Abstract
Typical telomeres of linear chromosomes and plasmids of soil bacteria Streptomyces consist of tightly packed palindromic sequences with a terminal protein (‘TP’) covalently attached to the 5′ end of the DNA. Replication of these linear replicons is initiated internally and proceeds bidirectionally toward the telomeres, which leaves single-strand overhangs at the 3′ ends. These overhangs are filled by DNA synthesis using the TPs as the primers (‘end patching’). The gene encoding for typical TP, tpg, forms an operon with tap, encoding an essential telomere-associated protein, which binds TP and the secondary structures formed by the 3′ overhangs. Previously one of the two translesion synthesis DNA polymerases, DinB1 or DinB2, was proposed to catalyze the protein-primed synthesis. However, using an in vitro end-patching system, we discovered that Tpg and Tap alone could carry out the protein-primed synthesis to a length of 13 nt. Similarly, an ‘atypical’ terminal protein, Tpc, and its cognate telomere-associated protein, Tac, of SCP1 plasmid, were sufficient to achieve protein-primed synthesis in the absence of additional polymerase. These results indicate that these two telomere-associated proteins possess polymerase activities alone or in complex with the cognate TPs.
Highlights
Soil bacteria Streptomyces possess linear chromosomes and linear plasmids
Deoxynucleotidylation of terminal protein (TP) is achieved in vitro in the absence of added DNA polymerase In our previous in vitro deoxynucleotidylation system, the Streptomyces cell extract was used as the source of polymerase activity
Since the two translesion DNA polymerases, DinB1 and DinB2 have been shown to be important for end patching of the Streptomyces telomeres [11], we set out to establish an in vitro system using purified DinB1 in place of the cell extract
Summary
Soil bacteria Streptomyces possess linear chromosomes and linear plasmids. Replication of these linear replicons starts from an internal origin, and proceeds bidirectionally toward the telomeres, leaving single-stranded overhangs at the 3 ends that need to be patched reviewed in [1]. The purified DinB1 was added to an in vitro deoxynucleotidylation reaction mixture containing Tpg (the substrate), Tap, a 200-nt single-strand TO (designated TO200), and [␣-32P]-dCTP. These fragments were not labeled in the reaction mixture in the absence of added Pol I; neither did they compete with deoxynucleotidylation of Tpg (lane 2).
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