The addition of lac+ chromosome fragments to the E. coli proA-proB-lac deletion 13 chromosome.

Escherichia coli with the proA-proB-lac deletion X111 (Delta111) can be transduced with bacteriophage P1 propagated on a wild-type lac(+) donor. Though the donor lac(+) genes cannot be integrated by replacement of the recipient Delta111 marker, the transduction process has the characteristics generally associated with generalized transduction of bacterial genes. Transduction does not require P1 helper infection, is stimulated by UV irradiation of transducing particles, and does require homology between the donor lac(+) chromosome and the recipient Delta111 chromosome. Among transductants produced through multiple P1 infection, a minority of P1dl lysogens are present. But the majority of the transductants have unstable lac(+) units, designated lacV, which are without detected P1 gene content. LacV is tightly linked to the Delta111 locus. Instability of lac(+) is eliminated when a recombination deficiency is introduced through a substitution of recA1 for rec(+). The properties of the Delta111/lacV strains are attributable to a chromosome in which lac(+) is situated between units of a genetic duplication beside the Delta111 locus. To explain the formation of partially diploid chromosomes we suggest that chromosome fragment integration is sometimes accomplished through a single aberrant recombination, a fusion of genetically heterologous DNA ends, and a single legitimate crossover.

Transduction of normal and malignant oral epithelium by particle bombardment.

Although genetic approaches to the treatment and prevention of oral cancer are being developed, there are no suitable methods of transduction of the oral mucosa or early cancers. We therefore tested the technique of particle bombardment for its ability to transduce oral cancer cells in vitro and normal epithelium of the hamster cheek pouch in vivo. A gene gun was used to transfer a plasmid that encoded a marker/suicide fusion gene, beta-galactosidase-thymidine kinase (GAL-TEK), under control of a CMV promoter. For comparison we used the method of lipofection and an adenovirus vector. Particle bombardment transduced up to 13% of cells in culture, resulting in a 24.3% reduction in growth in the presence of ganciclovir. The efficiency of transduction was similar to that of lipofection but was much less than that of the adenovirus vector, which transduced 54% of cells and completely inhibited their growth in the presence of ganciclovir. Transduction of the hamster cheek pouch by particle bombardment produced expression of beta-galactosidase as judged by macroscopic staining, for up to 5 days. However, histological examination showed that the transduced cells were rare and superficial, and that administration of systemic ganciclovir did not lead to any changes in the tissue. Improvements in efficiency are necessary before the gene gun can be used in the management of oral cancer.

Irradiation of singly and doubly transduced murine neuroblastoma cells expressing B7-1 and producing interferon-gamma reduces their capacity to induce systemic immunity.

We have previously reported that immunization with low major histocompatibility complex (MHC) class I expressing murine neuroblastoma (neuro-2a) transduced with B7-1 fails to induce significant protection to wild-type tumor challenge. In this study we investigated whether B7-1 expressing neuro-2a cells can stimulate an effective T-cell response if they were cotransduced with the interferon-gamma (IFN-gamma) gene to upregulate MHC class I. Transfer of both the IFN-gamma and B7-1 genes into neuro-2a (N-2a/B7-1/IFN) almost completely abrogated the tumorigenic potential of this tumor and improved survival when compared with mice receiving the single transductants, N-2a/IFN and N-2a/B7-1. Rejection of N-2a/B7-1/IFN was mediated primarily by CD8+ T cells. When irradiated tumor cells were tested, IFN-gamma gene transfer into neuro-2a significantly increased immunogenicity, but transfer of the B7-1 gene did not. However, nonirradiated N-2a/B7-1, N-2a/IFN, and N-2a/B7-1/IFN cells were significantly more effective in eliciting systemic immunity against subsequent wild-type tumor challenge than their irradiated counterparts. N-2a/B7-1/IFN was more immunogenic than N-2a/B7-1 but not more than N-2a/IFN, indicating that B7-1 does not further increase immunogenicity of neuro-2a over that induced by IFN-gamma transduction. These findings should be considered when designing gene modified tumor vaccines for use in human trials.

Adeno-associated virus vector mediated transduction of primary normal human breast epithelial cells.

