Showing papers on "Lambda phage published in 1981"

lambda Repressor and cro--components of an efficient molecular switch.

Abstract: In a lysogen, most genes of phage lambda are repressed; in response to a transient induction signal, they are efficiently switched on. The switch, which consists in part of a tripartite operator to which two regulatory proteins bind, depends not only on DNA--protein interactions, but also on effects transmitted from one DNA-bound protein to another. lambda Exemplifies a strategy that facilitates efficient switching between two physiological states in response to a transient signal.

Purified |[lambda]| regulatory protein cII positively activates promoters for lysogenic development

Abstract: The bacteriophage lambda regulatory protein, cII, has been purified and shown to activate positively RNA transcription from the two phage promoters which coordinately regulate phage lysogenic development. To obtain this protein, the cII gene was cloned into a plasmid vector carrying the strong, regulatable lambda phage promoter PL such that it was overproduced to levels approaching 5% of cellular protein.

Identification of a second Escherichia coli groE gene whose product is necessary for bacteriophage morphogenesis

Abstract: Previous work has uncovered the existence of an Escherichia coli locus, groE, that is essential for bacterial growth, lambda phage and T4 phage head morphogenesis, and T5 phage tail assembly. Our genetic and biochemical analyses of lambda groE+ transducing phages and their deletion and point mutant derivatives show that the groE locus consists of two closely linked genes. One groE gene, groEL, has been shown to encode the synthesis of a 65,000 Mr polypeptide, whereas the second, groES, codes for the synthesis of a 15,000 Mr polypeptide. About half of the groE- bacterial isolates fall into the groES complementation group. GroE mutations in either gene cause similar phenotypes, with respect to lambda phage head morphogenesis and bacterial growth at nonpermissive temperatures.

Cloning of cDNA of major antigen of foot and mouth disease virus and expression in E. coli

Abstract: Double-stranded DNA copies of the single-stranded genomic RNA of foot and mouth disease virus have been cloned into the Escherichia coli plasmid pBR322. A restriction map of the viral genome was established and aligned with the biochemical map of foot and mouth disease virus. The coding sequence for structural protein VP1, the major antigen of the virus, was identified and inserted into a plasmid vector where the expression of this sequence is under control of the phage lambda PL promoter. In an appropriate host the synthesis of antigenic polypeptide can be demonstrated by radioimmunoassay.

Evidence that ribosomal protein S10 participates in control of transcription termination

Abstract: We report the isolation of an Escherichia coli K-12 strain with a mutation, nusE71, that results in a change in ribosomal protein S10. Phage lambda fails to grow in hosts carrying the nusE71 mutation because the lambda N gene product is not active. The N product regulates phage gene expression by altering transcription complexes so that they can overcome termination barriers. This suggests that a ribosomal protein is involved in antitermination of transcription.

New nalidixic acid resistance mutations related to deoxyribonucleic acid gyrase activity.

Abstract: In Escherichia coli K-12 mutants which had a new nalidixic acid resistance mutation at about 82 min on the chromosome map, cell growth was resistant to or hypersusceptible to nalidixic acid, oxolinic acid, piromidic acid, pipemidic acid, and novobiocin. Deoxyribonucleic acid gyrase activity as tested by supercoiling of lambda phage deoxyribonucleic acid inside the mutants was similarly resistant or hypersusceptible to the compounds. The drug concentrations required for gyrase inhibition were much higher than those for cell growth inhibition but similar to those for inhibition of lambda phage multiplication. Transduction analysis with lambda phages carrying the chromosomal fragment of the tnaA-gyrB region suggested that one of the mutations, nal-31, was located on the gyrB gene.

Molecular cloning and comparative analyses of the genomes of simian sarcoma virus and its associated helper virus.

