Mapping of gal minus-mutants by transducing lambda dg carrying deletions of the gal-region

Summary To map numerousgal ^--mutants ofE. coli, advantage is taken of the fact that transducing dg's can carry different amounts of bacterial DNA of the host from which they originated (Adler andTempleton, 1963).A method is described with which a large number of transducing dg can be easily isolated, differing from each other with respect to the amount of bacterial DNA of thegal-region. By observing whethergal ⁺-colonies can arise as the result of recombination betweengal ^--mutants and dg's carrying deletions in thegal-region, so far 104 kinaseless mutants and 96 transferaseless mutants could be ordered into 26 groups. The mapping-tests were done by spotting the mutants with 52 HFT-lysates of dg's lacking more or less of the kinase- or the kinase- and transferase gene.     

Human λ light chain locus: Organization and DNA sequences of three genomicJ regions

Evidence for the genomic organization of human lambda light chain joining (J) region gene segments is presented. A mouse J probe was used in Southern hybridizations to localize joining region sequences in a cosmid clone containing the genomic cluster of six human lambda constant (C) region gene segments. The results of these hybridizations suggest the presence of at least one J gene segment upstream from each constant region gene segment. The DNA sequences indicate that the human JI, J2, and J3 gene segments have consensus nonamer and heptamer sequences, proposed to be involved in V-J joining, are capable of encoding the known amino acid sequences for the respective J peptides, and have a sequence which could give functional RNA splice site at the end of their coding regions. Our data show that a single functional J is located 1.3 or 1.6 kb upstream of each of the C gene segments known to encode the Mcg, Kern^– Oz^–, and Kern^–Oz⁺ isotypes. Therefore, the gene organization of this region of the human lambda locus is J1 CI -J2C2-J3C3. The DNA sequences ofJ 1,J 2, andJ 3 presented in this paper establish that a singleJ gene segment precedes each expressed C gene segment, and support a model for the evolution of the human JC clusters where JICI andJ2C2-J3C3. arose from different ancestral JC units.     

Physiological relationship between the temperate phages lambda and phi80

Summary This work deals with the ability of phage 80 to provide defective mutants of with their missing functions. Functions Involved in Recombination. As shown by others, the Int mechanism of 80 cannot excise prophage . However, 80 efficiently excises recombinants from tandem dilysogens, using its Ter mechanism. Likewise, the nonspecific mechanism Red is interchangeable between 80 and . Maturation of DNA by 80. The Ter recombinants excised by 80 from tandem dilysogens are packaged into a 80 protein coat. This contrasts with the fact, already mentionned by Dove, that 80 is extremely inefficient for packaging phage superinfecting a -lysogen. The latter result is also found when the helper phage is a hybrid with the left arm of (80hy4 or 80hy41 — see Fig. 1). However, the maturation of the superinfecting is much more efficient if the 80hy used as a helper has the att-N region of (like 80hy1). Conversely a with the att-N region of 80 (hy6 — see Fig. 1) is packaged more efficiently by 80 or 80hy4 than by 80hy1. It is suggested that the maturation of chromosome superinfecting an immune cell requires a recombination with the helper phage. Vegetative Functions. Among the replicative functoons O and P, the latter only can be supplied by 80. That N mutants are efficiently helped by 80 does not tell that 80 provides the defective with an active N product; the chromosomes are simply packaged into a 80 coat. This shows that 80 is unable to switch on the late genes of . That neither 80 nor any of the 80hy tested can provide an active N product is shown in a more direct way by their complete failure to help N ^-r₁₄; this phage carries a polar mutation which makes the expression of genes O and P entirely N-dependant. The maturation of a N ^- by 80 contrasts with the fact that mutants affected in late genes (A, F or H) are not efficiently helped by 80. This suggests that the products coded by these genes are not interchangeable between 80 and , and that packaging of DNA into 80 coats is possible but inhibited when late proteins are present in the cell. Activation of the Late Genes. Among the im ₈₀ h ⁺ hybrids tested, only 80hy41 is able to switch on the late genes of a N defective mutant. This hybrid differs from the other hybrids studied here, by the fact that it has the Q-S-R region of (see Fig. 1). The results are consistant with the view that the product of Q gene is sufficient for activating the late genes of a DNA. N would thus control the expression of late genes only indirectly by controlling the expression of gene Q (Couturier & Dambly have independantly reached the same conclusion, 1970). Furthermore the failure of 80 and of the 80hy1 and 80hy4 to activate the late genes of would imply that these phages are unable to provide an Q product active on the chromosome Reciprocally, switches on the late genes of prophage 80hy41, but not of prophages 80hy1 and 80hy4. This suggests that the initiation of late genes expression takes place at a main specific site located in the Q-S-R region of the chromosome. The expression of the late genes would thus be sequential, and proceed through the left arm only when steaky ends cohere. Similar conclusions were reached independantly by Toussaint (1969) and by Herskowitz and Signer (1970).

