A mutation of Streptomyces lividans which prevents intraplasmid recombination has no effect on chromosomal recombination

Summary A mutation (rec-46) of Streptomyces lividans, previously shown to prevent (or greatly diminish) homologous and illegitimate intraplasmid recombination, was shown to have no effect on generalised chromosomal recombination occurring in matings or in protoplast fusions, nor to affect homologous recombination between a recombinant plasmid and the host chromosome. By comparison with Escherichia coli mutants defective in various aspects of recombination, the rec-46 mutation is similar to those in recF, recJ, recO and topA.     

Derepression of single-stranded DNA-binding protein genes on plasmids derepressed for conjugation, and complementation of an E. coli ssb- mutation by these genes

Summary Plasmid single-stranded DNA-binding protein genes complement the E. coli ssb-1 mutation, and partially restore capacity for DNA synthesis, DNA repair (direct role as well as role in SOS induction) and general recombination. Plasmid mutants derepressed for fertility derived from R1, R64 and R222 show a higher level of complementation compared to the parental repressed plasmids. Derepressed mutants of R222 synthesize more RNA which hybridizes with the ssb gene of the F factor than does the original R222 plasmid. This indicates that plasmid ssb genes are regulated coordinately with fertility genes.     

Intermolecular recE4-independent recombination in Bacillus subtilis: formation of plasmid pKBT1

Summary The plasmid pKBT1 was derived by in vivo recE4-independent recombinational event(s) yielding a structure containing regions of plasmid and chromosomal origin. BamHI digests of plasmid pUB110 (Kan^r/Neo^r) and Bg/II digests of pTL12 (Tmp^r, leuA) were mixed, ligated and used to transform competent cells of a recE4 strain of Bacillus subtilis. Kanamycin-resistant transformants were electrophoretically screened for hybrid plasmids. Plasmid pKBT1 (8.0 kb) was smaller than pTL12 (10.4 kb) but larger than monomeric pUB110 (4.5 kb). Plasmid PKBT1 was stably maintained in recE4 strains of B. subtilis and conferred kanamycin resistance but did not specify trimethoprim resistance or leucine prototrophy. At least 86% of the pUB110 monomer length was present in pKBT1 and was completely contained within a single 5.58 kb HindIII fragment. The other segment of pKBT1 was of chromosomal origin as evidenced by lack of homology to pTL12 and strong hybridization to B. subtilis chromosomal DNA. At least one of the in vivo recE4-independent event(s) which produced pKBT1 must have involved intermolecular recombination between transforming and chromosomal DNA. This finding differs from previous reports in which recE4-independent recombination involving pUB110 sequences was a strictly intramolecular event.     

Cloning and characterization of a DNA repair gene inHaemophilus influenzae

Using a high-efficiency DNA cloning vector pJ1–8, a DNA repair geneuvr1 has been self-cloned in bacteriumHaemophilus influenzae. Chimeric plasmid pKuvrl, carrying wild type allele ofuvr1 gene and flanking DNA sequences, specifically complements auvr1 gene mutation in the bacterial chromosome. Auvr1_} mutation could be transferred from chromosome byin vivo recombination to pKuvr1 and isolated and designated as plasmid pKuvrl₋. Plasmid pKuvrl carries a 11.3 kb chromosomal DNA insert which was scanned for the presence of any other DNA repair genes by a novel method of directed mutagenesis. Preliminary analysis of the 3 new mutants isolated by this method supports the notion that the insert contains more than one gene concerned with ultraviolet radiation-sensitivity.     

Different capacities for recombination in closely related human lymphoblastoid cell lines with different mutational responses to X-irradiation.

