared with the conventional equilibrium centrifugation method which requires centrifugation times of up to 60 h. In contrast to the centrifugation method, contaminants such as RNA, proteins, and chromosomal DNA are efficiently removed by this technique.

Conserved TAAATG sequence at the transcriptional and translational initiation sites of vaccinia virus late genes deduced by structural and functional analysis of the HindIII H genome fragment

The sequence of the 8,600-base-pair HindIII H fragment, located at the center of the vaccinia virus genome, was determined to analyze several late genes. Seven major complete open reading frames (ORFs) and two that started from or continued into adjacent DNA segments were identified. ORFs were closely spaced and present on both DNA strands. Some adjacent ORFs had oppositely oriented overlapping termination codons or contiguous stop and start codons. Nucleotide compositional analysis indicated that the A-T frequency was consistently lowest in the first codon position. The sizes of the polypeptides predicted from the DNA sequence were compared with those determined by polyacrylamide gel electrophoresis of cell-free translation products of mRNAs selected by hybridization to cloned single-stranded DNA segments or synthesized in vitro by bacteriophage T7 RNA polymerase. Six transcripts that initiated within the HindIII H DNA fragment were detected, and of these, four were synthesized only at late times, one was synthesized only early, and one was synthesized early and late. The sites on the genome corresponding to the 5' ends of the transcripts were located by high-resolution nuclease S1 analysis. For late genes, the transcriptional and translational initiation sites mapped within a few nucleotides of each other, and in each case the sequence TAAATGG occurred at the start of the ORF. The extremely short leader and the absence of A or G in the -3 position, relative to the first nucleotide of the initiation codon, distinguishes the majority of vaccinia virus late genes from eucaryotic and vaccinia virus early genes.

Vaccinia virus expression vector: coexpression of beta-galactosidase provides visual screening of recombinant virus plaques

We constructed a plasmid coexpression vector that directs the insertion of a foreign gene of interest together with the Escherichia coli beta-galactosidase (beta gal) gene into the thymidine kinase (TK) locus of the vaccinia virus genome. Tissue culture cells that had been infected with vaccinia virus were transfected with a plasmid vector containing a foreign gene. TK- recombinants could be selected by a plaque assay on TK- cells in the presence of 5-bromodeoxyuridine and distinguished from spontaneous TK- mutants by the addition of a beta-gal indicator to the agarose overlay. Plaques that expressed beta-gal stained dark blue within several hours at 37 degrees C. Alternatively, TK- selection could be eliminated, and recombinant plaques could be readily identified solely by their blue color. The reverse procedure, in which the starting virus expresses beta-gal (i.e., forms blue plaques) and the desired recombinant has deleted the entire beta-gal gene (i.e., forms white plaques), is another alternative. Each protocol was tested by constructing vaccinia virus recombinants that express hepatitis B virus surface antigen.

Molecular genotyping of human T-cell antigen receptor variable gene segments

The gene complex encoding the beta chain of the T-cell antigen receptor (Tcr) in man was previously reported to contain a restriction fragment length polymorphism (RFLP) involving a single Bgl II site adjacent to the second constant region gene. This RFLP allowed assignment of Tcr beta genotypes in certain human families. In the present study, two different RFLP in a V beta gene family were detected using the murine probe V8.1 in genomic DNA samples digested with the restriction endonucleases Hind III and Bam HI. Use of these RFLP to mark the V beta gene complex allowed complete haplotype assignment in four of seven families studied and provided support for linkage of the V gene complex to the constant region genes. Different combinations of the C and two V region markers can result in eight possible distinct haplotypes. The observation of all but one of the eight possible haplotypes in parents of the families studied suggests that recombination events occur between the C and V region and among members of the V region subfamily marked by the V8.1 probe. These markers can be used for mapping studies of the V beta gene complex in man and will allow an appraisal of possible associations between Tcr beta genes and disease susceptibility.

Immunologic selection of simian virus 40 (SV40) T-antigen-negative tumor cells which arise by excision of early SV40 DNA