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Ce travail a été réalisé dans le cadre du contrat d'association Euratom-U. L. B. 007-61-10 ABIB et avec l'aide du Fonds de la Recherche Fondamentale Collective.     

Cloning of the replication gene P of bacteriophage lambda: Effects of increased P-protein synthesis on cellular and phage DNA replication

Summary A restriction fragment of DNA carrying the P gene was cloned in the high copy number plasmid RSF2124. Cells harbouring this new plasmid RSF2124/E complement Pam80 phage. A lac promoter-operator region (lacP), produced by EcoRI digestion of plasmid pKB252, was inserted into RSF2124/glE such that induction of the lac promoter by IPTG or lactose leads to increased production of the P gene product. A high amount of P protein in E. coli cells results in a slow inhibition of bacterial DNA synthesis, suggesting that the initiation reaction is blocked by P protein. Synthesis of DNA proceeds normally under these conditions.Nonsuppressing groPA15 mutant bacteria which are unable to support the replication of wild-type (wt), acquire the ability to replicate Pam80 phage but not wt when they are transformed with a plasmid carrying the P gene. When harbouring a plasmid containing the mutant Pamber 80 gene, groPA15 mutants are able to support the replication of wt phage when infected at a high multiplicity. Pam80 phage does not multiply in these cells.     

Studies on the E. coli groNB (nusB) gene which affects bacteriophage lambda N gene function

Summary Escherichia coli mutants, called groNB, which block the growth of bacteriophage at the level of action of the gene N product, have been isolated as survivors at 42°C of bacteria carrying a) the defective prophage bio1 1 i cI857 H1 or b) the pcR1 plasmid containing the EcoRI immunity fragment of phage cI857. In addition, groNB bacterial mutants have been isolated at 37° C, as large colony formers in the presence of i cI h ⁴³⁴, i cI h , and i cI h ⁸⁰ phage. The groNB locus is located at 9 minute of the E. coli genetic map with the order of the neighboring loci being proC tsx groNB purE. Most groNB mutations isolated at 42° C were found to interfere in addition with bacterial growth at low temperatures, since (a) the GroNB phenotypes of growth inhibition and bacterial cold sensitivity cannot be separated by P1 transduction, and (b) some cold resistant revertants simultaneously become Gro⁺ for growth. Lambda transducing phages carrying the groNB ⁺ bacterial gene have been isolated. GroNB mutant bacterial lysogenized by the transducing phage acquire the Gro⁺ phenotype and simultaneously the cold resistant phenotype, suggesting that the groNB mutations are recessive to the wild-type gene.     

Construction and some properties of packageable plasmid F

Summary A derivative of plasmid F which is packageable in phage coat was constructed using techniques of in vitro recombination. This plasmid is composed of three DNA fragments generated by restriction enzyme EcoRI: a miniF fragment (fragment f5 of F'lac) which is able to replicate autonomously, a DNA fragment from Staphylococcus Plasmid that carries the -lactamase gene, and a portion of guaA (B) transducing phage DNA carrying cohesive ends (cos site) along with almost all the late genes but devoid of all those genes and sites that are needed for replication, regulation, and recombination. The hybrid plasmid has a molecular weight of 2.7×10⁷ daltons, about 84% size of phage genome, and can be packaged in coat when helper phage replicates in the plasmid-carrier cell. The package plasmid and the helper phage particles are separated by CsCl density gradient centrifugation. The replication characteristics of the recombinant plasmid are all those of F including the copy number, incompatibility, and curing with acidine orange. The packaged plasmid is injected into an F^- cell and establishes a plasmid state with normal efficiency. In F⁺ or Hfr cells, the resident F factor hinders this process.     

The origin of Q-independent derivatives of phage lambda

Summary qsr (Q-independent) phages are characterised by the replacement of the region of the genome that contains Q, S, R, and the late gene promoter, P_R, with host-derived DNA that codes for functions analogous to those deleted. Restriction endonuclease analysis and DNA/DNA hybridisation methods have been used to show that p4 and qin A 3, two such Q-independent phages, are the product of recombination between and a defective lambdoid prophage (the qsr prophage) located at an as yet unidentified site in the E. coli K 12 chromosome. The qsr prophage is distinct from the defective lambdoid prophage Rac (Kaiser and Murray 1979). In the E. coli K 12 strain AB1157 from which qsr phages cannot be generated, the qsr prophage has suffered an internal deletion. That the qsr prophage appears not to carry a full complement of essential late genes suggests one explanation for its apparently defective nature.     

