The transforming activity of sonicated Haemophilus influenzae DNA

Summary The inactivation of transforming Haemophilus influenzae DNA by sonication in aqueous solution was investigated. The molecular weight decrease of the molecules is the major factor in DNA inactivation. It impairs strongly the uptake of the DNA by the recipient bacteria, especially when the molecular weight is lower than 3x10⁶ daltons. The uptake of sonicated DNA by the bacterial cells seems not to be further reduced when molecules of about 0.5x10⁶ daltons are submitted to further depolymerisation. However the transforming activity of these molecules is still sensitive to further sonication. The transforming activity of the sonicated DNA is related in the last resort to the intact length of the DNA molecules, at the level of their single-strand structure, available for recombination. Rupture by ultrasound was found to be twice as efficient in reducing transforming activity as a nick induced by pancreatic DNAse.     

Different specific activities of the monomeric and oligomeric forms of plasmid DNA in transformation of B. subtilis and E. coli.

Summary (1) The low residual transforming activity in preparations of monomeric, supercoiled, circular (CCC) forms of the plasmids pC194 and pHV14 could be attributed to the presence in such isolates of a small number of contaminating multimeric molecules. (2) E. coli derived preparations of pHV14, an in vitro recombinant plasmid capable of replication in both E. coli and B. subtilis, contain oligomeric forms of plasmid DNA in addition to the prevalent monomeric CCC form. The specific transforming activity of pHV14 DNA for E. coli is independent of the degree of oligomerization, whereas in transformation of B. subtilis the specific activity of the purified monomeric CCC molecules is at least four orders of magnitude less than that of the unfractionated preparation. (3) Oligomerization of linearized pHV14 DNA by T4 ligase results in a substantial increase of specific transforming activity when assayed with B. subtilis and causes a decrease when used to transform E. coli.     

Plasmid transformation of Streptococcus sanguis (Challis) occurs by circular and linear molecules

Summary Transformation of Streptococcus sanguis (Challis) by antibiotic resistance plasmids has shown that (a) competente developed with identical kinetics for chromosomal and plasmid DNA; (b) dependence of transformant yield on plasmid DNA concentration was second order; (c) open circular plasmid DNA transformed Challis, although at reduced frequency; (d) linearization of plasmid DNA by restriction enzymes cutting at unique sites inactivated the transforming capacity; (e) transforming activity was restored when linear plasmid molecules generated by different restriction enzymes were mixed; (f) restoration of transforming activity depended on the distance between the linearizing cuts, i.e. on the presence of sufficiently long overlapping homologous sequences; (g) when linear deletion mutants were mixed with linear parental plasmids the smaller plasmid was restored with significantly higher frequency.Based on these data, a model for plasmid transformation of Challis is proposed according to which circular plasmid is linearized during binding and uptake. One DNA strand enters the cell and restoration of circular plasmids inside the cell occurs by annealing of complementary single strands from two different donor molecules. Implications of this model for recombinant DNA experiments in streptococci are discussed.     

An electron microscopic study of the relation between length and transforming activity of H. influenzae DNA

Summary Transforming DNA of H. influenzae is broken down by sonication.The change of transforming activity is related to the change of length distribution.The length distribution is measured by electron microscopy using the spreading technique on a protein monolayer.An attempt to fractionate DNA samples by sucrose gradient sedimentation indicates that no monodisperse fractions can be obtained.An experimental relation between length of DNA and transforming activity is established.     

In vitro repair of UV-or X-irradiated bacteriophage T4 DNA by extract from blue-green alga Anacystis nidulans

The cell-free extract from blue-green alga Anacystis nidulans contains enzymatic activities which repair in vitro transforming DNA of bacteriophage T4 damaged by UV light or X-rays. The repair effect of the extract was observed with double-stranded irradiated DNA but not with denatured irradiated DNA. The level of restoration of the transforming activity depends on the protein concentration in the reaction mixture and on the dose of irradiation. A fraction of DNA lesions induced by X-rays is repaired by a NAD-dependent polynucleotide ligase present in the extract. The repair of UV-induced lesions is the most efficient in the presence of magnesium ions, NAD, ATP and the four deoxynucleoside triphosphates. The results indicate that the repair of UV-irradiated DNA is performed with the participation of DNA polymerase and polynucleotide ligase which function in the cell-free extract of the algae on the background of a low deoxyribonuclease activity.Abbreviations UV ultraviolet - TA transforming activity - PN-ligase polynucleotide ligase - NAD nicotinamide adenine dinucleotide - dNTP deoxynucleoside triphosphates - dATP, dGTP, dTTP triphosphates of deoxyadenosine, deoxyguanosine, deoxythymidine and deoxycytidine, respectively     