A clonal line of highly oncogenic spontaneously transformed mouse cells (104C) was transformed in tissue culture by simian virus 40 (SV40) and subsequently recloned (106CSC). This 106CSC cell line expressed T antigen and transplantation antigen but was about 100 times less tumorigenic than the 104C parent. When 10(5) 106CSC cells were injected into immunocompetent syngeneic mice, tumors were produced. From such tumors, cell lines were established in culture, all of which were consistently negative for T antigen. We found previously by solution DNA hybridization methods that the tumor cells were depleted in the early region of SV40 DNA which codes for the T antigen. We postulated that this loss occurs through a DNA rearrangement of unknown mechanism in one or a few 106CSC cells and that the tumors are then produced from such a cell or cells, whereas all the T-antigen-positive 106CSC cells are rejected by immunologic means. In this investigation we showed by the DNA transfer method using appropriately selected SV40 DNA probes that indeed the tumor cell clone (130CSCT) we selected to investigate came from one 106CSC cell in which the T-antigen-coding SV40 DNA sequences (but not all the early SV40 DNA sequences) were lost by an excision and recombination mechanism. We also showed that the 130CSCT cells, which are highly tumorigenic, could again be transformed by SV40 and that the resulting T-antigen-positive cloned derivative cells became much less tumorigenic (approximately 10(5)-fold), apparently again because of immunologic recognition and rejection. Indeed, when 10(7) T-antigen-positive cloned cells were injected, all the T-antigen-positive cells were rejected and the tumor was produced again from one or more T-antigen-negative cells. Thus, a one-step in vivo transplantation experiment allowed a selection (for tumorigenicity and against the SV40 T antigen) of a mutant mammalian cell with a DNA deletion at a definable site.

Escherichia coli mutS-encoded protein binds to mismatched DNA base pairs

The Escherichia coli mutS gene product is involved in mismatch correction in this organism. We have purified a biologically active form of the 97,000 Mr protein to near homogeneity from an overproducing strain. Enzymatic and chemical protection ("footprinting") experiments have demonstrated that mutS-encoded protein specifically binds to DNA regions containing a single base-pair mismatch. The protein displayed variable affinity for the limited set of mismatches tested (G-T greater than G-A approximately equal to A-C greater than T-C).

Resistance to human respiratory syncytial virus (RSV) infection induced by immunization of cotton rats with a recombinant vaccinia virus expressing the RSV G glycoprotein

A cDNA copy of the G glycoprotein gene of human respiratory syncytial virus (RSV) was placed under control of a vaccinia virus promoter and inserted into the thymidine kinase locus of the vaccinia virus genome. The recombinant vaccinia virus retained infectivity and expressed a 93-kDa protein that migrated with the authentic RSV G glycoprotein upon polyacrylamide gel electrophoresis. Glycosylation of the expressed protein and transport to the cell surface were demonstrated in the absence of other RSV proteins. Cotton rats that were inoculated intradermally with the infectious recombinant virus produced serum antibody to the G glycoprotein that neutralized RSV in vitro. Furthermore, the vaccinated animals were resistant to lower respiratory tract infection upon intranasal inoculation with RSV and had reduced titers of RSV in the nose.

High frequency DNA rearrangements associated with mouse centromeric satellite DNA

A DNA transformed mouse cell line, generated by the microinjection of a pBR322 plasmid containing the herpes thymidine kinase (tk) gene, was observed to exhibit a high frequency of DNA rearrangement at the site of exogenous DNA integration. The instability in this cell line does not appear to be mediated by the tk inserts or the immediately adjacent mouse DNA, but instead may be a consequence of the larger host environment at the chromosomal site of tk insertion. Results obtained from restriction analysis, in situ chromosome hybridizations, and cesium chloride density-gradient fractionations indicate that the tk inserts are organized as a single cluster of direct and inverted repeats embedded within pericentromeric satellite DNA. To determine the molecular identity of the flanking host sequences, one of the mouse-tk junction fragments was cloned, and subsequent restriction and sequence analyses revealed that this DNA fragment consists almost entirely of classical mouse satellite DNA. On the basis of these observations, we suggest that the instability in this cell line may reflect the endogenous instability or fluidity of satellite DNA.

Purification of small oligonucleotides by polyacrylamide gel electrophoresis and transfer to diethylaminoethyl paper

The application of polyacrylamide gel electrophoresis with subsequent electroelution onto DEAE paper for the purification of small oligonucleotides is described. We demonstrate that synthetic DNAs and hydrolyzed RNAs as small as three nucleotides in length can be purified by this technique. The product is undegraded and homogeneous in length.

Transcriptional and translational mapping and nucleotide sequence analysis of a vaccinia virus gene encoding the precursor of the major core polypeptide 4b

We prepared antiserum that reacted with a major core polypeptide of approximately 62,000 daltons (62K polypeptide), designated 4b, and its 74K precursor, designated P4b. A cell-free translation product of vaccinia virus late mRNA that comigrated with P4b was specifically immunoprecipitated. The late mRNA encoding P4b hybridized to restriction fragments derived from the left end of the HindIII A fragment and to a lesser extent from the right side of the HindIII D fragment. A polypeptide that comigrated with P4a, the precursor of another major core polypeptide, was synthesized by mRNA that hybridized to DNA segments upstream of the P4b gene. Complete nucleotide sequence analysis of the P4b gene revealed an open reading frame, entirely within the HindIII A fragment, that was sufficient to encode a 644-amino-acid polypeptide of 73K. The 5' end of the P4b mRNA was located at or just above the translational initiation site.