WIL2-NS and TK6 are two distinct human lymphoblast cell lines derived from a single male donor. WIL2-NS cells are significantly more resistant to the cytotoxic effects of X-irradiation but considerably more sensitive to induced mutation. In an effort to determine the mechanistic basis for these differences, we analyzed the physical structures of thymidine kinase (tk)-deficient mutants isolated after X-ray treatment of tk heterozygotes derived from TK6 and the more mutable WIL2-NS. Southern analysis showed that while 84% of TK6-derived mutants had arisen by loss of heterozygosity (LOH), all 106 mutants from WIL2-NS derivatives arose with LOH at tk and all but one showed LOH at other linked loci on chromosome 17. We adapted a fluorescence in situ hybridization technique to distinguish between LOH due to deletion, which results in retention of only one tk allele, and LOH due to a mechanism involving the homologous chromosome (e.g., recombination), which results in the retention of two alleles. Among the LOH mutants derived that were analyzed in this way, 9 of 26 from WIL2-NS and 11 of 17 from TK6 cell lines arose by deletion. The remaining mutants retained two copies of the tk gene and thus arose by a mechanism involving the homologous allele. Since many of these mutants arising by a homologous mechanism retained partial heterozygosity of chromosome 17, they must have arisen by recombination or gene conversion, and not chromosome loss and reduplication. Finally, the recombinational capacities of WIL2-NS and TK6 were compared in transfection assays with plasmid recombination substrates. Intermolecular recombination frequencies were greater in WIL2-NS than in TK6. These data are consistent with a model suggesting that a recombinational repair system is functioning at a higher level in WIL2-NS than in TK6; the greater mutability of the tk locus in WIL2-NS results from more frequent inter- and intramolecular recombination events.     

Partial complementation of the UV sensitivity of E. coli and yeast excision repair mutants by the cloned denV gene of bacteriophage T4

Summary The denV gene of bacteriophage T4 was reconstituted from two overlapping DNA fragments cloned in M13 vectors. The coding region of the intact gene was tailored into a series of plasmid vectors containing different promoters suitable for expression of the gene in E. coli and in yeast. Induction of the TAC promoter with IPTG resulted in overexpression of the gene, which was lethal to E. coli. Expression of the TACdenV gene in the absence of IPTG, or the use of the yeast GAL1 or ADH promoters resulted in partial complementation of the UV sensitivity of uvrA, uvrB, uvrC and recA mutants of E. coli and rad1, rad2, rad3, rad4 and rad10 mutants of S. cerevisiae. The extent of denV-mediated reactivation of excision-defective mutants was approximately equal to that of photoreactivation of such strains. Excision proficient E. coli cells transformed with a plasmid containing the denV gene were slightly more resistant to ultraviolet (UV) radiation than control cells without the denV gene. On the other hand, excision proficient yeast cells were slightly more sensitive to killing by UV radiation following transformation with a plasmid containing the denV gene. This effect was more pronounced in yeast mutants of the RAD52 epistasis group.     

recB recJ mutants ofSalmonella typhimurium are deficient in transductional recombination, DNA repair and plasmid maintenance

recB recJ mutants ofSalmonella typhimurium are deficient in transduction of chromosomal markers and ColE1-derived plasmids, and also in the maintenance of ColE1 and F plasmids. Plasmid instability is less severe inrecD recJ strains; ColE1 plasmid DNA preparations from these strains show an increased yield of high molecular weight (HMW) linear multimers and a concomitant reduction in plasmid monomers compared to the wild type. Plasmids remain unstable inrecA recD recJ mutants; since these do not produce HMW linear concatemers, we propose that a decrease in monomer production leads to plasmid instability.recB recJ strains also display decreased viability, a component of which may be related to their deficiency in DNA repair. In contrast to their severe defects in recombination, DNA repair and plasmid maintenance,recB recJ mutants ofS. typhimurium behave similarly to the wild type in the segregation of chromosome duplications. The latter observation suggests that neither RecBCD nor RecJ functions are required for chromosomal recombination events that do not involve the use of free ends as recombination substrates.     

Stimulation of recombination between homologous sequences on carcinogen-treated plasmid DNA and chromosomal DNA by induction of the SOS response in Escherichia coli K12

Summary Previous studies have shown that transformation of Escherichia coli by plasmid DNA modified in vitro by carcinogens leads to RecA-dependant recombination between homologous plasmid and chromosomal DNA sequences. The mechanism of this recombination has now been studied using recombination-deficient mutants, and the influence of induction of the SOS response on the level of recombination investigated. Plasmid pNO1523, containing the str ⁺ operon (Sm^s), has been modified in vitro by either irradiation with UV light, or by reaction with (±) trans-benzo(a)pyrene-7,8-dihydrodiol-9,10-epoxide (BPDE) and used to transform streptomycin-resistant hosts. The formation of Amp^r transformants which also carry streptomycin resistance was used as a measure of the level of recombination between plasmid and chromosomal DNA. Transformation of recB and recC mutants produced no change in the level of recombination while in the recF mutant a significant decrease was observed compared to the wild type host. Thermal induction of the SOS response in tif-1 and tif-1 umuC mutants followed by transformation led to a four-fold increase in recombination in both cases. The results suggest that the streptomycin-resistant transformants arise exclusively via a recombinational pathway which is largely dependant on the recF gene product, and that this pathway is influenced by induction of the SOS response. These results are discussed in terms of the mechanism of this recombination.     