Cultured human breast epithelial cells from reduction mammoplasty specimens were transduced using an adeno-associated virus vector encoding the marker gene E. coli -galactosidase. Subconfluent, growing, breast epithelial cells were more easily transduced than confluent, quiescent, cells. Transduction of non-dividing confluent cells could be greatly increased by ultraviolet light-induced DNA damage or by prior exposure to the DNA synthesis inhibitor hydroxyurea. The effects of ultraviolet light and hydroxyurea on transduction were additive when these agents were applied together.

[Plasmid DNA transduction in Bacillus subtilis]. / Transduktsiia plazmidnoi DNK u Bacillus subtilis.

Transduction of Bacillus subtilis pUB110 plasmid by AR9 phage is described. Some aspects of this process are studied. Plasmid transduction depended on multiplicity of infection similar to cases of chromosomal markers transduction, though optimal multiplicity of infection was achieved using low number of phage particles. No cotransduction of plasmid and chromosomal markers was demonstrated. The transduction frequencies of plasmid and chromosomal markers increased after UV irradiation of phage suspensions within the range of definite doses.

[Lethal and mutagenic action of UV light on salmonellae carrying wild or mutant alleles of the Escherichia coli lexA-gene]. / Letal'noe i mutagennoe deistvie UF-sveta na sal'monelly, nesushchie dikii ili mutantnyi alleli lexA-gena kishechnoi palochki.

To elucidate the reasons for the absence of UV-mutability in Salmonella typhimurium, the lexA gene of Escherichia coli has been transduced by phage P1 into S. typhimurium. The functioning of lexA+ allele of E. coli in the chromosome of Salmonella failed to cause UV-mutability of the hybrid. The transfer of pKM101 plasmid into the LexA+ hybrid mediates the expressed UV mutability and UV-protective plasmid effect. This plasmid harboured by the LexA hybrid fails to increase UV-resistance and mutability, thus showing the dependence of plasmid mediated effect on LexA+ phenotype.

[Escherichia coli K-12 mutants with enhanced resistance to ionizing radiation. III. The effect of rec and lexA mutations on radioresistance]. / Mutanty Escherichia coli K-12 s povyshennoi ustoichivost'iu k ioniziruiushchei radiatsii. Soobshchenie III. Vliianie mutatsii rec i lexA na radiorezistentnost'.

Lethal action of gamma-rays on derivatives of the wild-type strain AB1157 and of two radiation-resistant mutants (Gamr444 and Gamr445) containing additional mutations dnaA46, recB21, recF143, recA56, recA430, lexA3, lexA102 or lexA3 recAo98, was studied. When the mean number of genomes per cell was reduced by means of pre-incubation at 43 degrees C, radioresistance of the strains AB1157 dnaA46 and Gamr445 dnaA46 was not changed, and that of the strain Gamr444 dnaA46 was reduced to the level of the Gamr445 dnaA46 strain. Introduction of additional mutations recB21, recA56 or lexA3 (lexA102) into the genome of the strains Gamr444 or Gamr445 made them as radiosensitive as the corresponding variants of AB1157. Additional mutations recF143 or recA430 (lexB30) significantly decreased the radioresistance of Gamr444 and Gamr445 mutants, although did not level them to corresponding derivatives of AB1157. Operator-constitutive mutation recAo98 enhanced radioresistance of all lexA3 derivatives tested but not to the level of the corresponding lexA+ strains. The role of recombinational repair and the inducible SOS system in enhanced radioresistance of Gamr mutants is discussed. The data of post-irradiation DNA degradation in various derivatives of the strains AB1157 and Gamr suggest that Gamr mutants have a constitutive inhibitor of degradation which does coincide with RecA protein.

[Reactivation of ultraviolet-irradiated phage lambda and recombination in Escherichia coli K-12 cells containing plasmid ColIb-P9]. / Reaktivatsiia obluchennogo ul'trafioletom faga lambda i rekombinatsiia v kletkakh Escherichia coli K-12, soderzhashchikh plazmidy ColIb-P9.