Abstract: Closed circular viral DNA of simian sarcoma virus (SSV) and simian sarcoma-associated virus (SSAV) obtained from acutely infected dog cells was purified on preparative agarose gels, cleaved with EcoRI, and cloned in the phage lambda vector Charon 21A. The cloned 9-kilobase SSAV genome (B11) has the same restriction map as the bulk of the unintegrated linear SSAV DNA intermediate. Heteroduplex analysis between an SSV clone (lambda-C60) and an SSAV clone (lambda-B11) showed two substitution loops and one deletion loop. By using detailed restriction enzyme mapping and electron microscopic analysis, we showed that one of the substitution loops corresponds to an inversion of one of the two long terminal repeat units and adjacent cellular sequences in C60. The other substitution loop mapped close to the 3' long terminal repeat. At least part of this region was shown to contain SSV-specific sequences not shared by SSAV. The 1.9-kilobase deletion mapped at 3.5-5.5 kilobases of the linear SSAV genome, corresponding to most, if not all, of the pol gene.

Direct role of the himA gene product in phage lambda integration.

Abstract: The integration of phage lambda into the Escherichia coli chromosome is accomplished by a site-specific recombination between two unique DNA sequences (attB on the bacterial genome and attP on the phage; reviewed in refs 2, 3) and requires proteins encoded by both the bacterium and the phage Genetic and biochemical studies have shown that bacterial strains mutant in the himA gene, located at 38 min on the E coli map, are defective in the activity of the host-encoded component They are, moreover, defective for the growth of bacteriophage Mu, for precise excision of transposable antibiotic resistance determinants and for the synthesis of the lambda int gene product We now show that the himA gene product (phimA) is not solely a regulator of genes involved in integration but is one of two host polypeptides required for integrative recombination

Hybridization selection and cell-free translation of mRNA's encoded within the inverted terminal repetition of the vaccinia virus genome.

Abstract: Early polypeptides encoded within the 10,000-base pair terminally repeated region of the vaccinia virus genome were mapped by cell-free translation of mRNA that was selected by hybridization to restriction fragments and to separated strands of a recombinant lambda phage. The results, which were confirmed by hybrid arrest of translation, indicated that polypeptides of 7,500 (7.5K), 19,000 (19K), and 42,000 (42K) daltons mapped at approximately 3.2 to 4.3, 6.5 to 7.2, and 7.2 to 8.3 kilobase pairs from the end of the genome, respectively. mRNA's for the 42K and 7.5K polypeptides were transcribed towards the end of the genome, whereas mRNA for the 19K polypeptide was transcribed in the opposite direction. Including polyadenylic acid tails, the lengths of the mRNA's for the 7.5K, 19K, and 42K polypeptides, determined by gel electrophoresis of denatured RNA, hybridization selection, and cell-free translation, were approximately 1,200, 680, and 1,280 nucleotides, respectively. mRNA's for the 42K and 19K polypeptides were only about 100 nucleotides longer than the minimums required to code for their respective polypeptides, whereas mRNA for the 7.5K polypeptide contained 900 nucleotides of untranslated sequence. This long untranslated portion of the latter mRNA was probably located near the 3' end, because this gene was only inactivated by high doses of UV irradiation. This small target size also excluded certain models for RNA processing involving formation of the mRNA's for the 42K and 7.5K polypeptides from a common promoter. Rabbitpox virus, which has an inverted terminal repetition approximately half that of vaccinia virus, was also shown to encode mRNA's that hybridized to the cloned terminal segment of vaccinia virus DNA.

Physical characterization of the ilvHI operon of Escherichia coli K-12.

Abstract: The ilvHI and leu genes of Escherichia coli K-12 are contained on a single 10.9-kilobase EcoRI fragment of deoxyribonucleic acid derived from the leu transducing phage lambda G4. Since the expression of all of these genes is controlled by leucine, we investigated whether they are part of single operon or whether they constitute separate but adjacent operons controlled from a common site. Both cloning and hybridization studies indicated that ilvHI and leu are distinct operons. They are transcribed in opposite directions and are separated by approximately 1,500 base pairs of deoxyribonucleic acid. Hybridization experiments showed that the expression of ilvHI is regulated chiefly at the level of transcription. The size of the ilvHI messenger ribonucleic acid is estimated to be 2,550 bases.

