Characterization, overproduction and purification of the product of gene 1 of Bacillus subtilis phage phi 29

Unit-length phi 29 DNA was not synthesized after restrictive infection of Bacillus subtilis with the phi 29 mutant sus1(629) indicating that the phage phi 29 protein p1 is needed for the viral DNA replication. Sequencing of the ORF-6 of mutant sus1(629) showed that a C in the wild-type (wt) phage had been changed to a T at nt position 19 of the ORF-6, giving rise to a TAA ochre codon, indicating that this ORF corresponds to gene 1. ORF-6 was cloned in plasmid pPLc28 under the control of the pL promoter of phage lambda and, after induction, a protein of about 10 kDa was overproduced, which was absent in the corresponding cells harbouring a recombinant plasmid with the sus1(629) mutation, indicating that the 10-kDa protein is the product of gene 1. In addition, a protein of lower Mr was synthesized after induction of the cells harbouring recombinant plasmids with the wt or the sus1(629) DNA. Both proteins were purified and characterized by N-terminal sequence determination and amino acid analysis. The low-Mr protein, named delta 1, has a size of 6 kDa and corresponds to an internal in-phase initiation event in ORF-6.     

Mechanism of stimulation of DNA replication by bacteriophage phi 29 single-stranded DNA-binding protein p5

Protein p5 is a Bacillus subtilis phage phi 29-encoded protein required for phi 29 DNA replication in vivo. Protein p5 has single-stranded DNA binding (SSB) capacity and stimulates in vitro DNA replication severalfold when phi 29 DNA polymerase is used to replicate either the natural phi 29 DNA template or primed M13 single-stranded DNA (ssDNA). Furthermore, other SSB proteins, including Escherichia coli SSB, T4 gp32, adenovirus DNA-binding protein, and human replication factor A, can functionally substitute for protein p5. The stimulatory effect of phi 29 protein p5 is not due to an increase of the DNA replication rate. When both phi 29 DNA template and M13 competitor ssDNA are added simultaneously to the replication reaction, phi 29 DNA replication is strongly inhibited. This inhibition is fully overcome by adding protein p5, suggesting that protein p5-coated M13 ssDNA is no longer able to compete for replication factors, probably phi 29 DNA polymerase, which has a strong affinity for ssDNA. Electron microscopy demonstrates that protein p5 binds to M13 ssDNA forming saturated complexes with a smoothly contoured appearance and producing a 2-fold reduction of the DNA length. Protein p5 also binds to ssDNA in the phi 29 replicative intermediates produced in vitro, which are similar in structure to those observed in vivo. Our results strongly suggest that phi 29 protein p5 is the phi 29 SSB protein active during phi 29 DNA replication.     

Characterization of the bacteriophage phi29-encoded protein p16.7: a membrane protein involved in phage DNA replication

An early expressed operon, located at the right end of the linear bacteriophage phi29 genome, contains open reading frame (ORF)16.7, whose deduced protein sequence of 130 amino acids is conserved in phi29-related phages. Here, we show that this ORF actually encodes a protein, p16.7, which is abundantly and early expressed after infection. p16.7 is a membrane protein, and the N-terminally located transmembrane-spanning domain is required for its membrane localization. The variant p16.7A, in which the N-terminal membrane anchor was replaced by a histidine-tag, was purified and characterized. Purified p16.7A was shown to form dimers in solution. To study the in vivo role of p16.7, a phi29 mutant containing a suppressible mutation in gene 16.7 was constructed. In vivo phage DNA replication was affected in the absence of p16.7, especially at early infection times. Based on the results, the putative role of p16.7 in in vivo phi29 DNA replication is discussed.     

Regions at the carboxyl end of bacteriophage phi 29 protein p6 required for DNA binding and activity in phi 29 DNA replication.

Series of deletions corresponding to the carboxyl end of the phage phi 29 protein p6 have been constructed and their activity in the initiation of phi 29 DNA replication and their capacity to interact with the phi 29 DNA ends have been studied. Determination of the activity of the deletion mutants in phi 29 DNA replication indicated the dispensability of the 14 carboxy-terminal amino acids of the protein. The activity of protein p6 decreased with deletions from 23 to 39 amino acids and was undetectable when 44 amino acids were removed. A similar behaviour was obtained when the interaction of the mutant proteins with the phi 29 DNA ends was analyzed. These results indicate that the stimulation of phi 29 DNA replication by protein p6 requires a specific binding to the phi 29 DNA ends.     

