Mode and origin of replication of pSAM2, a conjugative integrating element of Streptomyces ambofaciens

pSAM2 is an 11 kb integrating element from Streptomyces ambofaciens that is capable of replication. It generates single-stranded DNA during replication, and is therefore the first Streptomyces integrating element to be described that may belong to the family of elements, called the ssDNA elements, that replicate by a rolling-circle mechanism. The direction of replication has been identified. The plus origin (ori) of replication and minus origin (M-O) have been located. Streptomyces lividans harbouring replicating pSAM2 also contain numerous small covalently closed circular DNA molecules (scm) derived from pSAM2. These scm contain ori and extend on both sides of the putative nick site. Sequences at the junction points of these scm are heterogeneous but short direct repeats were always found in the vicinity of these junctions.     

Synchronous replication initiation in novel Mycobacterium tuberculosis dnaA cold-sensitive mutants

The genetic aspects of ori C replication initiation in Mycobacterium tuberculosis are largely unknown. A two-step genetic screen was utilized for isolating M. tuberculosis dna A cold-sensitive (cos) mutants. First, a resident plasmid expressing functional dna A integrated at the att B locus in dna A null background was exchanged with an incoming plasmid bearing a mutagenized dna A gene. Next, the mutants that were defective for growth at 30°C, a non-permissive temperature, but resumed growth and DNA synthesis when shifted to 37°C, a permissive temperature, were subsequently selected. Nucleotide sequencing analysis located mutations to different regions of the dna A gene. Modulation of the growth temperatures led to synchronized DNA synthesis. The dna A expression under synchronized DNA replication conditions continued to increase during the replication period, but decreased thereafter reflecting autoregulation. The dna Acos mutants at 30°C were elongated suggesting that they may possibly be blocked during the cell division. The DnaA115 protein is defective in its ability to interact with ATP at 30°C, but not at 37°C. Our results suggest that the optimal cell cycle progression and replication initiation in M. tuberculosis requires that the dna A promoter remains active during the replication period and that the DnaA protein is able to interact with ATP.     

DE1, a 12-base pair cis-regulatory element sufficient to confer dark-inducible and light down-regulated expression to a minimal promoter in pea

We found a cis-regulatory element of 12 base pairs (bp) (GGATTTTACAGT) capable of conferring light responsiveness to a minimal promoter, CaMV 35S46, in pea. The 12-bp sequence is located in the 5' upstream region of the light down-regulated gene pra2, which encodes a small GTPase belonging to the YPT/rab family. Here we examined gain-of-function analyses using synthetic promoter-luciferase constructs in a transient assay and found that the 12-bp element alone was sufficient to confer dark induction, as well as light down-regulation on the minimal promoter. We named this dark inducible element DE1. Effects of various light conditions on the reporter gene activity showed that DE1 received signals from phytochrome A, phytochrome B, and blue light photoreceptors. Using phytochrome-deficient mutants, we showed that the pra2 protein level in seedlings was also regulated by these photoreceptors. The changes in the immunoblotting pattern of the pra2 protein in these mutants were correlated with the changes in epicotyl elongation. Results from transient assays using these mutants showed that the DE1 received signals from phytochromes A and B, demonstrating that this element is indeed a light-responsive element. To our knowledge, this is the first cis-element that by itself confers light responsiveness to a minimal promoter.     

Site-specific integration in Streptomyces ambofaciens: localization of integration functions in S. ambofaciens plasmid pSAM2.

In Streptomyces ambofaciens ATCC 15154, an 11.1-kilobase element, pSAM2, exists as a single integrated copy in the chromosome. In S. ambofaciens 3212 (a derivative of ATCC 15154), pSAM2 exists as a free, circular plasmid as well as an integrated element. BclI fragments from the free form of pSAM2 were cloned into an Escherichia coli plasmid vector. By using gene transplacement methods, the chromosomally integrated form of pSAM2 was marked with a gene coding for apramycin resistance. This enabled us to isolate both a segregant that had lost the integrated pSAM2 element and a cosmid clone containing integrated pSAM2 along with the flanking chromosomal sequences. One of the BclI fragments derived from free pSAM2 was shown to contain all the plasmid-specified information required to direct site-specific recombination in a derivative of S. ambofaciens lacking the resident pSAM2 element as well as in a number of other Streptomyces strains. The attachment sites used by the plasmid and the chromosome in site-specific recombination and the junctions created after integration were cloned and sequenced. Certain structural features in common with other integrating elements in actinomycetes were noted.     

Participation of the Escherichia coli heat shock proteins DnaJ, DnaK, and GrpE in autorepression of the P1 plasmid repA promoter

The replicon of the low copy number plasmid P1 uses the three Escherichia coli heat shock proteins DnaJ, DnaK, and GrpE for the efficient initiation of its DNA replication. The only P1-encoded protein required for plasmid replication is the initiator, RepA. Binding of RepA to the origin also represses the promoter for the repA gene, which is located within the origin. We found that repression is incomplete in E. coli strains with mutations in the dnaJ, dnaK, or grpE genes. Since there is no decrease in RepA concentration in the mutant strains, the mutations are likely to affect the protein-DNA or protein-protein reactions required for repression, thereby decreasing RepA binding at its promoter. We also showed that the deficit in repression can be overcome by providing excess RepA, implying that the mechanism of repression is not altered in the mutant strains. Since repression requires RepA binding to the origin, a binding deficit might account for the replication defect in the heat shock mutants.     