In vivo and in vitro functional alterations of the bacteriophage lambda receptor in lamB missense mutants of Escherichia coli K-12.

Abstract: lamB is the structural gene for the bacteriophage lambda receptor in Escherichia coli K-12. In vivo and in vitro studies of the lambda receptor from lamB missence mutants selected as resistant to phage lambda h+ showed the following. (i) Resistance was not due to a change in the amount of lambda receptor protein present in the outer membrane but rather to a change in activity. All of the mutants were still sensitive to phage lambda hh*, a two-step host range mutant of phage lambda h+. Some (10/16) were still sensitive to phage lambda h, a one-step host range mutant. (ii) Resistance occurred either by a loss of binding ability or by a block in a later irreversible step. Among the 16 mutations, 14 affected binding of lambda h+. Two (lamB106 and lamB110) affected inactivation but not binding; they represented the first genetic evidence for a role of the lambda receptor in more than one step of phage inactivation. Similarly, among the six mutations yielding resistance to lambda h, five affected binding and one (lamB109) did not. (iii) The pattern of interactions between the mutated receptors and lambda h+ and its host range mutants were very similar, although not identical, in vivo and in vitro. Defects were usually more visible in vitro than in vivo, the only exception being lamB109. (iv) The ability to use dextrins as a carbon source was not appreciably affected in the mutants. Possible working models and the relations between phage infection and dextrins transport were briefly discussed.

In vitro transcription of the inverted terminal repetition of the vaccinia virus genome: correspondence of initiation and cap sites.

Abstract: Specific RNAs synthesized in vitro by vaccinia virus cores were analyzed with the aid of DNA from the terminal 9,000 base pairs of the genome that was cloned in phage lambda, pBR322, and the single-stranded phage fl. Three mRNA's coding for polypeptides with molecular weights of 7,500 (7.5K), 19K, and 42K were shown to have sizes and map positions similar to those described for mRNA's made early in infection. A previously undescribed transcript made in vivo and in vitro, with a 5' end at about 8.7 kilobase pairs from the end of the genome, was also detected. After chemical removal of the terminal 7-methylguanosine residue, the 5' ends of the RNAs were specifically labeled by enzymatic capping and the mapped by gel electrophoresis of nuclease-resistant RNA.DNA hybrids, as well as by hybridization of the end-labeled RNA to immobilized DNA restriction fragments. Analysis of the purified cap structures demonstrated that three of the mRNA's have both m7G(5')pppAm and, m7G(5')pppGm ends, indicating some degree of terminal heterogeneity. The fourth transcript has exclusively m7G(5')pppAm ends. By synthesizing RNA in the presence of [beta-32P]GTP, it could be shown that cap sites correspond to sites of initiation of RNA synthesis.

Chi activity during transduction-associated recombination.

Abstract: Chi is a genetic element that stimulates phage lambda recombination by the Escherichia coli recBC pathway during lytic infection [Stahl, F. W. (1979) Annu. Rev. Genet. 13, 7--24]. Herein we show that chi in lambda prophage influences exchange distribution in P1 phage-mediated transduction and in conjugation. This demonstration encourages the view that chi may influence genetic exchange in E. coli in the total absence of lambda.