Characterization of the phage phi 29 protein p5 as a single-stranded DNA binding protein. Function in phi 29 DNA-protein p3 replication.

The phage phi 29 protein p5, required in vivo in the elongation step of phi 29 DNA replication, was highly purified from Escherichia coli cells harbouring a gene 5-containing plasmid and from phi 29-infected Bacillus subtilis. The protein was characterized as the gene 5 product by amino acid analysis and NH2-terminal sequence determination. The purified protein p5 was shown to bind to single-stranded DNA and to protect it against nuclease degradation. No effect of protein p5 was observed either on the formation of the p3-dAMP initiation complex or on the rate of elongation. However, protein p5 greatly stimulated phi 29 DNA-protein p3 replication at incubation times where the replication in the absence of p5 leveled off.     

The Bacillus subtilis phage phi 29 protein p16.7, involved in phi 29 DNA replication, is a membrane-localized single-stranded DNA-binding protein.

The functional role of the phi 29-encoded integral membrane protein p16.7 in phage DNA replication was studied using a soluble variant, p16.7A, lacking the N-terminal membrane-spanning domain. Because of the protein-primed mechanism of DNA replication, the bacteriophage phi 29 replication intermediates contain long stretches of single-stranded DNA (ssDNA). Protein p16.7A was found to be an ssDNA-binding protein. In addition, by direct and functional analysis we show that protein p16.7A binds to the stretches of ssDNA of the phi 29 DNA replication intermediates. Properties of protein p16.7A were compared with those of the phi 29-encoded single-stranded DNA-binding protein p5. The results obtained show that both proteins have different, non-overlapping functions. The likely role of p16.7 in attaching phi 29 DNA replication intermediates to the membrane of the infected cell is discussed. Homologues of gene 16.7 are present in phi 29-related phages, suggesting that the proposed role of p16.7 is conserved in this family of phages.     

Deletions at the N terminus of bacteriophage phi 29 protein p6: DNA binding and activity in phi 29 DNA replication

Deletions corresponding to the first 5 or 13 amino acids (aa), not counting the initial Met, have been introduced into the N terminus of the phage phi 29 protein p6. The activity of such proteins in the in vitro phi 29 DNA replication system, their capacity to interact with the phi 29 DNA ends, and their interference with the wild type (wt) protein p6 activity have been studied. The initiation activity of protein p6 decreased considerably when 5 as were deleted and was undetectable when 13 aa were removed. The mutant proteins were unable to specifically interact with the phi 29 DNA ends. These results indicate the need of an intact N terminus for the activity of protein p6. However, such N-truncated proteins inhibited both the specific binding of the wt protein p6 to the phi 29 DNA ends and its activity in phi 29 DNA replication.     

Replication of phage phi 29 DNA in vitro: role of the viral protein p6 in initiation and elongation.

The phi 29 protein p6 stimulates the formation of the protein p3-dAMP initiation complex when added to a minimal system containing the terminal protein p3, the phi 29 DNA polymerase p2 and phi 29 DNA-protein p3 complex, by decreasing about 5 fold the Km value for dATP. In addition, protein p6 stimulates elongation of the p3-dAMP initiation complex. Whereas the effect of protein p6 on initiation is similar with protein p3-containing fragments from the right or left phi 29 DNA ends, the stimulation of elongation is higher with the right than with the left phi 29 DNA terminal fragment, suggesting DNA sequence specificity. The stimulation by protein p6 of the initiation and elongation steps of phi 29 DNA replication does not require the presence of the parental protein p3 at the phi 29 DNA ends. No effect of protein p6 was obtained on the elongation of the template-primer poly(dT)-(dA) 12-18 by the phi 29 DNA polymerase.     

Overproduction and purification of the connector protein of Bacillus subtilis phage phi 29.

A phi 29 DNA fragment containing genes 10 and 11, coding for the connector protein and the lower collar protein, respectively, has been cloned in the pBR322 derivative plasmid pKC30 under the control of the PL promoter of phage lambda. Two polypeptides with the electrophoretic mobility of proteins p10 and p11 were labelled with 35S-methionine after heat induction. The proteins were characterized as p10 and p11 by radioimmunoassay and they represented about 10% and 7%, respectively, of the total E. coli protein after 4 hours of induction. These proteins represent less than 1% of the B. subtilis protein in phi 29-infected cells. Protein p10 has been highly purified from the E. coli cells carrying the recombinant plasmid. Antibodies raised against the purified protein p10 reacted with the connector protein produced in phi 29-infected B. subtilis.