Relation between the transforming activity of a marker and its proximity to the end of the DNA particle

Summary Tranforming pneumococcal DNA is inactivated by treatment with restriction enzymes. For mutations belonging to the same locus (amiA locus), the extent of inactivation depends strongly upon the mutations and the enzymes. Two EcoRI and one BamHI restriction sites have been located within the amiA locus. After treatment of donor DNA with either one of these enzymes, the lowest transforming activity is observed for mutations that map near restriction sites. This effect of proximity to the nearest end of the DNA fragment extends over a distance of 1,400 nucleotides. The curve of transforming activity versus DNA size obtained with endonuclease-generated DNA fragments is very similar to that obtained previously with mechanically sheared DNA. Both curves show a striking slope change for donor DNA size around 2,700 base pairs, i.e. twice the length found for the extent of the end effect. We suggest that for donor DNA fragments larger than 2,700 base pairs the transforming activity depends mainly upon the size of donor whereas for donor DNA fragments shorter than 2,700 base pairs both a size-dependent phenomenon and the end effect contribute to reduce drastically the transforming activity.     

The effect of chlorpromazine on transformation in Bacillus subtilis

Summary In the presence of the widely used tranquilizer, chlorpromazine, transforming DNA of Bacillus subtilis is photoinactivated by long-wave ultraviolet light. The loss of biological activity is predominantly caused by lack of binding of the DNA to recipient cells and the introduction of single-strand breaks in the treated DNA.     

Targeted transformation in Coprinus cinereus

Summary We examined the influence of DNA form and size on the arrangement and genomic location of transforming DNA sequences in the basidiomycete Coprinus cinereus. Protoplasts with either single or double mutations in the tryptophan synthetase (TRPI) gene were transformed with cloned copies of this gene which contained only a single DNA strand, contained a specific single nick within the C. cinereus sequences (4.8 kb), contained a specific double-strand break, or contained an additional 35 kb of flanking genomic sequences. Gene replacement events were recovered when each DNA type was used. However, none of these substrates offers a substantial improvement in transformation or targeting frequency when compared to supercoiled circular DNA, which has allowed recovery of both gene replacements as well as homologous insertions in 5 % of the transformants analyzed. The frequency of transformants carrying tandem insertions with multiple copies of the transforming DNA was reduced when single-stranded DNA was used, and increased when DNA containing double-strand breaks was used. These results have important implications for the efficient design of targeted transformation and co-transformation experiments.     

The effect of trimethylpsoralen--crosslinks on entry of donor DNA in transformation and transfection of Bacillus subtilis

Summary Transforming chromosomal DNA, irradiated with long-wave UV light in the presence of 4,5,8-trimethylpsoralen (TMP) binds to competent B. subtilis cells as effectively as non-treated DNA, but its transforming activity is strongly reduced.Uptake studies show that the entry of transforming DNA, after some stimulation by short periods of irradiation in the presence of TMP, decreases proportionally with the dose of irradiation. Crosslinking was quantitated by electron microscopy. Since the number of crosslinks increases proportionally with the dose of irradiation, it is suggested that entry of donor DNA is prevented by crosslinks. The inhibition of entry of DNA is paralleled both by decreased breakdown of crosslinked DNA interacting with competent cells, and decreased breakdown by nuclease activity liberated during protoplasting of competent cultures. These data support the model of Lacks et al. (1976) which postulates that a membrane-bound deoxyribonuclease is engaged in the entry of donor DNA into the competent cell.The transforming activity of the chloramphenicol-resistance carrying plasmid pC194, originally obtained from Staphylococcus aureus, is also destroyed by TMP crosslinks. Contrary to chromosomal DNA, its association with the cells is stimulated by longwave UV irradiation in the presence of TMP, but experiments are presented suggesting that the DNA is still vulnerable to the action of exogenous pancreatic deoxyribonuclease.Transfecting SPP1 DNA is also inactivated by TMP crosslinks. Marker rescue of transfecting DNA containing crosslinks occurs; the extent of rescue of one marker is considerably in excess of that of linked markers.     

Homology-facilitated plasmid transfer in Haemophilus influenzae

Summary The 8 kbp plasmid pAT4 transformed Haemophilus influenzae Rd cells at low frequencies. Transformation was increased up to 100 times, however, when the recipient cells carried a DNA segment in either their chromosome or in a resident plasmid that was homologous to at least part of plasmid pAT4. Linearized plasmid DNA molecules did not transform cells without DNA homology; they efficiently transformed homology recipients, but only when the cuts had been made in the region of shared homology. In most cases examined the circular donor plasmid had been reconstituted from the transforming DNA; in some cases the reconstituted plasmid carried a mutation initially present in the recipient chromosome, provided the transforming plasmid had been linearized in the region of shared homology. Plasmid reconstitution was not observed in recA1 cells. We conclude that homology-facilitated plasmid transformation (transfer) is similar to that reported for Bacillus subtilis and Streptococcus pneumoniae.     