Evidence that pretreatment of Escherichia coli cells with N-methyl-N''-nitro-N-nitrosoguanidine enhances mutability of subsequently infecting phage lambda

Summary The frequency of mutations in is significantly higher for host cells of a rec ⁺ or recA ^- strain pretreated with N-methyl-N-nitro-N-nitrosoguanidine (NG) than for untreated control cells. Direct NG treatment of DNA-injected host cells results in about tenfold higher mutation frequency in than NG treatment of host cells alone. Since mutability of is enhanced by UV preirradiation of host cells in the rec ⁺ strain but not in the recA ^- strain, indirect NG mutagenesis is different in mechanism from indirect UV mutagenesis. It is concluded that NG mutagenesis in consists of at least two processes: induction of rec ⁺-independent mutagenic activity in the host bacterium and production of rec ⁺-independent mutational damage to intracellular DNA.     

The p lambda CM system: phage immunity-specific incompatibility with IncP-1 plasmids

Summary A pCM2 replicon derived by an N^– deletion from ::Tn9 which carries the imm434 immunity region is incompatible with some (but not all) IncP-1 plasmids. The imm pCM1 replicon does not show the same incompatibility behavior.     

Regional replication of the bacterial chromosome induced by derepression of prophage lambda

Summary Derepression of prophage in E. coli strain K12 results in constitutive synthesis of the enzymes directed by the nearby bacterial operon, gal (escape synthesis). Phage 82 fails to cause escape synthesis despite that it lysogenizes the strain K12 at the site identical to that of on the host chromosome. The reason for the observed difference between 82 and is studied in the light of the recent finding that escape synthesis in -lysogen is closely associated to phage-promoted replication of bacterial chromosome contiguous to the prophage including gal operon (escape replication). Excision-defective mutants from 82, 82int or 82xis, do initiate escape synthesis, suggesting that the prophage 82 is normally excised too quickly after induction to allow sufficient escape replication. In support of this, much more DNA hybridizable to bacterial DNA contained in gal accumulates after induction of 82int than after induction of 82. Studies with various hybrid phages between 82 and have suggested: 1. The occurrence of gal escape synthesis depends on the nature of the region between b2 and N in the map. 2. Regions of the 82 genome on both sides of the attachment site contribute independently to prevent gal escape synthesis. Implications of these results are discussed with regard to the factors involved in the prophage excision.The IIIrd article of this series is in Molec. Gen. Genet. 159, 185–190 (1978)     

Normal expression of the viral gene N interferes with growth of bacteriophage lambda in Escherichia coli 15T-.

Summary Growth of and of some lambdoid phages is considerably inhibited on strain 3057 derived from E. coli 15T^-. Mutants of which overcome this inhibition map in gene N. Some of these hty mutants are temperature sensitive for growth on E. coli K12. Thus plating of on strain 3057 allows one to isolate temperature sensitive N mutants. The hty mutants produce less than normal N activity as judged by their low efficiency of plating on a nus ^- host and by the extended latent period of some of them on normal hosts. The inability of strain 3057 to propagate can be at least partially reversed by addition of thymidine to the medium and the growth difference between hty and in 3057 increases with decreasing thymidine concentration. The amount of DNA produced by in 3057 at low thymidine concentration is lower than that produced by hty under the same conditions. Only a small percentage of the DNA produced by in 3057 is packaged into viable phage particles. This suggests that not only produces less DNA in 3057 than hty but that an important part of the DNA in 3057 is in a form which can not be packaged or which is noninfective for other reasons. A hypothesis is discussed that hty mutations enable to grow on E. coli 15T^- at low thymidine concentration because they lead to reduction in the number of single strand nicks in the DNA by reducing the intracellular endonuclease activity. Under permissive conditions conditional lethal N mutants are favored for growth on 3057 over N ⁺ which confirms the idea that N activity or the activity of a gene under N control interferes with growth in 3057 at low thymidine concentration.     