It was shown that the presence of colicinogenis plasmid ColIb-P9 increased the survival of UV-irradiated bacteriophage lambda cI857 in non-irradiated cells of Escherichia coli K-12. The effect of this plasmid was retained in the polA and recB mutants, being sharply reduced in the uvrA and recB recC sbcB recF mutants. This effect strongly depended on recA+ and lexA+ genotype. The W-reactivation efficiency was slightly higher in the cells containing ColIb-P9 than in those lacking the plasmid. No significant effect of the plasmid on recombination during transduction, after conjugation under usual conditions and in the case when a conjugation mixture or recipient cells were irradiated, was observed. The data demonstrate that the effect of ColIb-P9 plasmid on DNA repair is not mediated by its influence on recombination.

[Transduction of streptomycin resistance in group A streptococci by virulent streptococcal phage CA1]. / Transduktsiia streptomitsinrezistentnosti u streptokokkov gruppy A posredstvom virulentnogo streptokokkovogo faga CA1

The author studied the Smr transduction in hemolytic streptococci, group A, by the virulent CA1 phage. This phage differed from the A12 and A25 by the spectrum of lytic activity and was affiliated to them serologically. In comparable experiments CA1 phage exceeded A25 phage by the transducing activity. Phage CA1 transduced the cultures of various serological types. The efficiency of transduction depended on the multiplicity of the infection (the optimum--0.1--0.03), the age of the recipient culture (the optimum--1--2-day) and the time of phenotypical expression (the optimum--2--3 hours). It was possible to increase the frequency of transduction by one order with the aid of UV irradiation. Still a theoretically possible output of the transducers determined by calculation was not reached because of some abortiveness of the process.

SP02 particles mediating transduction of a plasmid containing SP02 cohesive ends.

SP02 particles that mediate transduction of plasmid pPL1010, a 4.6-megadalton derivative of pUB110 containing an Eco RI endonuclease-generated fragment of SP02 deoxyribonucleic acid that spans the cohesive ends, exhibit three unusual features: the transducing particles have a lower buoyant density than infectious particles; the transduction of pPL1010 occurs at high efficiency; and the transducing activity of the particles is relatively resistant to ultraviolet irradiation when the recipient is recombination proficient. Evidence is presented which indicates that SP02(pPL1010) particles carry the plasmid predominantly as a linear multimer having a molecular mass comparable to that of infectious SP02 deoxyribonucleic acid (ca. 31 megadaltons). The plasmid monomers in the linear multimer appear oriented in the same polarity. The buoyant density difference between infectious and transducing particles appears to be due mainly to the buoyant density difference between pPL1010 (1.699 g/cm3) and SP02 deoxyribonucleic acid (1.702 gm/cm3).

Studies on transduction process by SPP1 phage.

The conditions for optimal transduction efficiency of the Bacillus subtilis phage SPP1 have been investigated. By irradiating transducing lysates with u.v. light we have been able to obtain a fivefold increase in the number of transductants and to reduce strongly the interference caused by infective particles. Any dependence of SPP1 transduction on PBSX induction has been ruled out by the use of xin mutants, which are unable to induce the defective phage. SPP1 mediated transduction is susceptible to the restriction and modification system of B. subtilis. The rec functions involved in the recombination of the SPP1 transduced DNA fragment are probably identical to those required in DNA transformation and heterologous PBS1 transduction.

The variation in frequency with which markers are transduced by phage P1 is primarily a result of discrimination during recombination.

The efficiency of recovery of P1 transductants is marker dependent and normally varies over a 25-fold range. UV irradiation of either transducing lysates for recipient cells results in a selective stimulation of the transduction of markers which are normally transduced poorly. As a result the range in frequency of transduction is reduced to about 3-fold and resembles the gene frequency distribution expected in the donor cells. We conclude that P1 transducing lysates are likely to contain a random sample of donor DNA but that the recombination system of the recipient cell exhibits a preference for the DNA of some regions over that of others. Damage to DNA presumably overrides this specificity.

Alteration of bacteriophage attachment capacity by near-UV irradiation.