Restriction and modification in B. subtilis

Summary The effects of restriction in vivo by competent B. subtilis R cells and in vitro by purified endonuclease BsuR on transformation and transfection with native and denatured DNA were investigated.The results show that transformation by either native, or denatured DNA is not affected by restriction, whereas transfection both with native and denatured SPP1 DNA is severely restricted.In contrast to the results obtained in vivo, the biological activity of native and denatured transforming DNA is destroyed by BsuR in vitro, as is the transfecting activity of native and denatured SPP1 DNA. The sensitivity of denatured DNA, either with mixtures of the complementary strands or with separated single strands¹ alone, is significantly lower than that of native DNA.The results are discussed in the context of possible mechanisms underlying the different responses of transforming and transfecting DNA to in vivo restriction by B. subtilis R cells.Abbreviations EGTA ethyleneglycolbis-(aminoethylether)tetraacetic acid - m⁺ modified - m^- non-modified - moi multiplicity of infection - r⁺ m⁺ restricting and modifying - r^- m^- mon-restricting and non-modifying - SSC 0.15M NaCl+0.015 M trisodium citrate - SDS sodium dodecyl sulphate     

Transformation of the basidiomycete, Schizophyllum commune

Summary Protoplasts of aSchizophyllum commune tryptophan auxotroph (trp1), deficient in indole-3-glycerol phosphate synthetase (IGPS), were transformed to trp⁺ with plasmid DNA containing the SchizophyllumTRP1 sequence. Efficiencies up to 30 transformants per microgram of plasmid DNA were obtained. Southern blots reveal that the transforming DNA is integrated in chromosomal DNA. The trp⁺ phenotype of transformants is stable in meiosis and mitosis. Transformants possess IGPS activity comparable to wild-type cells.     

Fractionation of DNA from Bacillus subtilis and its transforming activity for various markers

The physical, chemical, and functional heterogeneity of tranforming DNA was studied by preparative fractionation techniques providing resolution with respect to differences in molecular weight (gel filtration, sucrose density gradient), base composition (CsCl density gradient), or both these parameters simultaneously (methylalbumin-coated celite 545 MAK column). A comparison of the basic characteristics of the obtained fractions (melting temperature, T _m; density, ; sedimentation coefficient, S _20,w; and transforming activity for ade, leu, and met markers) showed that the factor decisive for functional activity represents, in addition to the sequential arrangement of nucleotides in the chain, the average base composition. Hence, using the methylalbumin column or CsCl density gradient centrifugation, DNA fractions can be isolated which show a several times higher transforming activity for any of the markers examined. By contrast, the remaining fractionation methods, even though considerably decreasing the heterogeneity of the fractions as regards their molecular weight (such as zonal centrifugation), do not offer a possibility of fractionation of the activity for individual markers. This indicates a statistically random degradation of transforming DNA during its isolation. The order of the investigated markers according to their guanine-cytosine content is ade leu met and corresponds also to the order of their positions on the genetic map of Bacillus subtilis.     

Specific inactivation of heterospecific transforming DNA by a factor derived from Streptococcus sanguis lysates.

Summary A heat-sensitive factor obtained from lysates of competent Streptococcus sanguis cells reacts specifically with native DNA of heterospecific (S. pneumoniae or calf thymus) origin. In vitro it does not alter the double or single strand length of the DNA, nor does it affect uptake of the DNA by competent S. sanguis or S. pneumoniae cells in DNase I-resistant form. Following uptake, however, DNA previously exposed to the factor loses over 90% of its biological activity. Reaction of heterospecific DNA with the factor is cometitive, suggesting a competition for binding to the factor. Heating treated DNA prior to its reaction with recipient cells, apparently by irreversibly dissociating the factor, restores to the DNA its original potential transforming activity. Specific activity of the factor can be increased in cells grown under certain conditions; this increase is blocked by erythromycin.     

Evaluation of CRE-mediated excision approaches in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

The ability of the CRE recombinase to catalyze excision of a DNA fragment flanked by directly repeated lox sites has been exploited to modify gene expression and proved to function well in particular case studies. However, very often variability in CRE expression and differences in efficiency of CRE-mediated recombination are observed. Here, various approaches were investigated to reproducibly obtain optimal CRE activity. CRE recombination was analyzed either by transforming the CRE T-DNA into plants containing a lox-flanked fragment or by transforming a T-DNA harboring a lox-flanked fragment into plants producing the CRE recombinase. Although somatic CRE-mediated excision of a lox-flanked fragment was obtained in all transformants, a variable amount of germline-transmitted deletions was found among different independent transformants, irrespective of the orientation of transformation. Also, the efficiency of CRE-mediated excision correlated well with the CRE mRNA level. In addition, CRE-mediated fragment excision was compared after floral dip and after root tissue transformation when transforming in a CRE-expressing background. Importantly, less CRE activity was needed to excise the lox-flanked fragment from the transferred T-DNA after root tissue transformation than after floral dip transformation. We hypothesize that this is correlated with the lower T-DNA copy number inserted during root transformation as compared to floral dip transformation. Gordana Marjanac and Annelies De Paepe contributed equally to this work.     