Genesis and Natural History of IS-mediated Transposons

Abstract: The natural genesis of IS1-mediated transposons containing the genetic determinant cat for chloramphenicol resistance is documented. First, the small plasmid pBR325 containing the cat gene served as a target in IS1-mediated transpositional cointegration with the genome of bacteriophage P1, which was the source of the IS1. From the resulting pBR325:P1 plasmids, pBR325::IS1 segregants were isolated. Upon growth of a phage lambda derivative in the presence of this plasmid, rare plaque-forming lambda Cmr specialized transducing phages were formed. In each of six independent lambda Cmr isolates studied, the cat gene was carried between flanking IS1 elements. In one case, these IS1 elements were in the same orientation; in the other five cases, they were in opposite orientation. All of these IS1-cat-IS1 structures transposed as units to the genome of phage P1-15, pointing to stable maintenance of the transposon. However, appropriate selection allowed us to follow the decay of these transposons. Models to explain the genesis of transposons with directly and inversely repeated IS elements are discussed, as well as the evolutionary implications of these mechanisms.

Synthesis of Human Interferon β1 in Escherichia coliInfected by a Lambda Phage Recombinant containing a Human Genomic Fragment

Abstract: DNA from a human adult was fragmented by partial digestion with restriction endonuclease EcoRI and cloned in lambda Charon 4A. Clone C15, with a human DNA insert of 17 X 10(3) bases, was identified as containing a gene for the fibroblast interferon, interferon beta 1. Restriction mapping shows that this gene, located on a 1840-base EcoRI fragment, is not interrupted by introns. Moreover, we show that this human genomic DNA fragment is able to direct the synthesis of active human interferon beta 1 in Escherichia coli. Interferon activity of up to 7 X 10(6) U/l was recovered from phage lysates by chromatography on Cibacron blue--Sepharose, and had the same immunological properties and species specificity as interferon produced by human fibroblasts.

Genetic and physiological tests of three phosphate-specific transport mutants of Escherichia coli.

Abstract: Phosphate-specific transport system mutations phoT35, pst-2, and phoS25-(Am) were mapped between bgl and glmS, at about 83 min on the Escherichia coli chromosome. All three mutations were recessive to wild-type genes on transducing bacteriophage lambda asn. The phoS25 (Am) and pst-2 mutations were also recessive to transducing phage lambda dglm; however, the phoT35 mutation was not. This suggests that phoT35 lies in a different complementation group from phoS25 (Am) or pst-2. Isogenic series of strains carrying these mutations were constructed in two genetic backgrounds, pit+ (wild type) and pit (relying entirely on the phosphate-specific transport system for phosphate uptake). The pst-2 pit double mutant was incapable of Pi utilization, but the phoT35 pit double mutant exhibited no such deficiency.

The DNA sequence of the phage lambda genome between PL and the gene bet

Abstract: We have determined 3,400 base pairs of DNA sequence from the phage gamma genome which starts to the right of PL and runs to the left into the gene bet. The sequence thus includes the genes, N, ral, Ea10, cIII, kil and gam, as well as the transcription terminators TL1 and TL2. One surprising feature of the sequence is the presence in the region expected to be occupied by ral of a long open reading frame that, if it is expressed, would have to be transcribed from left to right, or counter to transcription from PL.

Clonal analysis of early and late stages of erythroleukemia induced by molecular clones of integrated spleen focus-forming virus

Abstract: The integrated proviral DNA of the polycythemia-inducing isolate of Friend spleen focus-forming virus (SFFVp) has been identified in rat cell clones nonproductively infected with this replication-defective erythroleukemia virus and cloned in phage lambda vectors. These lambda SFFVp recombinants, lambda SFFVp502 and lambda SFFVp542, contain endonuclease EcoRI inserts of size 7.4 and 8.2 kilobases, respectively, and include full copies of the SFFVp genome, along with host flanking sequences. Infectivity of the cloned SFFVp genomes was tested by a two-step DNA transfer procedure involving transfection of the cloned DNA into 3T3 mouse fibroblasts or cotransfer of the cloned DNA into thymidine kinase-deficient 3T3 cells together with the cloned thymidine kinase gene of herpes simplex virus, followed by rescue of the transferred DNA by superinfection with a helper virus. Inoculation of the rescued virus into adult mice resulted in the appearance of spleen foci, rapid splenomegaly, and polycythemia. Early after infection, spleen cell populations contained large numbers of cells capable of forming small erythroid colonies in vitro (CFU-E) in the absence of erythropoietin. Late after infection, these mice contained cells capable of forming macroscopic colonies (CFU-FV) in vitro. These data indicate that molecular clones of SFFVp, in conjunction with a helper virus, induce the appearance of hemopoietic colony-forming cells characteristic of both the early and late stages of Friend leukemia.