Plasmids in different strains of Streptomyces ambofaciens: free and integrated form of plasmid pSAM2

Summary Five strains of Streptomyces ambofaciens were examined for their plasmid content. Among these strains, four belong to the same lineage (strains B) and the other was isolated independently (strain A). A large plasmid (ca. 80 kb), called pSAM1 in this paper and already described, was present in all B strains, and absent in strain A. A second plasmid, not described before, was found as covalently closed circular DNA in two of the four B strains. This plasmid with a size 11.1 kb was called pSAM2. A restriction map for 14 enzymes was established. Hybridization experiments showed that a unique sequence homologous to this plasmid is integrated in a larger replicon, which is not pSAM1 and is probably the chromosome, in all B strains and not in strain A. It seems probable that the integrated se1uence is the origin of the free plasmid found in two strains of the B family. It is noteworthy that the integrated form and the free plasmid may be found together. Transformation experiments proved that pSAM2 may be maintained autonomously in S. ambofaciens strain A and in S. lividans. pSAM2 is a self-transmissible plasmid, able to elicit the lethal zygosis reaction. pSAM2 was compared to the plasmids SLP1, pIJ110 and pIJ408, which all come from integrated sequences in three Streptomyces species and are found as autonomous plasmids after transfer to S. lividans. If pSAM2 resembles these plasmids in its origin, it does not appear to be related directly to them. Concerning their plasmid content, the two isolates of S. ambofaciens are very different. One of them contains neither pSAM1 not pSAM2. As this isolate produces spiramycin, these plasmids probably do not play an important role in spiramycin production. Apart from its intrinsic biological interest, pSAM2 may be useful in the construction of cloning vectors for S. ambofaciens. Very stable transformants might be obtained in certain strains of S. ambofaciens, because of the possibility of integration of the pSAM2 derivative vector.     

Genome replication,virion secretion,and e antigen expression of naturally occurring hepatitis B virus core promoter mutants

The core promoter mutants of hepatitis B virus (HBV) emerge as the dominant viral population at the late HBeAg and the anti-HBe stages of HBV infection, with the A1762T/G1764A substitutions as the hotspot mutations. The double core promoter mutations were found by many investigators to moderately enhance viral genome replication and reduce hepatitis B e antigen (HBeAg) expression. A much higher replication capacity was reported for a naturally occurring core promoter mutant implicated in the outbreak of fulminant hepatitis, which was caused by the neighboring C1766T/T1768A mutations instead. To systemically study the biological properties of naturally occurring core promoter mutants, we amplified full-length HBV genomes by PCR from sera of HBeAg(+) individuals infected with genotype A. All 12 HBV genomes derived from highly viremic sera (5 x 10(9) to 5.7 x 10(9) copies of viral genome/ml) harbored wild-type core promoter sequence, whereas 37 of 43 clones from low-viremia samples (0.2 x 10(7) to 4.6 x 10(7) copies/ml) were core promoter mutants. Of the 11 wild-type genomes and 14 core promoter mutants analyzed by transfection experiments in human hepatoma cell lines, 6 core promoter mutants but none of the wild-type genomes replicated at high levels. All had 1762/1764 mutations and an additional substitution at position 1753 (T to C), at position 1766 (C to T), or both. Moreover, these HBV clones varied greatly in their ability to secrete enveloped viral particles irrespective of the presence of core promoter mutations. High-replication clones with 1762/1764/1766 or 1753/1762/1764/1766 mutations expressed very low levels of HBeAg, whereas high-replication clones with 1753/1762/1764 triple mutations expressed high levels of HBeAg. Experiments with site-directed mutants revealed that both 1762/1764/1766 and 1753/1762/1764/1766 mutations conferred significantly higher viral replication and lower HBeAg expression than 1762/1764 mutations alone, whereas the 1753/1762/1764 triple mutant displayed only mild reduction in HBeAg expression similar to the 1762/1764 mutant. Thus, core promoter mutations other than those at positions 1762 and 1764 can have major impact on viral DNA replication and HBeAg expression.     

Excision and integration of a self-transmissible replicon of Streptomyces ambofaciens

When Streptomyces ambofaciens OSF was crossed with the plasmid-free Streptomyces lividans TK24, almost all S. lividans exconjugants contained the free 11.1-kb plasmid pOS1. Southern hybridizations showed that pOS1 was derived from the integrated copy of previously recognized plasmid pSAM2 present in strain OSF. A shorter derivative of pOS1 was constructed carrying the tsr gene in a non-essential region, and this pOS7 plasmid was used in transformation experiments with protoplasts of S. ambofaciens ATCC23877 (containing pSAM2 only as an integrated sequence) and S. ambofaciens DSM40697 (devoid of pSAM2-related forms). In both cases, some clones carrying pOS7 in an integrated state were found. Integration into strain ATCC23877 was into the pre-existing integrated copy of pSAM2. In contrast, plasmid pOS7 integrated through specific plasmidic and chromosomal sites into strain DSM40697. Thus it is probable that pSAM2 integrates by interaction between preferred regions of the plasmid and host genomes.