Tandem duplication induced by an unusual ampA1-, ampC-transducing lambda phage: A probe to initiate gene amplification

Summary Secondary attachment site -lysogens were isolated in an Escherichia coli strain carrying multiple tandem 9.8 kb repeats. The repeat carried the structural gene for chromosomal -lactamase, ampC. One lysogen produced lysates with amp-transducing activity. Three types of phages with different densities were obtained from this lysogen. The one with the lowest density was found to be a helper cI857S7 phage. The other two phages showed identical restriction endonuclease fragmentation patterns. The difference in density was due to the presence or absence of phage tail. In damp the right cohesive end segment was deleted in a random fashion with the majority ending between 81.0% and 82.4% of . The chromosomal segment of damp was most likely located at the attachment site. The damp DNA was compared to that of a ColE1 hybrid carrying the chromosomal amp segment and a ColE1 hybrid carrying the same 9.8 kb amp repeat as the lysogen from which damp was isolated. It was found that the chromosomal part of damp constituted 9.8 kb, i.e. the size of one repeat. Moreover, the novel joint between adjacent repeats was present. In a attB-deleted E. coli K-12 strain, lysogenic for damp, highly ampicillin-resistant mutants occurred at an exceedingly high frequency. They were found to contain in the chromosome an amplified 9.8 kb repeat. This suggested that integration of the novel joint from damp into the amp region gives rise to an amplifiable duplication. In E. coli lysogenized for damp at attB highly ampicillin-resistant clones were also found at a high frequency. These clones carried multiple tandem repeats of damp DNA, each with an intact right end segment.     

Directed integration of an F'' plasmid by integrative suppression: isolation of plaque forming lambda transducing phage for the dnaC gene.

Summary A new approach for isolation of a plaque forming specialized transducing phage is described. It consists of directed transposition of an F plasmid into the gal region of a dnaAts galE ^- Escherichia coli strain by integrative suppression and deletion of the chlD region in order to shorten the distance between the marker of interest on the F and the prophage serving to prepare an LFT¹ lysate.An F danC ⁺ thr ⁺ plasmid was used here and dthr and ddnaC phages were isolated. In addition, pdnaC was obtained from a double lysogen for ddnaC and b2.     

Fertility functions of resistance factors

Summary The isolation of transducing phages carrying the tolPAB cluster is described. These genes map between gltA and gal in Escherichia coli, and thus are relatively close to att. To isolate these transducing phages, it was necessary to use a strain deleted of most of the intervening genes (nadA to chlD) between tolPAB and att. Using a lysogen of such a deletion strain, several defective dtol phages were isolated that carry different amounts of the tolPAB cluster.All of these dtolPAB phages were defective in both lysogenization and vegetative growth, and in this respect were similar to dgal transducing phages.The usefulness of such specialized transducing phages in studying the cell surface is discussed.Research Fellow of the National Cancer Institute of Canada.     

Bacteriophage lambda replication proteins: formation of a mixed oligomer and binding to the origin of lambda DNA

Summary The purified bacteriophage replication proteins O and P sediment separately in metrizamide gradients of low ionic strength as dimers. Together they interact with each other forming an oligomer, composed of two molecules of O and one molecule of P. The O-P oligomer is active in the in vitro replication of ori-containing DNA.Equilibrium sedimentation in preformed metrizamide density gradients under conditions that separate DNA-protein complexes from free proteins was employed in order to study possible interactions among the replication proteins and ori DNA. It was found that the P protein binds specifically to ori-containing plasmid DNA only in the presence of O protein. About 100 molecules of O and 10 molecules of P form a complex with the ori DNA. The DNA-O-P complex was shown to be active in an in vitro replication system.Since the physical interactions between ori and O and between P and the Escherichia coli dnaB replication protein are well documented, the evidence for a O-P interaction presented in this paper provides the missing link in the molecular mechanism that enables to direct the host replication machinery to the replication of its own DNA.     

Transduction of nitrate reductase loci of Escherichia coli by phages P-1 and lambda

Summary A lactate-nitrate medium suitable for genetic studies with nitrate reductase mutants (nar ^-) of Escherichia coli was devised. This permitted the selection of nar ^- strains by their failure to use nitrate as terminal electron acceptor during anaerobic growth, in addition to the selection procedure based on the chlorate resistance of nar ^- mutants. Transduction studies with phage P1 and nar ^- mutants from both sources demonstrated the existence of at least three nar genes in the gal region of the E. coli linkage map, their relative positions being: gal .... narF .... bio .... narD .... narE. Using phage cotransduction of narD with bio was observed and several independently-isolated defective -transducing phages were examined. Phage also transduced the narF gene with gal linkage but the narE gene was not -transducible.