The Minimal Sequence Needed to Define a Functional DNA Terminator in Bacillus subtilis

Abstract

The 47 bp DNA replication terminator (IRI) of Bacillus subtilis, contains two binding sites, A and B, for the replication terminator protein (RTP). Each site binds a dimer of RTP. Removal of the first two base-pairs (bp 1-2) from IRI completely destroyed in vivo terminator (fork arrest) function and was accompanied by loss of RTP binding to the A site, which is distal to the approaching fork that is arrested. Remove of base-pairs 34 to 47 from the other end, proximal to the approaching fork, lowered in vivo function to approximately 50% of the complete IRI. RTP binding appeared to be largely unaffected. Terminator function remained at the approximately 50% level with further deletions that proceeded as far as to include base-pair 28; RTP binding remained largely unaffected. Removal of more of sequence beyond base-pair 27 and into the region that makes extensive contact with RTP resulted in a further impairment to in vivo function, and caused altered RTP binding. The base-pairs 1 to 24 segment retained only 16% for arrest activity and the effect on RTP binding war largely evidenced by an elimination of the ability of this extensively truncated sequence to fill the B site alone. The behavior of the various terminator deletion emphasize the importance of the previously defined RTP-DNA contacts which the binding of RTP to the two overlapping sites, A and B, of IRI for terminator function. A comparison of the affinities of selected truncated terminators for RTP raises the possibility that the overall affinity of RTP for its RTP for its DNA terminator is not the sole determinant of terminator function.