Vaccinia virus expression vector: coexpression of beta-galactosidase provides visual screening of recombinant virus plaques

We constructed a plasmid coexpression vector that directs the insertion of a foreign gene of interest together with the Escherichia coli beta-galactosidase (beta gal) gene into the thymidine kinase (TK) locus of the vaccinia virus genome. Tissue culture cells that had been infected with vaccinia virus were transfected with a plasmid vector containing a foreign gene. TK- recombinants could be selected by a plaque assay on TK- cells in the presence of 5-bromodeoxyuridine and distinguished from spontaneous TK- mutants by the addition of a beta-gal indicator to the agarose overlay. Plaques that expressed beta-gal stained dark blue within several hours at 37 degrees C. Alternatively, TK- selection could be eliminated, and recombinant plaques could be readily identified solely by their blue color. The reverse procedure, in which the starting virus expresses beta-gal (i.e., forms blue plaques) and the desired recombinant has deleted the entire beta-gal gene (i.e., forms white plaques), is another alternative. Each protocol was tested by constructing vaccinia virus recombinants that express hepatitis B virus surface antigen.

Use of a bacterial expression vector to identify the gene encoding a major core protein of vaccinia virus

The DNA sequence of a vaccinia virus late gene contains an open reading frame that corresponds to the 28,000-dalton (28K) polypeptide made by in vitro translation of hybrid-selected mRNA. To further characterize the protein product of this late gene, we cloned a segment of DNA containing part of the open reading frame into a bacterial expression vector. The fusion protein produced from this vector, containing 151 amino acids of the predicted vaccinia virus protein, was used to immunize rabbits. The resulting antiserum specifically bound to a major 25K structural protein that is localized in the core of vaccinia virions, as well as to a 28K protein found in infected cells. Pulse-chase experiments indicated that the 25K core protein is originally made as a 28K precursor.

Molecular determination of T-cell receptor alpha and beta chain genotypes in human families

Polymorphism in genes encoding the alpha and beta chain of the human T cell receptor has been detected by Southern blot analysis. Genomic DNA samples were isolated from B lymphoblastoid cell lines derived from members of families, each family including at least one individual with a recombinant HLA haplotype. T cell receptor alpha and beta chain haplotypes could be assigned in the families on the basis of observed restriction fragment length polymorphism (RFLP). Polymorphism in the alpha chain gene was detected in BglII digests using an alpha chain probe that included the V, J, C, and 3' untranslated sequences. A probe consisting of only the constant region (C alpha) revealed no polymorphism indicating that the polymorphic fragment hybridized to V, J, or 3' untranslated sequences of the alpha chain. Polymorphism in beta chain genes was observed in BglII digested DNA samples using a probe that corresponds to the constant region (C beta). Polymorphic C beta restriction fragments of 10.0 and 9.2 kilobase segregated in six of the eight families studied. Recent structural data for the C beta region suggest that the polymorphic BglII site lies in the region 5' to the C beta 2 gene. These polymorphisms should serve as markers for alpha and beta chain complexes allowing genetic studies of these immunologically important gene families.

A generally applicable improved method for preparation of single stranded cDNA probes from clones constructed in M13 vectors

A generally applicable simplified procedure for the preparation of radiolabeled cDNA hybridization probes from cDNA clones in M13 (M13mp8) bacteriophage vectors is described. A cDNA copy of the insert DNA is synthesized by controlled reaction with the Klenow fragment of E. coli DNA polymerase I, primed with oligo-dT or sequencing primer. The cDNA is separated from the recombinant phage DNA template by alkaline gel electrophoresis. Sensitivity of the cDNAs was tested by quantitative measurement of specific mRNAs in solution hybridization under RNA (R0t analysis) or cDNA (RNA titration) excess conditions. The procedure permits measurement of mRNA levels as small as 0.00001-0.00006% in total RNA preparation. Cellular accumulation of hormone-induced mRNAs for the milk proteins, whey acidic protein and epsilon-casein was also measured using the cDNAs.

