Abstract
The zinc-binding domain (ZBD) of prokaryotic DNA primases has been postulated to be crucial for recognition of specific sequences in the single-stranded DNA template. To determine the molecular basis for this role in recognition, we carried out homolog-scanning mutagenesis of the zinc-binding domain of DNA primase of bacteriophage T7 using a bacterial homolog from Geobacillus stearothermophilus. The ability of T7 DNA primase to catalyze template-directed oligoribonucleotide synthesis is eliminated by substitution of any five-amino acid residue-long segment within the ZBD. The most significant defect occurs upon substitution of a region (Pro-16 to Cys-20) spanning two cysteines that coordinate the zinc ion. The role of this region in primase function was further investigated by generating a protein library composed of multiple amino acid substitutions for Pro-16, Asp-18, and Asn-19 followed by genetic screening for functional proteins. Examination of proteins selected from the screening reveals no change in sequence-specific recognition. However, the more positively charged residues in the region facilitate DNA binding, leading to more efficient oligoribonucleotide synthesis on short templates. The results suggest that the zinc-binding mode alone is not responsible for sequence recognition, but rather its interaction with the RNA polymerase domain is critical for DNA binding and for sequence recognition. Consequently, any alteration in the ZBD that disturbs its conformation leads to loss of DNA-dependent oligoribonucleotide synthesis.
Highlights
The zinc-binding domain of DNA primase has been implicated in template recognition
The T7 phage lacking gene 4 (T7⌬4) was plated on E. coli DH5␣ containing a plasmid expressing each of the recombinant genes 4 described in Fig. 1 (H1, H2, H3, H4 and H5)
Different from the primases in archaea and eukaryotes, primases encoded by bacteria and bacteriophages catalyze the templatedirected synthesis of oligoribonucleotides from specific sequences in the DNA
Summary
The zinc-binding domain of DNA primase has been implicated in template recognition. Results: Residues around cysteines within the zinc-binding domain coordinate template binding but not sequence recognition. The zinc-binding domain (ZBD) of prokaryotic DNA primases has been postulated to be crucial for recognition of specific sequences in the single-stranded DNA template. The primase domain, located in the N-terminal half of the gene 4 protein, recognizes the sequence 5Ј-GTC-3Ј in ssDNA At this trinucleotide recognition site, the T7 DNA primase catalyzes the synthesis of the diribonucleotide pppAC and further extends it to functional tetraribonucleotides, and pppACCC, pppACCA, and pppACAC provided cognate sequences are available in the template [4, 5]. In an attempt to identify a region critical to the function of the ZBD, we have constructed altered T7 primases containing homologous portion of the G. stearothermophilus primase and examined their ability to catalyze template-directed synthesis of oligoribonucleotides and to deliver them to DNA polymerase. Its interaction with the RNA polymerase domain is critical for DNA binding and for sequence recognition
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