Isolation and characterization of a plaque-forming lac-transducing phage phi80plac with special reference to its integration and excision

Summary From a double lysogen for 80dlac type II (Beckwith and Signer, 1966) and 80, we isolated a plaque-forming lac-transducing coliphage 80plac after selecting a strain with a suitable deletion in the 80 prophage. The lac region of the phage is i ⁺ o ⁺ z ⁺ y ⁺ a ^- and supposed to be located between genes 15 (N) and imm (CI). The phage showed feckless phenotype indicating deletion of genes of the red system. The phage is also deleted for int or att function, and integrates exclusively at the host lac region, largely dependent on the host rec system. Excision of the prophage upon UV-irradiation or by mating the male lysogen with a non-lysogenic female was efficient and largely dependent on the host rec system. But a considerable amount of rec-independent excision was observed at least in the case of zygotic induction, which was not likely to be caused by int-xis, red or ter system of the phage. 80plac/o ^e phage was also isolated by incorporation of o ^e1 mutation from strain 2000o ^e.     

Plasmid Copy Number Underlies Adaptive Mutability in Bacteria

The origin of mutations under selection has been intensively studied using the Cairns-Foster system, in which cells of an Escherichia coli lac mutant are plated on lactose and give rise to 100 Lac⁺ revertants over several days. These revertants have been attributed variously to stress-induced mutagenesis of nongrowing cells or to selective improvement of preexisting weakly Lac⁺ cells with no mutagenesis. Most revertant colonies (90%) contain stably Lac⁺ cells, while others (10%) contain cells with an unstable amplification of the leaky mutant lac allele. Evidence is presented that both stable and unstable Lac⁺ revertant colonies are initiated by preexisting cells with multiple copies of the F′lac plasmid, which carries the mutant lac allele. The tetracycline analog anhydrotetracycline (AnTc) inhibits growth of cells with multiple copies of the tetA gene. Populations with tetA on their F′lac plasmid include rare cells with an elevated plasmid copy number and multiple copies of both the tetA and lac genes. Pregrowth of such populations with AnTc reduces the number of cells with multiple F′lac copies and consequently the number of Lac⁺ colonies appearing under selection. Revertant yield is restored rapidly by a few generations of growth without AnTc. We suggest that preexisting cells with multiple F′lac copies divide very little under selection but have enough energy to replicate their F′lac plasmids repeatedly until reversion initiates a stable Lac⁺ colony. Preexisting cells whose high-copy plasmid includes an internal lac duplication grow under selection and produce an unstable Lac⁺ colony. In this model, all revertant colonies are initiated by preexisting cells and cannot be stress induced.     

Use of whey for production of exocellular polysaccharide by a mutant strain ofXanthomonas campestris

Growth and kinetics of the production of exocellular polysaccharide was studied in a mutant strain ofXanthomonas campestris lac ⁺ during cultivation in a submerged culture in a medium containing whey. The maximum production of the polymer was observed at the initial stage of the stationary growth phase of the culture. The mean production yield was about 1.4%. The results were comparable with those obtained during cultivation on a lactose medium. Translated by Č. Novotny     

The Origin of Mutants Under Selection: How Natural Selection Mimics Mutagenesis (Adaptive Mutation)

Selection detects mutants but does not cause mutations. Contrary to this dictum, Cairns and Foster plated a leaky lac mutant of Escherichia coli on lactose medium and saw revertant (Lac⁺) colonies accumulate with time above a nongrowing lawn. This result suggested that bacteria might mutagenize their own genome when growth is blocked. However, this conclusion is suspect in the light of recent evidence that revertant colonies are initiated by preexisting cells with multiple copies the conjugative F′lac plasmid, which carries the lac mutation. Some plated cells have multiple copies of the simple F′lac plasmid. This provides sufficient LacZ activity to support plasmid replication but not cell division. In nongrowing cells, repeated plasmid replication increases the likelihood of a reversion event. Reversion to lac⁺ triggers exponential cell growth leading to a stable Lac⁺ revertant colony. In 10% of these plated cells, the high-copy plasmid includes an internal tandem lac duplication, which provides even more LacZ activity—sufficient to support slow growth and formation of an unstable Lac⁺ colony. Cells with multiple copies of the F′lac plasmid have an increased mutation rate, because the plasmid encodes the error-prone (mutagenic) DNA polymerase, DinB. Without DinB, unstable and stable Lac⁺ revertant types form in equal numbers and both types arise with no mutagenesis. Amplification and selection are central to behavior of the Cairns–Foster system, whereas mutagenesis is a system-specific side effect or artifact caused by coamplification of dinB with lac. Study of this system has revealed several broadly applicable principles. In all populations, gene duplications are frequent stable genetic polymorphisms, common near-neutral mutant alleles can gain a positive phenotype when amplified under selection, and natural selection can operate without cell division when variability is generated by overreplication of local genome subregions.     