Intraplasmid recombination in Streptomyces lividans 66

Summary An Escherichia coli-Streptomyces shuttle plasmid pIF132 containing two direct mel repeats was constructed. While pIF132 replicated relatively stably in E. coli (Rec⁺ or recA), its structure was unstable in S. lividans: recombination between the mel repeats resulted in a smaller plasmid, pIF138. Furthermore, pIF132 formed oligomers extensively in E. coli but not in S. lividans.     

Isolation of Arabidopsis thaliana mutants hypersensitive to gamma radiation

A screening method for mutants of Arabidopsis thaliana hypersensitive to -radiation has been devised. Plants grown from ethyl methanesulfonate (EMS)-treated seeds were irradiated at the seedling stage, which is highly radiosensitive due to extensive cell division. Severe growth inhibition of mutant plants by a -ray dose which only slightly affects wild-type plants was the selective criterion. Twelve true-breeding hyper-sensitive lines were isolated from a total of 3394 screened plants. Genetic analysis of five of the lines revealed five new genes, designated RAD1-RAD5. These Arabidopsis RAD mutants are phenotypically similar to mutants in the RAD52 epistasis group of Saccharomyces cerevisiae, which are highly sensitive to ionizing radiation but not hypersensitive to UV light. One possibility is that the Arabidopsis mutants are defective in a nonhomologous or illegitimate recombination mechanism used by plants for repair of chromosome breaks.     

Transposon mutagenesis and cloning of the genes encoding the enzymes of fengycin biosynthesis inBacillus subtilis

A total of 20Bacillus subtilis F29-3 mutants defective in fengycin biosynthesis was obtained by Tn917 mutagenesis. Cloning and mapping results showed that the transposon in these mutants was inserted in eleven different locations on the chromosome. We were able to use the chromosomal sequence adjacent to the transposon as a probe to screen for cosmid clones containing the fengycin biosynthesis genes. One of the clones obtained, pFC660, was 46 kb long. Eight transposon insertion sites were mapped within this plasmid. Among the eleven different mutants analyzed, four mutants had Tn917 inserted in regions which encoded peptide sequences similar to part of gramicidin S synthetase, surfactin synthetase, and tyrocidine synthetase. Our results suggest that fengycin is synthesized nonribosomally by the multienzyme thiotemplate mechanism.     

The SbcCD protein of Escherichia coli is related to two putative nucleases in the UvrA superfamily of nucleotide-binding proteins

The derived amino-acid sequences of the proteins encoded by E. coli genes sbcC and sbcD have been compared with other protein sequences using computer assisted methods. This work has shown that SbcC and D, which inhibit the propagation of replicons containing long palindromic DNA sequences, are distantly related to two putative bacteriophage nucleases. These nucleases both comprise two polypeptide chains which are the products of genes 46 and 47 of bacteriophage T4 (gp 46 and gp 47) and genes D13 and D12 of bacteriophage T5 (gp D13 and gp D12). The comparisons reveal that SbcC, gp 46 and gp D13 are more closely related to each other than are SbcD, gp 47 and gp D12. SbcC appears to have undergone a partial duplication of an ancestral sequence. These proteins all contain motifs common to the superfamily of nucleotide-binding proteins that includes UvrA and the cystic fibrosis transmembrane regulator CFTR.     

<Emphasis Type="Italic">Bacillus megaterium</Emphasis>—from simple soil bacterium to industrial protein production host

Bacillus megaterium has been industrially employed for more than 50 years, as it possesses some very useful and unusual enzymes and a high capacity for the production of exoenzymes. It is also a desirable cloning host for the production of intact proteins, as it does not possess external alkaline proteases and can stably maintain a variety of plasmid vectors. Genetic tools for this species include transducing phages and several hundred mutants covering the processes of biosynthesis, catabolism, division, sporulation, germination, antibiotic resistance, and recombination. The seven plasmids of B. megaterium strain QM B1551 contain several unusual metabolic genes that may be useful in bioremediation. Recently, several recombinant shuttle vectors carrying different strong inducible promoters and various combinations of affinity tags for simple protein purification have been constructed. Leader sequences-mediated export of affinity-tagged proteins into the growth medium was made possible. These plasmids are commercially available. For a broader application of B. megaterium in industry, sporulation and protease-deficient as well as UV-sensitive mutants were constructed. The genome sequence of two different strains, plasmidless DSM319 and QM B1551 carrying seven natural plasmids, is now available. These sequences allow for a systems biotechnology optimization of the production host B. megaterium. Altogether, a “toolbox” of hundreds of genetically characterized strains, genetic methods, vectors, hosts, and genomic sequences make B. megaterium an ideal organism for industrial, environmental, and experimental applications.     