Construction and identification of a cDNA clone for human type II procollagen mRNA

Double-stranded cDNA was constructed for poly(A)-containing RNA isolated from foetal human articular cartilage known to contain small amounts of pro alpha 1 (II) collagen mRNA. A 585 base pair PstI-EcoRI cDNA fragment was isolated and cloned into plasmid pBR322. A resulting recombinant plasmid pHCAR1 was shown to hybridize specifically to a 5.4 kilobase mRNA in cartilage but not in calvarial RNA. Definite identification of clone pHCAR1 was based on sequence analysis; marked homology with the corresponding chick gene and complete agreement with the human gene sequences available were observed.

Segregation of polymorphic T-cell receptor genes in human families

Polymorphism in the genes encoding the constant (C) region of the beta chain of the T-cell antigen receptor (CT beta, also called C beta) has been detected by molecular genotyping analyses. In initial screenings, a panel of restriction endonucleases was used to digest DNA samples from two individuals; the digested samples were subjected to Southern blot analyses using a CT beta probe. The enzyme Bgl II revealed restriction-fragment-length polymorphism in these samples and was subsequently used to test 59 individual members of eight different families. Polymorphic fragments detected in six of the families could be used to follow the segregation of T-cell receptor genes; in many cases maternal and/or paternal haplotypes could be assigned. All members of two additional families displayed a single CT beta hybridizing fragment. In one family the DNA sample from one of the children lacked an expected Bgl II restriction fragment. On the basis of analyses with other restriction enzymes, the most likely explanation is that the lymphoblastoid B-cell line used as a source of genomic DNA for this individual had rearranged or altered CT beta genes. Restriction-fragment-length polymorphisms used to discriminate CT beta haplotypes in families provide useful markers that will facilitate linkage studies and genetic analyses of T-cell function.

In vitro mutagenesis of the promoter region for a vaccinia virus gene: evidence for tandem early and late regulatory signals

A vaccinia virus gene that is expressed throughout the reproductive cycle was found to have two sets of RNA start sites approximately 55 nucleotides apart. The site nearest to the coding segment is used early in infection and the one further upstream is used after DNA replication. A series of 5' to 3' deletions were made in the promoter region, and the truncated DNA segments were then ligated to the coding portion of the procaryotic chloramphenicol acetyltransferase gene to measure expression. The effects of these mutations on chloramphenicol acetyltransferase synthesis were determined in a vaccinia virus helper-dependent transient expression system and by forming infectious vaccinia virus recombinants that contain the chimeric genes. Deletions extending up to 31 nucleotides before the late RNA start site had no effect on either early or late expression. Removal of an additional 15 nucleotides produced a dramatic decrease in late expression but had no effect on early expression. The latter was not diminished until the deletion was extended from 31 to 24 nucleotides before the early RNA start site. These results were confirmed by transcriptional analyses. We concluded that this vaccinia virus gene has two promoters and that the regulatory signals for each are located within 31 nucleotides of their sites of transcription.

Identification and characterization of a polyadenylated small RNA (s-poly A+ RNA) in dinoflagellates

A 104 nucleotide-long small RNA, referred to as s-poly A+ RNA, containing 30 adenosine residues on its 3' -end was found in dinoflagellates, purified and its nucleotide sequence was determined. The sequence is: (sequence text) The polyadenylation signal AAUAAA was not found in this RNA; this result indicates that the 30 nucleotide-long poly A on the 3' -end is either coded for by this gene, or the poly A chain is added on this small RNA by a mechanism different from that for polyadenylation of messenger RNAs. Two polyadenylated small RNAs identified previously were implicated in differentiation of chicken heart muscle cells (Deshpande, A. K., Jakowlew, S. B., Arnold, H., Crawford, P. A. and Siddiqui, M. A. Q. (1977) J. Biol. Chem. 252, 6521-6527), and in brain specific mRNA transcription (Sutcliffe, J. G., Milner, R. J., Gottesfeld, J. M. and Lerner, R. A. (1984) Nature 309, 237-241). This RNA is the first polyadenylated small RNA to be sequenced.

Isolation and characterization of a cis-acting mutation conferring catabolite repression resistance to alpha-amylase synthesis in Bacillus subtilis

Bacillus subtilis 168GR10 was shown to contain a mutation, gra-10, which allowed normal temporal activation of alpha-amylase synthesis in the presence of a concentration of glucose that is inhibitory to activation of amylase synthesis in the parent strain, 168. The gra-10 mutation was mapped by phage PBS-1-mediated transduction and by transformation to a site between lin-2 and aroI906, very tightly linked to amyE, the alpha-amylase structural gene. The gra-10 mutation did not pleiotropically affect catabolite repression of sporulation or of the synthesis of extracellular proteases or RNase and was unable to confer glucose-resistance to the synthesis of chloramphenicol acetyltransferase encoded by the cat-86 gene driven by the amyE promoter region (amyR1) inserted into the promoter-probe plasmid pPL603B. It therefore appears that gra-10 defines a cis-regulatory site for catabolite repression, but not for temporal activation, of amyE expression. The evidence shows that temporal activation and glucose-mediated repression of alpha-amylase synthesis in B. subtilis 168 are distinct phenomena that can be separated by mutation.