Positive selection vector using the KillerRed gene

Plasmid pZK18S is a novel positive selection vector containing the genetically encoded photosensitizer KillerRed as the selection marker. When transformed into host cells (lacI^q or lacI⁺), the common medical surgical light is sufficient to activate phototoxicity of KillerRed. Thus, only the recombinants with disrupted reading frame of KillerRed genes finally allow forming viable colonies. Because lethality of KillerRed relies on light irradiation, no special host and culture medium are required to amplify and prepare pZK18S vector in larger quantities. The pZK18S was reliable and highly efficient for constructing the serial analysis of gene expression (SAGE) library.     

Participation of RNase I in MS2 Phage Growth

Participation of RNase I in the growth of phage on infection with bacteriophage MS2 was studied.

Some strains of uracil-requiring E. coli were isolated, grown in MS broth, and transferred to a minimal medium to exhaust the pool of nucleotides. The phage was then added to the cells grown in uracil-deficient medium. The growth of phage was observed to occur at the burst size of two hundreds in strains of E. coli K12S (F⁺) U^? and C600 (F⁺) U^?, which possessed RNase I, but not in strains, A19 (Hfr) U^? and Q13 (Hfr) U^?, which lacked RNase I.

A marked increase in acid-soluble fraction was observed with E. coli K12S (F⁺) U^? and C600 (F⁺) U^?, whereas the increase was little with E. coli A10 (Hfr) U^? and Q13 (Hfr) U^? Conditions for the growth of phage in uracil-deficient medium were investigated and the effect of antibiotics were also investigated.     

Growth and reactivation of single stranded DNA phage phiX174 in E. coli undergoing "thymineless death".

Summary Flac maintenance was aberrant at permissive temperature in a temperature-sensitive dnaC mutant of Salmonella typhimurium when the normally resident pLT2 plasmid was present. Flac was, however, efficiently transferred into the dnaC pLT2⁺ strain and the resulting Flac derivative was almost as efficient in transferring Flac as were dnaC ⁺ pLT2⁺ Flac strains indicating that aberrant Flac maintenance was not associated with appreciable inhibition of transfer replication. A range of F-like plasmids behaved like pLT2 in causing aberrant Flac maintenance when present in the dnaC pLT2^- strain. Flac was, however, stably maintained in the dnaC strain in the absence of other plasmids. Although the F-like plasmids destabilized Flac, each was stably maintained when introduced into strain 11G dnaC pLT2⁺ and pLT2 was also apparently stable under these conditions. The destabilizing effect of pLT2 and other fi ⁺ plasmids was not consequent upon their inhibiting the formation of a repressible F transfer component needed for Flac replication in the dnaC strain. Incompatibility between Flac and the other plasmids induced by the dnaC lesion also appeared unlikely to be a cause of the aberrant Flac maintenance. The possibility is discussed that the initiation of Flac replication differs from that of pLT2 and the F-like plasmids with F competing less effectively than the others for the DnaC gene product.     

Cation-Sugar Cotransport in the Melibiose Transport System of Escherichia coli

The entry of Na⁺ or H⁺ into cells of Escherichia coli via the melibiose transport system was stimulated by the addition of certain galactosides. The principal cell used in these studies (W3133) was a lactose transport negative strain of E. coli possessing an inducible melibiose transport system. Such cells were grown in the presence of melibiose, washed, and incubated in the presence of 25 μM Na⁺. The addition of thiomethylgalactoside (TMG) resulted in a fall in Na⁺ concentration in the incubation medium. No TMG-stimulated Na⁺ movement was observed in uninduced cells. In an α-galactosidase negative derivative of W3133 (RA11) a sugar-stimulated Na⁺ uptake was observed in meliboise-induced cells on the addition of melibiose, thiodigalactoside, methyl-α-galactoside, methyl-β-galactoside, and galactose, but not lactose. It was inferred from these studies that the substrates of the melibiose system enter the cell on the melibiose carrier associated with the simultaneous entry of Na⁺ when this cation is present in the incubation medium.