Near-UV (NUV) (300 to 400 nm) and far-UV (FUV) (254 nm) radiations damage bacteriophage by different mechanisms. Host cell reactivation, Weigle reactivation, and multiplicity reactivation were observed upon FUV, but not upon NUV irradiation. Also, the number of his+ recombinants increased with P22 bacteriophage transduction in Salmonella typhimurium after FUV, but not after NUV irradiation. This loss of reactivation and recombination after NUV irradiation was not necessarily due to host incapability to repair phage damage. Instead, the phage genome failed to enter the host cell after NUV irradiation. In the case of NUV-irradiated T7 phage, this was determined by genetic crosses with amber mutants, which demonstrated that either "all" or "none" of a T7 genome entered the Escherichia coli cell after NUV treatment. Further studies with radioactively labeled phage indicated that irradiated phage failed to adsorb to host cells. This damage by NUV was compared with the protein-DNA cross-link observed previously, when phage particles were irradiated with NUV in the presence of H2O2. H2O2 (in nonlethal concentration) acts synergistically with NUV so that equivalent phage inactivation is achieved by much lower irradiation doses.

Reduction of marker discrimination in transductional recombination.

The recovery of phage P1 mediated transductants varies with the marker selected in a manner which cannot be fully accounted for by dosage differences in the donor gene population. This variation in transduction frequency is due primarily to recombinational discrimination in the recipient cell. We show here that increasing the intracellular level of recA protein, which might be expected to increase the contribution of recF mediated events to recombinant formation, decreases this discrimination slightly, and that replacing recBC mediated recombination by a recF dependent process, augmented by an additional, as yet uncharacterized mutation, dramatically reduces recombinational discrimination. We conclude that although recBC mediated transductional recombination is selective, recombination which relies on recF need not be so. We also show that UV-damaged DNA can be successfully recombined in the absence of the recB product (even in sbcB+ cells) and that eliminating exonuclease I (the sbcB product) facilitates the recombination of heavily irradiated DNA.

Transduction of plasmid determinants in Staphylococcus aureus and Escherichia coli.

Buoyant density analysis of transducing lysates derived from Staphylococcus aureus and Escherichia coli indicated that phage particles bearing plasmid determinants contain a quantity of DNA equivalent to that found in the lytic particles. Transducing particles that bear plasmid determinants smaller than viral DNA must therefore contain a quantity of DNA in excess of a single plasmid genome. In the E. coli P1vir system, a dependence upon host-mediated recombination for the transduction of small plasmids, but not for large R factors or chromosomal genes, was observed. However, no evidence for the involvement of such functions in the transduction of S. aureus plasmids was obtained. Although the origin of the additional DNA in plasmid transducing particles has not been identified, circumstantial evidence has been presented in the staphylococcal system indicating that transducing particles carrying a small tetracycline plasmid are not formed by the wrapping of multiple copies of this plasmid DNA.

[Factors that affect transduction in microorganisms]. / Faktory, vliiaiushchie na transduktsiiu u mikroorganizmov.

Data from literature concerning general and specialized transduction in microorganisms are given in the paper. The process of exogenic DNA penetration to the cells of bacteria and participation of protein products of separate phage genes in this process are described. The so-called E-proteins in a set with DNA penetrate through a cell membrane. In phage P22 they are protein products of phage genes 7, 16, 20. In P22 mutants with an altered transducing frequencies (HFT and LFT) the due functions are also coded by the phage genes. It is shown that the process of DNA packing in phages P22, phi 80, lambda and others is genetically determined. The gene transfer frequency depends on UV radiation and the very nature of transducing phages itself. In virulent phages the UV radiation up to inactivation level 95-99% evokes a decrease of their "killer" ability, which is accompanied by an increase of survivability of the formed transductants and, as a result, by enhancement of the transduction transfer frequency. An important role of the transduction analysis for fine mapping of a genome of microorganisms and its significance for practice are shown. A mathematical analysis of the data on cotransduction of linkage markers is presented as such that may be used when determining the value of transduced fragment of a chromosome.

Plasmid for tetracycline resistance in Staphylococcus epidermidis.

A plasmid determining tetracycline resistance was demonstrated for Staphylococcus epidermidis. Tetracycline resistance was spontaneously lost from a S. epidermidis strain at a frequency of <0.1 to 1.3%. Frequency of loss was not appreciably enhanced by growth at 42 C or in ethyl violet. The rate of transduction of tetracycline resistance in three S. epidermidis crosses was decreased as a function of ultraviolet irradiation of the transducing phage. Plasmid deoxyribonucleic acid (DNA) associated with tetracycline resistance was isolated by CsCl-ethidium bromide dye-buoyant density gradients. The tetracycline plasmids from S. aureus RN 1304 (molecular weight 2.66 Mdals) and S. epidermidis 367(phi367) (T(367)) cosedimented in 5 to 20% neutral and alkaline sucrose gradients and are therefore of similar molecular weights. An extrachromosomal element in the recipient strain, isolated as covalently closed circular DNA, did not retain its integrity in an alkaline sucrose gradient.

