A simple method for shortening a plasmid genome using a system of plasmid cointegration mediated by a Tn3 mutant

This paper describes a simple method for the isolation of small plasmids of various sizes from pSMI, a derivative of the resistance plasmid R 100. The method is based on the observation that a repressor-negative mutant of the ampicillin-resistance (amp^r) transposon Tn3, Tn3 No. 5, mediates cointegration of a plasmid carrying Tn 3 No. 5 (pMB8::Tn 3 No. 5) into virtually any site on pSMI. The resulting cointegrate plasmids contain the pSMI sequence which is joined with the amp^r gene of the Tn 3 mutant. This cointegration is so frequent that large cointegrate plasmids can be readily detected in the total plasmid DNA prepared from cells carrying pSMI and pMB8::Tn3 No. 5. We were able to isolate small plasmids of various sizes by digesting the total plasmid DNAs with restriction endonucleases which cut both pSM 1 and Tn3 No. 5 sequences present in the cointegrates and subsequently ligating the restriction fragment containing both the amp^r gene and the region necessary for replication of pSMI. Analysis of these plasmids, named pBV plasmids, with restriction endonucleases and by nucleotide sequencing allowed us to determine regions necessary or unnecessary for replication, thus defining a minimal replication region of pSMI. The present method is generally useful for the isolation of small derivatives from any large plasmid for the study of genes and sites adjacent to or within the minimal replication region of the plasmid.     

Thermo-inducible expression of cloned early genes of bacteriophage Mu.

An EcoRI fragment, containing approx. 5100 base pairs (bp) of the immunity-end of bacteriophage Mu, was inserted into the multicopy plasmid pMB9 by in vitro recombination. The expression of early Mu genes, located on the cloned fragment, is thermo-inducible because of the presence of the ts mutation in gene c. The isolation of a transformant harbouring the recombinant plasmid, pGP1, was possible only when expression of Mu genes was prevented. pGP1 can be maintained at 28 degrees C at high copy number, but at 42 degrees C the pGP1 containing cells are killed due to the expression of the kil gene of Mu. The following Mu genes are present on pGP1: the ner gene, the integration and replication genes A and B, the cim gene, and the kil gene. pGP1 containing cells do not show Gam and Sot activity at 42 degrees C, therefore the leftmost EcoRI site on the Mu DNA is located between genes kil and gam or sot, or within the gam or sot gene.     

Sterile host yeasts (SHY): a eukaryotic system of biological containment for recombinant DNA experiments.

A system of biological containment for recombinant DNA experiments in Saccharomyces cerevisiae (Brewer's/Baker's yeast) is described. The principle of containment is sterility: the haploid host strains all contain a mating-type-non-specific sterile mutation. The hosts also contain four auxotrophic mutations suitable for selection for the various kinds of vectors used. All vectors are derivatives of pBR322 which can be selected and maintained in both yeast and Escherichia coli. The system has recently been certified at the HV2 level by the National Institutes of Health.     

Location of a second partitioning region (ParL) on the F plasmid

Abstract The leading region of the F plasmid has been found to extend the maintenance of the normally unstable plasmid vector pACYC184. This ability is due to effective partitioning of plasmid molecules at cell division. Cloning, deletion analysis and transposon mutagenesis have located the partitioning region (ParL) to be encoded within 63.65–64.11F. Complementation studies indicated that parL is a cis -acting locus.     

Importance of the leader region of mRNA for translation initiation of ColE2 Rep protein

Translation initiation of mRNA encoding the Rep protein of the ColE2 plasmid required for initiation of plasmid DNA replication is fairly efficient in Escherichia coli cells despite the absence of a canonical Shine-Dalgarno sequence. To define sequences and structural elements responsible for translation efficiency of the Rep mRNA, a series of rep-lacZalpha translational fusions bearing various mutations in the region encoding the leader region of the Rep mRNA was generated and tested for the translation activity by measuring the beta-galactosidase activity. We showed that the region rich in A and U between the stem-loop II structure and GA cluster sequence, formation of the stem-loop II structure, but not its sequence, and the region between the GA cluster sequence and initiation codon are important along with the GA cluster sequence for efficient translation of the Rep protein. The existence of these important regions in the leader region of the Rep mRNA may explain the mechanism of inhibition of the Rep protein translation by an antisense RNA (RNAI), which is complementary to the leader region.     

Structural and functional analysis of the single-strand origin of replication from the lactococcal plasmid pWV01

The single-strand origin (SSO) of the rolling-circle (RC), broad-host-range lactococcal plasmid pWVO1 was functionally characterized. The activity of this SSO in the conversion of single-stranded DNA to double-stranded DNA was tested both in vivo and in vitro. In addition, the effect of this SSO on plasmid maintenance was determined. The functional pWVO1 SSO comprises a 250 by region, containing two inverted repeats (IRs). The activity of each IR was tested, separately and in combination, in a plasmid derivative that was otherwise completely devoid of structures that might function as SSO. One of the IRs (IR 1) showed some homology with other previously described SSOs of the SSO_A type, as well as with the conversion signal of the Escherichia coli phage X174. This IR was shown to have a partial, RNA polymerise-independent activity in complementary strand synthesis, both in vivo and in vitro. The second IR, which had no activity of its own, was required for full SSO activity, both in vivo and in vitro. The conversion of single-stranded DNA to the double-stranded form by the complete SSO was only partly sensitive to inhibition by rifampicin, indicating the existence of an RNA polymerase-independent pathway for this event. The results suggest that the pWVO1 SSO can be activated by two different routes: an RNA polymerise-dependent one (requiring the entire SSO), and an RNA polymerase-independent one (requiring only IR I).     

链霉菌质粒的复制与进化

近年来, 随着大质粒提取和检测技术的发展, 尤其是高通量DNA测序技术的应用, 使得链霉菌大的环型质粒和线型质粒的研究取得了较快的进展。相比于研究透彻的细菌Theta型复制的质粒, 链霉菌Theta型质粒在复制区的结构、复制蛋白和调控蛋白作用的分子机理等方面具有多样性和新颖性。新鉴定的许多线型质粒的中心复制区表明中心复制的起始可以靠近端粒, 一个质粒也可以有2个以上的复制区。新分离的端粒序列显示端粒“折返”不是必需的, 而形成二级结构对于端粒复制是重要的。链霉菌环型和线型质粒的测序分析显示它们之间存在亲缘关系。环型质粒可以与噬菌体共整合, 实验证明它们在一定条件下可以相互转换。这些研究结果表明, 链霉菌环型、线型质粒和噬菌体从结构到功能到进化具有多样性、新颖性和亲缘关系。     

Sequence and Gene Expression Analyses of Plasmid pHPM8 from Helicobacter pylori Reveal the Presence of Two Operons with Putative Roles in Plasmid Replication and Antibiotic Activity

The DNA sequence of a 7.8-kb Helicobacter pylori plasmid, pHPM8, was determined. Six open reading frames (ORFs) were present. Ribonuclease protection studies showed that ORF1/ORF2 and ORF3/ORF4 genes are organized in operons possibly involved in plasmid replication and in production of a peptide with antibiotic activity, respectively. Finding areas of pHPM8 with a high level of identity to H. pylori chromosomal DNA supported the hypothesis that recombination occurs between plasmids and the chromosome of H. pylori.