Extracellular pH was measured in unbuffered suspensions of induced cells in order to study proton movement across the membrane of cells exposed to different galactosides. In the absence of external Na⁺ or Li⁺ the addition of melibiose or methyl-α-galactoside resulted in marked alkalinization of the external medium (consistent with H⁺-sugar cotransport). On the other hand TMG, thiodigalactoside, and methyl-β-galactoside gave no proton movement under these conditions. When Na⁺ was present, the addition of TMG or melibiose resulted in acidification of the medium. This observation is consistent with the view that the entry of Na⁺ with TMG or melibiose carries into the cell a positive charge (Na⁺) which provides the driving force for the diffusion of protons out of the cell. It is concluded that the melibiose carrier recognition of cations differs with different substrates.     

Observations on the formation of clones containing araB-lacZ cistron fusions

Summary Casadaban (1976) developed a technique for isolating E. coli clones containing fusions of the amino terminal-encoding portion of any cistron with the carboxy terminal-encoding portion of lacZ. The technique utilizes prophage Mu homology to bring the two cistrons into proximity. I have followed the appearance over time of colonies containing araB-lacZ fusions from a strain where the begining of the araB cistron is connected to lacZ by an intact Mucts62 prophage. Cultures of the starting strain grown on a variety of media have fewer than 2 in 10¹⁰ cells capable of forming colonies within three days after plating on selective arabinose-lactose medium. At 32°C, there is a delay of between 4 and 19 days before the first colony appears. The kinetics of colony appearance over the next two to four weeks then shows a rapid increase in the number of new colonies emerging per day followed by a decline. The pattern of colonial emergence and the final numbers of fusion colonies obtained are not grossly affected by reducing the number of cells plated over five orders of magnitude. Fusion colonies sometimes show a clustered pattern when they first emerge. Innoculation of pre-existing fusion clones at specific locations on the arabinose-lacteredselection plates seeded with the starting strain leads to the formation of inhibitory zones where no fusion colonies appear. Selection plates contain many microcolonies and papillae which do not proliferate into scoreable colonies but nonetheless contain cells capable of growth when replated on the same selective medium. Up to 39% of all plated cells are capable of producing fusion clones. The kinetics of fusion colony appearance can be altered by environmental and genetic manipulations. Partial derepression of the Mucts prophage at 37° accelerates the appearance of colonies but also reduces the final yield. Addition of limiting concentrations of glucose to the selective medium also accelerates the appearance of colonies in a specific fashion: enrichments below the level required for maximum acceleration produce a biphasic kinetics with two waves of fusion clone emergence separated by an eight-day interval. Infection with Muc ⁺ pAp phage produces dilysogens that have almost completely lost the ability to produce fusions. Infection with MuctsAampAP phage produces strains that are reduced in phage production and have delayed kinetics of fusion clone emergence. The implications of these observations for theories of hereditary change in bacteria are discussed.     

A Triple Mutant, K319N/H322Q/E325Q, of the Lactose Permease Cotransports H+ with Thiodigalactoside

In a previous study, we characterized a lactose permease mutant (K319N/E325Q) that can transport H⁺ ions with sugar. This result was surprising because other studies had suggested that Glu-325 plays an essential role in H⁺ binding. To determine if the lactose permease contains one or more auxiliary H⁺ binding sites, we began with the K319N/E325Q strain, which catalyzes a sugar-dependent H⁺ leak, and isolated third site suppressor mutations that blocked the H⁺ leak. Three types of suppressors were obtained: H322Y, H322R, and M299I. These mutations blocked the H⁺ leak and elevated the apparent K _m value for lactose. The M299I and H322Y suppressors could still transport H⁺ with β-d-thiodigalactoside (TDG), but the H322R strain appeared uncoupled for H⁺/sugar cotransport. Four mutant strains containing a nonionizable substitution at codon 322 (H322Q) were analyzed. None of these were able to catalyze uphill accumulation of lactose, however, all showed some level of substrate-induced proton accumulation. The level seemed to vary based on the substrate being analyzed (lactose or TDG). Most interestingly, a triple mutant, K319N/H322Q/E325Q, catalyzed robust H⁺ transport with TDG. These novel results suggest an alternative mechanism of lactose permease cation binding and transport, possibly involving hydronium ion (H₃O⁺). Received: 6 November 2000/Revised: 23 March 2001     

Site-directed mutagenesis of cys148 in the lac carrier protein of Escherichia coli

The lac y gene of Escherichia coli which encodes the lac carrier protein has been modified by oligonucleotide-directed, site-specific mutagenesis such that cys₁₄₈ is converted to a glycine residue. Cells bearing the mutated lac y gene exhibit initial rates of lactose transport that are about 4-fold lower than cells bearing the wild type gene on a recombinant plasmid. Furthermore, transport activity is less sensitive to inactivation by N-ethylmaleimide, and strikingly, galactosyl 1-thio-β-D-galactopyranoside affords no protection against inactivation. The findings suggest that although cys₁₄₈ is essential for substrate protection against sulfhydryl inactivation, it is not obligatory for lactose:proton symport and that another sulfhydryl group elsewhere within the lac carrier protein may be required for full activity.     