Molecular epidemiology of adenoviruses: global distribution of adenovirus 7 genome types

Adenovirus 7 (Ad7) is the adenovirus species that most frequently has been associated with severe illness. Seven distinct genome types of adenovirus 7, Ad7p, Ad7a, Ad7b, Ad7c, Ad7d, Ad7e, and Ad7f, can be identified by using restriction endonucleases BamHI and SmaI. We analyzed the distribution of the different Ad7 genome types among 314 isolates from patients and healthy shedders. The Ad7b and Ad7c genome types accounted for 90% of the isolates from patients and appeared to be mutually exclusive. A shift from Ad7c to Ad7b genome types occurred in 1969 in Europe and in 1975 in Australia. During the last decade, Ad7b genome types predominated in Australia, Europe, and North America. Ad7c was detected in South Africa, Ad7d was detected in China, Ad7e was detected in Brazil, and Ad7f was detected in Australia. The Ad7p and Ad7a genome types dominated among isolates obtained from healthy shedders and appeared scattered through the years and the geographical areas. The prevalence of Ad7 infections is high in Japan as judged by the herd immunity. However, the low percentage (2%) of Ad7 isolates among all adenovirus isolates chiefly from patients, coupled with 30 to 50% antibody prevalence, argues for a high proportion of inapparent infections and, hence, Ad7 strain(s) of low pathogenicity.

Immunological and biochemical characterization of human adenoviruses from subgenus B. II. DNA restriction analysis

47 adenovirus strains related to Ad11, 14, 16, 21, 34, and 35 (including all subgenus B prototypes) were analyzed by DNA restriction analysis with Bam HI, Bgl II, Hind III, and Sma I. Typical fragments occurring in most of the strains were observed only with Hind III. Besides Ad3 and 7, 20 different genome types were distinguished. A pairwise analysis of comigrating fragments was performed for all genome types and summarized for the four enzymes. A medium rate of comigrating fragments (50 to 60 per cent) was found between Ad11, 14, 34, and 35 strains; Ad16 and 21 had 35 to 50 percent comigrating fragments. Within each group of closely related strains, Ad16 strains, Ad21 strains, and Ad34 + 35 strains showed a high rate (greater than 70 per cent) of comigrating fragments. Ad3 and 7 showed more comigration with Ad16 and 21 than with the others. Sixteen strains related to Ad21 were identical in their DNA restriction pattern and by serology. The relatedness determined by fragment comigration and by serology was compared by a quantitative estimate. The DNA relationship between Ad11 + 14 and Ad34 + 35 was not corroborated by serology. Ad21 was serologically related to Ad34 and 35, but not to Ad16; the opposite was found for DNA. The intermediate Ad21-16 showed a unique DNA pattern with some relation to Ad16.

Mutational mechanisms by which an inactive replication origin of bacteriophage M13 is turned on are similar to mechanisms of activation of ras proto-oncogenes

M13 viral strand synthesis is initiated by nicking of the viral strand of the duplex replicative form by the M13 gene II initiator protein at a specific site within a sequence of about 40 base pairs having dyad symmetry. Efficient replication of the M13 viral strand also requires the presence of an adjacent sequence of ca. 100 base pairs. Together these sequences constitute the minimal origin for M13 viral strand synthesis. A pBR322 derivative having a 182-base-pair insert of M13 DNA contains a functional M13 viral strand origin and, when provided with M13 gene functions in trans, replicates under conditions nonpermissive for the parent plasmid. Chimeric plasmids containing deletions within the sequence flanking the viral strand origin are unable to replicate under these conditions. We isolated spontaneous mutants of M13 based on their ability to activate replication of such plasmids. The mutations found in these strains, as well as several produced by oligonucleotide-directed mutagenesis, all result in the substitution of any of at least four different amino acids for a specific glycine residue near the amino-terminal end of the initiator protein. Other studies have shown that overproduction of the wild-type initiator protein also restores replication. These alternate mechanisms are discussed in terms of their striking similarity to the mechanisms of activation of the ras proto-oncogenes which can be activated either by increased expression of the wild-type protein or by substitution of any of several amino acids for a glycine residue near the amino terminus.

