SEA-PHAGES | Replisome organizer/

Link to this post \| posted 11 Aug, 2017 01:54
delesall	In reviewing the annotation of phage LilHazelnut, I noticed two genes, ORF 68, start 45763, and ORF 69, start 46743, with decent HHPred matches (98% prob, 40% coverage, reasonably low E-values) to respectively G38P, the N-terminal phage replisome organiser (The protein contains a region of low-complexity sequence that reflects DNA direct repeats able to function as an origin of phage replication) and G39P, Loader and inhibitor of phage G40P. G39P inhibits the initiation of DNA replication by blocking G40P replicative helicase. Although the protein of ORF 70 does not have matches to a replicative helicase, should we call some function for ORF 68 and 69, and if so, what? From Ayora et al (1999) J Mol Biol. 288(1):71-85) Abstract Initiation of Bacillus subtilis bacteriophage SPP1 replication requires the phage-encoded genes 38, 39 and 40 products (G38P, G39P and G40P). G39P, which does not bind DNA, interacts with the replisome organiser, G38P, in the absence of ATP and with the ATP-activated hexameric replication fork helicase, G40P. G38P, which specifically interacts with the phage replication origin (oriL) DNA, does not seem to form a stable complex with G40P in solution. G39P when complexed with G40P-ATP inactivates the single-stranded DNA binding, ATPase and unwinding activities of G40P, and such effects are reversed by increasing amounts of G38P. Unwinding of a forked substrate by G40P-ATP is increased about tenfold by the addition of G38P and G39P to the reaction mixture. The specific protein-protein interactions between oriL-bound G38P and the G39P-G40P-ATPgammaS complex are necessary for helicase delivery to the SPP1 replication origin. Formation of G38P-G39P heterodimers releases G40P-ATPgammaS from the unstable oriL-G38P-G39P-G40P-ATPgammaS intermediate. G40P-ATPgammaS binds to the origin region, the uncomplexed G38P fraction remains bound to oriL, and the G38P-G39P heterodimer is lost from the complex. We demonstrate that G39P is a component of an oligomeric nucleoprotein complex which plays an important role in the initiation of SPP1 replication.

Link to this post | posted 11 Aug, 2017 01:54

In reviewing the annotation of phage LilHazelnut, I noticed two genes, ORF 68, start 45763, and ORF 69, start 46743, with decent HHPred matches (98% prob, 40% coverage, reasonably low E-values) to respectively G38P, the N-terminal phage replisome organiser (The protein contains a region of low-complexity sequence that reflects DNA direct repeats able to function as an origin of phage replication) and G39P, Loader and inhibitor of phage G40P. G39P inhibits the initiation of DNA replication by blocking G40P replicative helicase.
Although the protein of ORF 70 does not have matches to a replicative helicase, should we call some function for ORF 68 and 69, and if so, what?

From Ayora et al (1999) J Mol Biol. 288(1):71-85)
Abstract
Initiation of Bacillus subtilis bacteriophage SPP1 replication requires the phage-encoded genes 38, 39 and 40 products (G38P, G39P and G40P). G39P, which does not bind DNA, interacts with the replisome organiser, G38P, in the absence of ATP and with the ATP-activated hexameric replication fork helicase, G40P. G38P, which specifically interacts with the phage replication origin (oriL) DNA, does not seem to form a stable complex with G40P in solution. G39P when complexed with G40P-ATP inactivates the single-stranded DNA binding, ATPase and unwinding activities of G40P, and such effects are reversed by increasing amounts of G38P. Unwinding of a forked substrate by G40P-ATP is increased about tenfold by the addition of G38P and G39P to the reaction mixture. The specific protein-protein interactions between oriL-bound G38P and the G39P-G40P-ATPgammaS complex are necessary for helicase delivery to the SPP1 replication origin. Formation of G38P-G39P heterodimers releases G40P-ATPgammaS from the unstable oriL-G38P-G39P-G40P-ATPgammaS intermediate. G40P-ATPgammaS binds to the origin region, the uncomplexed G38P fraction remains bound to oriL, and the G38P-G39P heterodimer is lost from the complex. We demonstrate that G39P is a component of an oligomeric nucleoprotein complex which plays an important role in the initiation of SPP1 replication.

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