Bistability of the <Emphasis Type="Italic">lac</Emphasis> Operon During Growth of <Emphasis Type="Italic">Escherichia coli</Emphasis> on Lactose and Lactose + Glucose

The lac operon of Escherichia coli can exhibit bistability. Early studies showed that bistability occurs during growth on TMG/succinate and lactose + glucose, but not during growth on lactose. More recently, studies with lacGFP-transfected cells show bistability during growth on TMG/succinate, but not during growth on lactose and lactose + glucose. In the literature, these results are invariably attributed to variations in the destabilizing effect of the positive feedback generated by induction. Specifically, during growth on TMG/succinate, lac induction generates strong positive feedback because the permease stimulates the accumulation of intracellular TMG, which in turn, promotes the synthesis of even more permease. This positive feedback is attenuated during growth on lactose because hydrolysis of intracellular lactose by β-galactosidase suppresses the stimulatory effect of the permease. It is attenuated even more during growth on lactose + glucose because glucose inhibits the uptake of lactose. But it is clear that the stabilizing effect of dilution also changes dramatically as a function of the medium composition. For instance, during growth on TMG/succinate, the dilution rate of lac permease is proportional to its activity, e, because the specific growth rate is independent of e (it is completely determined by the concentration of succinate). However, during growth on lactose, the dilution rate of the permease is proportional to e ² because the specific growth rate is proportional to the specific lactose uptake rate, which in turn, proportional to e. We show that: (a) This dependence on e ² creates such a strong stabilizing effect that bistability is virtually impossible during growth on lactose, even in the face of the intense positive feedback generated by induction. (b) This stabilizing effect is weakened during growth on lactose + glucose because the specific growth rate on glucose is independent of e, so that the dilution rate once again contains a term that is proportional to e. These results imply that the lac operon is much more prone to bistability if the medium contains carbon sources that cannot be metabolized by the lac enzymes, e.g., succinate during growth on TMG/succinate and glucose during growth on lactose + glucose. We discuss the experimental data in the light of these results.     

Adaptive amplification and point mutation are independent mechanisms: evidence for various stress-inducible mutation mechanisms

“Adaptive mutation” denotes a collection of processes in which cells respond to growth-limiting environments by producing compensatory mutants that grow well, apparently violating fundamental principles of evolution. In a well-studied model, starvation of stationary-phase lac⁻ Escherichia coli cells on lactose medium induces Lac⁺ revertants at higher frequencies than predicted by usual mutation models. These revertants carry either a compensatory frameshift mutation or a greater than 20-fold amplification of the leaky lac allele. A crucial distinction between alternative hypotheses for the mechanisms of adaptive mutation hinges on whether these amplification and frameshift mutation events are distinct, or whether amplification is a molecular intermediate, producing an intermediate cell type, in colonies on a pathway to frameshift mutation. The latter model allows the evolutionarily conservative idea of increased mutations (per cell) without increased mutation rate (by virtue of extra gene copies per cell), whereas the former requires an increase in mutation rate, potentially accelerating evolution. To resolve these models, we probed early events leading to rare adaptive mutations and report several results that show that amplification is not the precursor to frameshift mutation but rather is an independent adaptive outcome. (i) Using new high-resolution selection methods and stringent analysis of all cells in very young (micro)colonies (500–10,000 cells), we find that most mutant colonies contain no detectable lac-amplified cells, in contrast with previous reports. (ii) Analysis of nascent colonies, as young as the two-cell stage, revealed mutant Lac⁺ cells with no lac-amplified cells present. (iii) Stringent colony-fate experiments show that microcolonies of lac-amplified cells grow to form visible colonies of lac-amplified, not mutant, cells. (iv) Mutant cells do not overgrow lac-amplified cells in microcolonies fast enough to mask the lac-amplified cells. (v) lac-amplified cells are not SOS-induced, as was proposed to explain elevated mutation in a sequential model. (vi) Amplification, and not frameshift mutation, requires DNA polymerase I, demonstrating that mutation is separable from amplification, and also illuminating the amplification mechanism. We conclude that amplification and mutation are independent outcomes of adaptive genetic change. We suggest that the availability of alternative pathways for genetic/evolutionary adaptation and clonal expansion under stress may be exploited during processes ranging from the evolution of drug resistance to cancer progression.     