Transcriptional and translational mapping of a 6.6-kilobase-pair DNA fragment containing the junction of the terminal repetition and unique sequence at the left end of the vaccinia virus genome.

Abstract: The penultimate EcoRI fragments from the left and right ends of the vaccinia virus genomes were cloned in phage lambda. Heteroduplex analysis and comparison of restriction fragments indicated that the inverted terminal repetition extended 780 base pairs (bp) beyond the EcoRI site or about 9,800 bp from each end of the genome. Detailed physical, transcriptional, and translational maps of the 6,600-bp left penultimate EcoRI fragment were prepared so as to extend previous maps of the 9,000-bp terminal EcoRI fragment. Polypeptides with molecular weights of 6,000 (6K polypeptide), 13,000, 19,000, 21,000, and 60,000 were synthesized in a reticulocyte cell-free system programmed with immediate early RNA (made in the presence of cycloheximide) or early RNA (made in the presence of cytosine arabinoside) and selected by hybridization to immobilized recombinant DNA. A 22K polypeptide was detected as a translation product of late RNA that hybridized to this DNA fragment. A variety of biochemical procedures were used to size and map the mRNA's. Of the five messages that hybridized to this 6,600-bp EcoRI fragment, only the one for the 21K polypeptide was encoded within the inverted terminal repetition and hybridized to the rightward-reading DNA strand. (Three additional early polypeptides were encoded within the first 9,000 bp of the inverted terminal repetition.) The remaining early polypeptides were encoded within the unique portion of the penultimate EcoRI fragment and were transcribed from the leftward-reading strand. Additional high-molecular-weight early RNAs of unknown function were also detected; however, there was no evidence indicating that mature mRNA's were spliced.

General method for fine mapping of the Escherichia coli K-12 lamB gene: localization of missense mutations affecting bacteriophage lambda adsorption.

Abstract: lamB is the structural gene for the bacteriophage lambda receptor, a multifunctional protein located in the outer membrane of Escherichia coli K-12. We present a method for deletion mapping of any lamB mutations with a recognizable pheno-type. This method involves a transducing phage constructed by in vitro recombination which can also be used for complementation, deoxyribonucleic acid sequence, and in vitro protein synthesis studies with the mutated lamB gene. Using this method, we mapped 18 lamB missense mutations which confer resistance to phage lambda h+ (wild-type host range). The main results were the following. (i) None of the 18 mutations was located in the first 4 deletion intervals out of the 11 of the genetic map. (ii) These mutations were clustered according to their phenotype as follows. (a) Class I mutations, which allow growth of lambda h and lambda hh* (one-step and two-step host range mutants of lambda, respectively), were located in three regions--three in interval V, four in interval VIII-IX, and three in interval X-XI. Only the last three mutations still allowed growth of phage K10 which also uses the lambda receptor, and two of them still allowed reversible binding of lambda h+. (b) All seven class II mutations allowed only growth of lambda hh* and mapped in interval V. These results are discussed in the frame of a genetic approach to the functional topology of the lambda receptor.