Molecular cloning of the terminal hairpin of vaccinia virus DNA as an imperfect palindrome in an Escherichia coli plasmid

The genome of vaccinia virus is a linear duplex molecule of approximately 185 kb with hairpins at each end that link the complementary strands. The hairpins, which exist in two forms that are inverted and complementary in sequence, were isolated as XbaI restriction fragments and converted to a linear intermolecular duplex structure by denaturation and reannealing. The latter was then stably cloned as a 142-bp imperfect palindrome in an Escherichia coli plasmid. The insert was excised from the plasmid and the palindrome was extended on both sides by ligating it to the adjacent vaccinia virus DNA segment. The resulting fragment was cloned as a 278-bp imperfect palindrome. Restriction endonuclease analysis and DNA sequencing indicated the absence of any deletions or rearrangements. After excision from the plasmid, the palindrome was converted by heating and rapid cooling to the original two hairpin forms. In this manner, large quantities of vaccinia virus telomeres may be obtained for physical and biochemical studies.

Cloning of Escherichia coli and Pseudomonas aeruginosa phosphomannose isomerase genes and their expression in alginate-negative mutants of Pseudomonas aeruginosa

The phosphomannose isomerase (pmi) gene of Escherichia coli was cloned on a broad-host-range cosmid vector and expressed in Pseudomonas aeruginosa at a low level. Plasmid pAD3, which harbors the E. coli pmi gene, contains a 6.2-kilobase-pair HindIII fragment derived from the chromosome of E. coli. Subcloning produced plasmids carrying the 1.5-kilobase-pair HindIII-HpaI subfragment of pAD3 that restored alginic acid production in a nonmucoid, alginate-negative mutant of P. aeruginosa. This fragment also complemented mannose-negative, phosphomannose isomerase-negative mutants of E. coli and showed no homology by DNA-DNA hybridization to P. aeruginosa chromosomal DNA. By using a BamHI constructed cosmid clone bank of the stable alginate producing strain 8830, we have been able to isolate a recombinant plasmid of P. aeruginosa origin that also restores alginate production in the alginate-negative mutant. This new recombinant plasmid, designated pAD4, contained a 9.9-kilobase-pair EcoRI-BamHI fragment with the ability to restore alginate synthesis in the alginate-negative P. aeruginosa. This fragment showed no homology to E. coli chromosomal DNA or to plasmid pAD3. Both mucoid and nonmucoid strains of P. aeruginosa had no detectable levels of phosphomannose isomerase activity as measured by mannose 6-phosphate-to-fructose 6-phosphate conversion. However, P. aeruginosa strains harboring the cloned pmi gene of E. coli contained measurable levels of phosphomannose isomerase activity as evidenced by examining the conversion of mannose 6-phosphate to fructose 6-phosphate.

Eukaryotic transient expression system dependent on transcription factors and regulatory DNA sequences of vaccinia virus

A transient expression system in which chimeric genes are expressed in cells infected with vaccinia virus was developed. Recombinant plasmids containing the promoter regions of vaccinia virus genes ligated to the coding segment of the prokaryotic chloramphenicol acetyltransferase (CAT) gene were constructed. When the plasmids were introduced into vaccinia virus-infected cells by transfection, the chimeric gene was expressed and significant levels of CAT accumulated. CAT activity was not detected when the same recombinant plasmid was introduced into uninfected cells, nor was activity detected when the vaccinia virus promoter was absent from the plasmid or was replaced by simian virus 40 or Rous sarcoma virus promoters. This specificity indicated that expression is dependent on a cis-acting vaccinia virus promoter region within the recombinant plasmid and diffusible trans-acting transcription factors produced during virus infection. The lack of effect of a simian virus 40 enhancer element inserted upstream of the vaccinia virus promoter region also distinguished this system from systems dependent on RNA polymerase II. Although replication of the recombinant plasmid could not be detected in either uninfected or vaccinia virus-infected cells, an inhibitor of DNA synthesis significantly reduced CAT expression. This result, as well as the kinetics of CAT synthesis, suggests that replication of viral DNA templates can enhance transcription of chimeric genes in recombinant plasmids.

Isolation and the 5'-end nucleotide sequence of Bacillus licheniformis alpha-amylase gene

We have isolated and determined the 5'-end nucleotide sequence of the alpha-amylase gene from Bacillus licheniformis ATCC 14580. The alpha-amylase produced by this strain is thermostable and of liquefying type. The gene was originally cloned in a bacteriophage lambda 1059 vector. A subclone containing a 5.3 X 10(3)-base insert in pBR322 was further characterized. The nucleotide sequence coding for the 5' end of the structural gene together with the sequence coding for the upstream control regions was determined. The deduced N-terminal amino acid sequence was identical with the previously published amino acid sequence of B. licheniformis alpha-amylase. There was also very strong homology to the N-terminal sequence of Bacillus amyloliquefaciens alpha-amylase. The Mr of the thermostable alpha-amylase, as determined in vitro in a cell-free transcription/translation system of Escherichia coli, was about 55 000.