Recombinational repair of alkylation lesions in phage T4

Summary Treatment of bacteriophage T4 by ethyl methanesulfonate (EMS)¹ caused more than a doubling in recombination between two rII markers. The functions of genes 47, 46, 32, 30, uvsX and y are known to be required for genetic recombination, and mutants defective in these genes were found to be more sensitive to inactivation by EMS than wild-type phage. This suggests that a recombinational pathway involving the products of these genes may be employed in repairing EMS induced lethal lesions. Genes 45 and denV are apparently not involved in recombination, and mutants defective in these genes were not EMS-sensitive. Gene 47, 46 and y mutants which were defective in the repair of EMS induced lethal lesions had no detectable deficiency in their ability to undergo EMS-induced mutation. This implies that recombinational repair of EMS lesions does not contribute substantially to EMS mutatenesis. The results obtained here with EMS are in general similar to the results reported in the preceding paper with MNNG, suggesting that the lesions caused by both of these monofunctional alkylating agents may be eliminated by similar recombinational repair processes.     

Genetic profile of pNOB8 from Sulfolobus: the first conjugative plasmid from an archaeon

The complete nucleotide sequence of the archaeal conjugative plasmid, pNOB8, from the Sulfolobus isolate NOB8-H2, was determined. The plasmid is 41 229 bp in size and contains about 50 ORFs. Several direct sequence repeats are present, the largest of which is a perfect 85-bp repeat and a site of intraplasmid recombination in foreign Sulfolobus hosts. This recombination event produces a major deletion variant, pNOB8-33, which is not stably maintained. Less than 20% of the ORFs could be assigned putative functions after extensive database searches. Tandem ORFs 315 and 470, within the deleted 8-kb region, show significant sequence similarity to the protein superfamilies of ParA (whole protein) and ParB (N-terminal half), respectively, that are important for plasmid and chromosome partitioning in bacteria. A putative cis-acting element is also present that exhibits six 24-mer repeats containing palindromic sequences which are separated by 39 or 42 bp. By analogy with bacterial systems, this element may confer plasmid incompatibility and define a group of incompatible plasmids in Archaea. Although several ORFs can form putative trans-membrane or membrane-binding segments, only two ORFs show significant sequence similarity to bacterial conjugative proteins. ORF630b aligns with the TrbE protein superfamily, which contributes to mating pair formation in Bacteria, while ORF1025 aligns with the TraG protein superfamily. We infer that the conjugative mechanism for Sulfolobus differs considerably from known bacterial mechanisms. Finally, two transposases were detected; ORF413 is flanked by an imperfect 32-bp inverted repeat with a 5-bp direct repeat at the ends, and ORF406 is very similar in sequence to an insertion element identified in the Sulfolobus solfataricus P2 genome. Received: March 10, 1998 / Accepted: May 2, 1998     

Recombinations between Alu repeat sequences that result in partial deletions within the C1 inhibitor gene

Genomic DNA sequence analysis was used to define the extent of deletions within the C1 inhibitor gene in two families with type I hereditary angioneurotic edema. Southern blot analysis initially indicated the presence of the partial deletions. One deletion was approximately 2 kb and included exon VII, whereas the other was approximately 8.5 kb and included exons IV–VI. Genomic libraries from an affected member of each family were constructed and clones containing the deletions were analyzed. Sequence analysis of the deletion joints of the mutants and corresponding regions of the normal gene in the two families demonstrated that both deletion joints resulted from recombination of two Alu repetitive DNA elements. Alu repeat sequences from introns VI and VII combined to make a novel Alu in family A, and Alu sequences in introns III and VI were spliced to make a new Alu in family B. The splice sites in the Alu sequences of both mutants were located in the left arm of the Alu element, and both recombination joints overlapped one of the RNA polymerase III promoter sequences. Because the involved Alu sequences, in both instances, were oriented in the same direction, unequal crossingover is the most likely mechanism to account for these mutations.     