Molecular cloning and partial characterization of unintegrated linear DNA from gibbon ape leukemia virus

Abstract: We have cloned the complete genome of an oncogenic primate retrovirus, the San Francisco isolate of gibbon ape leukemia virus, in a lambda phage vector. DNA sequence analysis and restriction endonuclease mapping of the inserted linear provirus demonstrated 9-base pair inverted repeats at its ends, flanking direct terminal repeats 470 base pairs in length. The (-) strong stop region of this DNA showed surprisingly low sequence homology to that of another gibbon ape leukemia virus isolate from an animal with similar disease. Analysis of the clone also revealed the terminal phosphate configuration of the linear provirus. The recombinant phage is suitable for direct use as a hybridization probe to detect homologous retroviral sequences in human cell lines.

Restriction alleviation by bacteriophages lambda and lambda reverse.

Abstract: Deletion analysis indicated that the phage lambda restriction alleviation gene(s) ral resides between the cIII and N genes. The Ral+ phenotype was expressed only when lambda ral+ carried a modification such that it was resistant to restriction by the host specificity system. Under these conditions, Ral function protected superinfecting unmodified phages from restriction by EcoK or EcoB but not from restriction by EcoP1. Ral-protected phage DNA was not concomitantly K and B modified, but rather received only the modification specified by the system of the restricting host. Possible mechanisms for Ral action are discussed. Of the other lambdoid phages tested, the hybrid phage lambda rev had Ral activity, whereas phi 80vir and one lambda-P22 hybrid did not. The restriction alleviation activity of lambda rev called Lar, may be the same as the activity expressed in sbcA- strains of Escherichia coli, but it was functionally separable from exonuclease VIII activity (the product of the recE gene), which is also expressed in sbcA- strains.

Expression of the denV gene of bacteriophage T4 cloned in Escherichia coli

Abstract: The denV gene of bacteriophage T4 has been cloned into Escherichia coli K-12 by inserting appropriate fragments of cytosine-containing T4 DNA into the Sal I site of the plasmid pBR322. The denV gene codes for an enzyme that initiates the excision repair of pyrimidine dimers produced in DNA by UV. In uvrA recA mutants, deficient in an early step in excision repair, the cloned DNA results in enhanced UV resistance that is more pronounced in stationary- than in exponential-phase cultures. The expression of the cloned DNA also results in the enhanced survival of UV-irradiated phage lambda or of a denV mutant of phage T4 and in removal of dimers from the DNA of UV-irradiated cells.

Specialized transducing bacteriophage lambda carrying the structural gene for a major outer membrane matrix protein of Escherichia coli K-12.

Abstract: A specialized transducing phage lambda carrying the structural gene for the OmpF protein, an outer membrane matrix protein, was isolated. The phage carries the 20.5--21-min region of the Escherichia coli K-12 chromosome and carries asnS, ompF, and aspC genes.

Two-step cloning of the Escherichia coli regulatory gene ompB, employing phage Mu.

Abstract: It is difficult to clone directly some regulatory or structural genes on the basis of their functions, because of their obscure properties or the leakiness of their mutants. To overcome this problem, a two-step cloning method with use of phage Mu was developed and applied to cloning of the ompB gene, an obscure regulatory gene for major outer membrane proteins of Escherichia coli. The ompB gene was first inactivated by phage Mu insertion, and the approximately 25-kilobase (kb) EcoRI fragment, which hybridized with phage Mu DNA, was cloned into a plasmid vector, pBR322. This DNA fragment was considered to contain not only a portion of phage Mu DNA but also a portion of the ompB gene DNA. With this DNA as a probe, the wild-type ompB+ strain was found to contain a 12.7-kb EcoRI fragment which hybridized with the probe. In the second step, this 12.7-kb EcoRI fragment was cloned into a lambda phage vector, lambda 569. Lysogenization of an ompB mutant with this phage suppressed OmpB- phenotypes, indicating that the 12.7-kb EcoRI fragment carried the ompB gene. The same 12.7-kb DNA fragment, as well as a 3.8-kb EcoRI-BamHI subfragment, was cloned into pBR322. Both plasmid clones were able to suppress the OmpB- phenotypes upon transformation of an ompB mutant.