Conservative replication of double-stranded RNA in Saccharomyces cerevisiae by displacement of progeny single strands

Saccharomyces cerevisiae contains two double-stranded RNA (dsRNA) molecules, L and M, encapsulated in virus-like particles. After cells are transferred from dense (13C 15N) to light (12C 14N) medium, only two density classes of dsRNA are found, fully light (LL) and fully dense (HH). Cells contain single-stranded copies of both dsRNAs and, at least for L dsRNA, greater than 99% of these single strands are the positive protein-encoding strand. Single-stranded copies of L and M dsRNA accumulate rapidly in cells arrested in the G1 phase. These results parallel previous observations on L dsRNA synthesis and are consistent with a role of the positive single strands as intermediates in dsRNA replication. We propose that new positive strands are displaced from parental molecules and subsequently copied to produce the completely new duplexes.

Yeast gene CDC8 encodes thymidylate kinase and is complemented by herpes thymidine kinase gene TK

The herpes simplex virus type 1 thymidine kinase gene TK complements the defect in five temperature-sensitive mutants and in vitro constructed insertion and deletion mutants of the CDC8 gene of Saccharomyces cerevisiae. The herpes thymidine kinase enzyme acts as both a thymidine kinase and a thymidylate kinase (dTMP kinase). The latter activity is responsible for the cdc8 complementation since all thermosensitive cdc8 mutants are deficient in dTMP kinase activity at all temperatures. However, an intragenic revertant, cdc8-320, which was selected by demanding mitotic growth at the restrictive temperature, exhibits thermolabile dTMP kinase activity. We conclude that CDC8 is the structural gene for dTMP kinase, which catalyzes an essential step in DNA precursor biosynthesis. Previously, it has been shown that the DNA replication defect of cdc8 mutants could not be bypassed by the addition of deoxyribonucleoside triphosphates to permeabilized cells. This apparent discrepancy can be explained by hypothesizing a multiprotein yeast DNA replication complex containing the CDC8 protein.

Regulation of expression and nucleotide sequence of a late vaccinia virus gene

A subset of vaccinia virus genes are expressed only after DNA replication. To investigate the regulation of such transcriptional units, a representative gene encoding a major late polypeptide (Mr, 28,000) was mapped and sequenced. Translatable mRNAs were heterogeneous in length and overlapped several early genes downstream. The 5' end of the message was located, and the DNA segment upstream was excised and ligated to the coding sequence of the easily assayable procaryotic chloramphenicol acetyltransferase gene. The resulting chimeric gene was recombined into the thymidine kinase locus of the vaccinia virus genome, and infectious recombinant virus was isolated. Both the time of chloramphenicol acetyltransferase synthesis in infected cells and the requirement for DNA replication indicate that the sequence upstream of the late gene contains cis-acting transcriptional regulatory signals.

Conservative replication of double-stranded RNA in Saccharomyces cerevisiae by displacement of progeny single strands

Saccharomyces cerevisiae contains two double-stranded RNA (dsRNA) molecules, L and M, encapsulated in virus-like particles. After cells are transferred from dense (13C 15N) to light (12C 14N) medium, only two density classes of dsRNA are found, fully light (LL) and fully dense (HH). Cells contain single-stranded copies of both dsRNAs and, at least for L dsRNA, greater than 99% of these single strands are the positive protein-encoding strand. Single-stranded copies of L and M dsRNA accumulate rapidly in cells arrested in the G1 phase. These results parallel previous observations on L dsRNA synthesis and are consistent with a role of the positive single strands as intermediates in dsRNA replication. We propose that new positive strands are displaced from parental molecules and subsequently copied to produce the completely new duplexes.