Specialized transduction of kanamycin resistance in a Providence strain.

Properties of a transducing system with a phage able to transduce a kanamycin-resistance marker of the T compatibility group plasmid R394 at a frequency of 2 times 10(-2)/plaque-forming unit adsorbed are described. The phage was detected in Providence strain P29 transduced to kanamycin resistance by Providence phage PL25 grown on this strain harbouring the R factor. Four P29 transductants, specially selected at the lowest multiplicities of infection of the high frequency transducing (HFT) phage, were defective lysogens. They plated PL25 with an efficiency of I and only one liberated low-titre phage spontaneously or on u.v. induction. The defect in maturation function could be corrected by introduction of a wild PL25 prophage. The transducing phage was serologically frequency was increased by the simultaneous presence of homologous non-transducing phage. Transductants did not transfer the kanamycin-resistance marker by conjugation, and produced kanamycin-sensitive segregants at a moderate rate. These segregants could be transduced to kanamycin resistance by the HFT phage. Irradiation of HFT lysates by u.v. produced an exponential fall in transduction frequency. It was concluded that the defective phage transduced by lysogenization. Kanamycin-resistant transductants could themselves be transduced by streptomycin resistance by PL25 reared on a streptomycin-resistant mutant. Lysogenic transductants produced by the HFT phage did not always liberate HFT phage on u.v. induction. Possible explantations are considered.

Transduction of a Proteus vulgaris strain by a Proteus mirabilis bacteriophage.

Only Proteus vulgaris strain PV127 out of many P. vulgaris, P. morganii and Providence strains was transduced to kanamycin resistance by high-frequency transducing variants, 5006MHFTk and 5006MHFTak, of phage 5006M, a general transducing phage for P. mirabilis strain PM5006. The phages adsorbed poorly to strain PV127 and did not form plaques. The transduction frequency of PV127 by these phages was 5 x 10(-8)/p.f.u. adsorbed. Phage 5006M increased the transduction frequencies. Abortive transductants were not detected. Transductants segregated kanamycin-sensitive clones at high frequency and this, together with data from the inactivation of transducing activity of lysates by ultraviolet irradiation, indicated that transduction was by lysogenization. The general transducing property of the phages was not expressed in transductions to auxotrophs of PV127. Transductants (type I) resulting from low multiplicities of phage input adsorbed phage to the same extent as PV127. This suggested a defect in the transducing particles (or host) because single phage 5006M infection converted strain PM5006 to non-adsorption of homologous phage. Type I transductants did not liberate phage, suggesting a defective phage maturation function. Transductants (type II) which arose from higher multiplicities of phage input did not adsorb phage, indicating possible heterogeneity among transducing particles. Phage derived from type II transductants adsorbed poorly to PV127 and transduced it to kanamycin resistance at frequencies similar to those of phages 5006MHFTk and 5006MHFTak, ruling out host-controlled modification as a cause of the low transduction frequencies. This phage transduced PM5006 to antibiotic resistance at high frequencies but generalized transduction was again not detected. It was suggested that general transduction could be performed by particles which, due to a different composition and/or mode of chromosomal integration, made material they carried susceptible to host-cell modification.

Naturally occurring drug resistance plasmids in hospital strains of Staphylococcus aureus.

A genetic analysis of multiply inorganic salts and antibiotic--resistant strains of Staphylococcus aureus was performed. Experiments designed to show reversion of organisms to antibiotic and inorganic salt susceptibility, as well as studies on the influence of ultraviolet irradiation of phage on the transduction frequencies of the resistance markers, indicated that determinants of chloramphenicol, tetracycline, aminoglycoside antibiotics, inorganic salts, and penicillin resistance in hospital strain are present on separate plasmids. Transduced by us plasmids pN742 and pN794 determined resistance to neomycin, kanamycin, paromomycin, lividomycin and streptomycin.