Inhibition of growth of Escherichia coli by lactose and other galactosides

A study has been made of the inhibition of growth caused by the addition of lactose or other galactosides to lac constitutive Escherichia coli growing in glycerol minimal medium. The effect was greater at pH 5.9 and pH 7.9 than at pH 7.0. Inhibition of growth by lactose was observed also in the case of a β-galactosidase negative mutant. However, a lacY mutant, which has a defect in the entry of protons normally coupled with galactoside transport, showed only slight inhibition of growth on the addition of galactosides. In the case of the parental strain the addition of lactose resulted in a sharp fall in ΔpH across the cell membrane and a reduction in intracellular ATP, and the recovery was slow. Under the same conditions the lacY mutant showed a smaller and only transient effect. It is postulated that the sudden entry of protons associated with lactose uptake lowers the protonmotive force, reducing the ATP levels and inhibiting growth of the cells. This hypothesis would account also for the selection of lacY mutants found when E. coli is grown in the presence of isopropyl-β-d-thiogalactoside.     

Isolation and characterisation of Hfr strains from a recombination-deficient strain of Escherichia coli

Summary A T6^s RecA^- strain carrying a lac proB deletion and F_ts lac ⁺ was challenged with phage T6 and survivors which were both T6^r and Lac⁺ at 42° were tested for fertility. Among these were a number of Hfr strains which had their points of origin at or near the tsx locus and which still carried the recA allele. These arose in comparable frequencies in the RecA^- strain and in a Rec⁺ analogue. We conclude that such integration does not require the RecA function. The rate of chromosome transfer was similar in one such RecA^- Hfr and its Rec⁺ derivative; the yield of recombinants from the RecA^- strain was slightly lower than from its Rec⁺ derivative.     

Production and characteristics of the exocellular polysaccharide in mutant strains ofXanthomonas fuscans

Production of the exocellular polysaccharide of the phytopathogenic bacteriumXanthomonas fuscans was investigated with respect to its possible use in utilization of industrial wastes containing lactose. Six stablelac ⁺ mutants were obtained after the treatment withN-methyl-N′-nitroso-N′-nitroguanidine. The mutants were compared with the parent strain. Morphological and cultivation characteristics, as well as production of the exooellular polysaccharide were compared. The production was found to be maximal during the stationary phase of growth in strains cultivated under submerged conditions. Gas chromatography revealed that the polysaccharide of the parent strain is formed by α- and β-D-glucose and α- and β-d-mannose with a small amount ofd-ribose and 6-deoxy-l-mannose. Composition of the polysaccharides produced by the mutant strains (lac ⁺) does not qualitatively differ from that of the parent strain. However, they were found to contain a higher quantity ofd-mannose, which is favourable for their industrial utilization.     

A new experimental system for study on adaptive mutations

A super-repressed mutant of purR (purR^S), which encodes a repressor protein controlling expression of purine biosynthetic genes inSalmonella typhimurium, grew very slowly on NCE medium with 10 μg/mL Ade and lactose as sole carbon source (cannot form colonies). However, a phenomenon of late-arising mutations was observed when purR^S mutants were spread on NCE+lactose plates and subjected to a prolonged non-lethal selection. The reconstruction experiments of revertants showed that the late-arising “lac⁺” mutants are not slow growing mutants. Statistical analysis indicated that the distribution of late-arising mutants is Poisson distribution, showing that reversion occurred after plating. The result of co-transductional analysis preliminarily showed that late-arising mutation occurred at selected genepurR or 16 bp PUR box,cis element of structural genepurD. The above results suggest that the phenomenon of late-arising mutation observed by our system is a result of adaptive mutations which are different from random mutations. This is the first time to extend target genes at which adaptive mutations could occur from structural genes involved in carbon metabolism and amino acid biosynthesis totrans regulatory gene coding repressor protein. Our results have provided not only a new proof for generality of adaptive mutations but also a new system for study on adaptive mutations.     

A new experimental system for study on adaptive mutations

A super-repressed mutant of purR (purRs), which encodes a repressor protein controlling expression of purine biosynthetic genes in Salmonella typhimurium, grew very slowly on NCE medium with 10 μg/mL Ade and lactose as sole carbon source (cannot form colonies). However, a phenomenon of late-arising mutations was observed when purRs mutants were spread on NCE+lactose plates and subjected to a prolonged non-lethal selection. The reconstruction experiments of revertants showed that the late-arising "lac+" mutants are not slow growing mutants. Statistical analysis indicated that the distribution of late-arising mutants is Poisson distribution, showing that reversion occurred after plating. The result of co-transductional analysis preliminarily showed that late-arising mutation occurred at selected gene purR or 16 bp PUR box, cis element of structural gene purD. The above results suggest that the phenomenon of late-arising mutation observed by our system is a result of adaptive mutations which are different