A method for recovering strand-specific probes from nick-translated DNA fragments

A method of preparing strand-specific probes for DNA X DNA or DNA X RNA hybridizations is described. Double-stranded DNA fragments are first isolated from any recombinant DNA clone containing the desired sequence, and then labeled in vitro by nick-translation (T. Maniatis, A. Jeffrey, and D. G. Kleid (1975) Proc. Natl. Acad. Sci. USA 72, 1184-1188; P. W. J. Rigby, M. Dieckmann, C. Rhodes, and P. Berg (1977) J. Mol. Biol. 113, 237-251). Sequences homologous to the desired strand are captured by annealing the denatured nick-translate to viral strands of an appropriate M13 clone, and recovered by elution of the resulting hybrids from a column of agarose A50M (Bio-Rad). By this method, separate probes with specificity to either strand, as well as the double-stranded probe, may conveniently be prepared from a single nick-translation reaction. Probes may be obtained which are homologous either to the full length of the cloned region or to selected portions thereof by selecting appropriate M13 clones for annealing. The probe is recovered as a population of fragments several hundred bases or less in length, which have been found ideal for saturating liquid hybridizations, and should be similarly well suited for in situ hybridizations to cytological preparations.

Nucleotide sequence of the gene encoding respiratory syncytial virus matrix protein

The amino acid sequence of the matrix protein of the human respiratory syncytial virus (RS virus) was deduced from the sequence of a cDNA insert in a recombinant plasmid harboring an almost full-length copy of this gene. It specifically hybridized to a single 1,050-base mRNA from infected cells. The recombinant containing 944 base pairs of RS viral matrix protein gene sequence lacked five nucleotides corresponding to the 5' end of the mRNA. The nucleotide sequence of the 5' end of the mRNA was determined by the dideoxy sequencing method and found to be 5' NGGGC, wherein the C residue is one nucleotide upstream of the cloned viral sequence. The initiator ATG codon for the matrix protein is embedded in an AATATGG sequence similar to the canonical PXXATGG sequence present around functional eucaryotic translation initiation codons. There is no conserved sequence upstream of the polyadenylate tail, unlike vesicular stomatitis virus and Sendai virus, in which four nucleotides upstream of the polyadenylate tail are conserved in all genes. There is no equivalent of the eucaryotic polyadenylation signal AAUAAA upstream of the polyadenylate tail. The matrix protein of 28,717 daltons has 256 amino acids. It is relatively basic and moderately hydrophobic. There are two clusters of hydrophobic amino acid residues in the C-terminal third of the protein that could potentially interact with the membrane components of the infected cell. The matrix protein has no homology with the matrix proteins of other negative-strand RNA viruses, implying that RS virus has undergone extensive evolutionary divergence. A second open reading frame potentially encoding a protein of 75 amino acids and partially overlapping the C terminus of the matrix protein was also identified.

General method for production and selection of infectious vaccinia virus recombinants expressing foreign genes

The production and selection of infectious vaccinia virus recombinants expressing foreign genes was facilitated by the construction of plasmid vectors. These vectors contain all or part of the vaccinia virus thymidine kinase (TK) gene interrupted by multiple unique restriction endonuclease sites placed adjacent to the TK promoter or another promoter translocated within the TK gene. The insertion of a continuous coding sequence for a foreign protein at one of the unique restriction endonuclease sites juxtaposes the transcriptional start site of a vaccinia promoter and the translational start site of a foreign gene. After transfection of vaccinia virus-infected cells with such plasmids, homologous recombination occurs between the vaccinia virus sequences flanking the chimeric gene and the same sequences within the virus genome. Recombinants formed in this manner have the chimeric gene inserted within the body of the vaccinia virus TK gene under control of a vaccinia virus promoter. Since recombinants have an interrupted TK gene, they are selected on the basis of their TK- phenotype and then checked for the presence and expression of the foreign gene. Infectious recombinant viruses expressing the procaryotic enzyme chloramphenicol acetyltransferase were constructed to optimize the system. The absence of chloramphenicol acetyltransferase activity in uninfected cells or in cells infected with wild-type vaccinia virus and the availability of a sensitive and quantitative enzyme assay allowed an estimation of the relative strengths of various promoter constructs. The expression of chloramphenicol acetyltransferase was detected within 1 h after infection of cells with recombinant virus, reflecting the early nature of the promoters used.

Isolation and characterization of genomic clones corresponding to the human type II procollagen gene

A recombinant human DNA library was screened using probes corresponding to the chick alpha 1 (II) procollagen gene. This resulted in the isolation of 2 different genomic clones, LgHCol(II)a and LgHCol(II)b. LgHCol(II)a was identified as corresponding to the alpha 1(II) gene by comparative hybridization and DNA sequence analysis. DNA sequence established that LgHCol(II)a extends at least from amino acid 694 of the triple helix through 54 amino acids of the COOH-propeptide. Hybridization with a probe containing only the exon at the 3' end of the chicken gene suggests that the clone contains the 3' end of the human gene. Thus LgHCol(II)a contains approximately 40% of the coding sequences of the human type II collagen gene.