The relationship between molecular structure and transformation efficiency of some S. aureus plasmids isolated from B. subtilis.

Summary DNA preparations of the chloramphenicol resistance determining S. aureas plasmids pC194, pC223, and PUB112 can be fractionated by gel electrophoresis into various bands. Electromicroscopic investigations of these various molecular species obtained with pC194 indicated that, depending on the preparations, 70 to 80% of the molecules were monomers, while the rest consisted of various classes of concatemeric and/or interlocked multimers. Measurements of the specific transforming activity of the various molecular classes indicated that the monomers had less than one thousandth the activity of the multimeric plasmid DNA. pC194 DNa of high specific transforming activity could also be obtained by ligation of HindIII generated monomers into concatemeric DNA.On leave Istituto di Genetica Università di Pavia     

Liposome-mediated genetic transformation of Neurospora crassa

Summary Transformation of Neurospora crassa spheroplasts is reported for three different genes, using uncloned Neurospora DNA, both naked and encapsulated in synthetic phosphatidylserine liposomes. Whereas transformation by naked DNA is DNase-sensitive, that by liposomes is not. Per unit of transforming DNA, liposome transformation is significantly more efficient than that with naked DNA, ranging from 19x for the am gene to 41x for pyr-3. Levels of activity of pyr-3 and am transformants, and segregation data on pyr-3 transformation are given.     

Etude de l'action de l'acide nitreux sur le DNA transformant d'Haemophilus influenzae

Summary The action of nitrous acid on H. influenzae transforming DNA has been studied. Two of the antibiotic resistance markers studied, marker S (streptomycin) and marker N (novobiocin) show a difference in sensitivity towards nitrous acid. For these two markers, the loss of transforming activity is in accordance with a theory of transforming DNA proposed by Bresler and coll. In this theory the inactivation is related to the existence of damages that reduce the length of the donor DNA that is integrated. For the third marker studied, a K marker (kanamycin) the shape of the inactivation curve is somewhat different and shows the existence of an exponential component. The inactivation of the streptomycin-novobiocin linkage group (weakly linked markers) is additive, whereas the inactivation of the streptomycine-kanamycine group (closely linked markers) shows an overlapping effect which can be accounted for by the theory. These results are discussed in the text.Furthermore, the kinetic of induction by nitrous acid of reversible DNA molecules has been studied. This has been done by means of measurements of the transforming activity of nitrous acid treated DNA before and after heat denaturation and by hydroxylapatite chromatography of the heated DNA. It is shown that the kinetic of induction of reversibility is the same for the three unlinked markers studied. The direct estimation of the size of the crosslinked fraction indicates that the crosslinking effect of nitrous acid is not a major factor in marker inactivation.Finally, in view of our own results and of those obtained by others, we discuss the failure of nitrous acid to be mutagenic on native H. influenzae DNA. This failure, which contrasts with the result obtained on B. subtilis and Pneumococcal DNA, cannot be attributed to the existence of the nitrous induced crosslinks.     

The extracellular nuclease of Serratia marcescens: studies on the activity in vitro and effect on transforming DNA in a groundwater aquifer microcosm

A quantitative endonuclease assay, which relies on the introduction of single and double strand breaks into supercoiled plasmid DNA, was used to study the activity of the extracellular nuclease of Serratia marcescens SM6 in buffer and in groundwater. The parallel enzyme concentration-dependent production of relaxed and linear plasmid molecules suggests that the nuclease produces single and double strand breaks in duplex DNA. Bovine serum albumin stimulated the nuclease activity towards DNA and RNA and increased the stability of the enzyme against thermal inactivation. The DNase activity at 4 °C and 50 °C was almost half of that at the optimum temperature (37 °C). The nuclease was active in groundwater, although the specific activity was lower than in buffer. In a groundwater aquifer microcosm, mineral-adsorbed transforming DNA was substantially less accessible to the nuclease than was dissolved DNA. The data suggest that the extracellular nuclease of Serratia marcescens may contribute to DNA turnover in the environment and that adsorption of DNA to minerals provides protection against the nuclease.Abbreviations GW groundwater GWA groundwater aquifer