Cloning and DNA sequence analysis of the mercury resistance genes of Streptomyces lividans

Summary A broad-spectrum mercury resistance locus (mer) from a spontaneous chloramphenicol-sensitive (Cm^s), arginine auxotrophic (Arg^–) mutant of Streptomyces lividan 1326 was isolated on a 6 kb DNA fragment by shotgun cloning into the mercury-sensitive derivative S. lividans TK64 using the vector pIJ702. The mer genes form part of a very large amplifiable DNA sequence present in S. lividans 1326. This element was amplified to about 20 copies per chromosome in the Cm^s Arg^– mutant and was missing from strains like S. lividans TK64, cured for the plasmid SLP3. DNA sequence analysis of a 5 kb region encompassing the whole region required for broad-spectrum mercury resistance revealed six open reading frames (ORFs) transcribed in opposite directions from a common intercistronic region. The protein sequences predicted from the two ORFs transcribed in one direction showed a high degree of similarity to mercuric reductase and organomercurial lyase from other gram-negative and gram-positive sources. Few, if any, similarities were found between the predicted polypeptide sequences of the other four ORFs and other known proteins.     

A system for analysis of yeast mutants deficient in the genetic recombination process]

A system of molecular-genetic methods intended for analysis of yeast Rec-mutants was developed. A number of plasmids containing noncomplementing mutations in the ADE2 gene and different selective markers were constructed. The system was based upon the phenomenon of interplasmid intragenic recombination during transformation and mitotic division. Transformation of yeast cells with the plasmid containing two long right repeats allowed to estimate the efficiency of intraplasmid crossing-over. The system also allows to study plasmid-chromosomal interaction. To check up the system proposed, a well known rad50 and rad52 mutants were used. The rad52-1 mutation was found sharply decreased the levels both intra- and interplasmid recombination events. On the other hand, rad50-1 mutation has not influences or stimulates the processes. Thus, the system proposed efficiently distinguishes the mutants deficient in different stages of recombinational process.     

Chromosomal and mutagenic study of the marine macroalga,Gracilaria tenuistipitata

A pressing need of algal aquaculture is the availability of strains with favourable characteristics. Since this goal cannot be achieved easily by traditional breeding methods for Gracilaria tenuistipitata, we developed mutagenesis and selection procedures that bypass the necessity for protoplast isolation and cultivation. A haploid gametophyte was identified through chromosome analysis and used for mutagenesis. Chromosomal analyses showed that the haploid plant contains several layers of mononucleated cells at the surface and many large multinucleated syncytiums in the internal region. Chromosomal division of all nuclei in a syncytium was in synchrony. Mononucleated cells were more sensitive to both UV and DNA insertion mutagenesis. UV treatment generated many cadmium (Cd) resistant mutants, but most mutants exhibited retarded growth rate. However, several stable Cd resistant mutants were obtained through reselection. Plasmid pCaMVCAT could be used for DNA insertion mutagenesis in G. tenuistipitata. Stable mutants with increased resistance to chloramphenicol were selected.     

Site-directed recombination in the genome of transgenic tobacco

Summary The plant genome responds to the bacteriophage P1-derived loxP-Cre site-specific recombination system. Recombination took place at loxP sites stably integrated in the tobacco genome, indicating that the Cre recombinase protein, expressed by a chimeric gene also stably resident in the genome, was able to enter the nucleus and to locate a specific 34 bp DNA sequence. An excisional recombination event was monitored by the acquisition of kanamycin resistance, which resulted from the loss of a polyadenylation signal sequence that interrupted a chimeric neomycin phosphotransferase 11 gene. Molecular analysis confirmed that the excision had occurred. Recombination occurred when plants with the integrated loxP construction were stably re-transformed with a chimeric cre gene and when plants with the introduced loxP construction were cross-bred with those carrying the chimeric cre gene. As assayed phenotypically, site-specific recombination could be detected in 50%–100% of the plants containing both elements of the system. Kanamycin resistance was detected at 2–3 weeks after re-transformation and in the first leaf of hybrid seedlings. This demonstration of the effectiveness of the loxP-Cre system in plants provides the basis for development of this system for such purposes as directing site-specific integration and regulation of gene expression.