Abstract
The RecA intein of Mycobacterium tuberculosis, a novel double-stranded DNA endonuclease, requires both Mn(2+) and ATP for efficient cleavage of the inteinless recA allele. In this study, we show that Mg(2+) alone was sufficient to stimulate PI-MtuI to cleave double-stranded DNA at ectopic sites. In the absence of Mg(2+), PI-MtuI formed complexes with topologically different forms of DNA containing ectopic recognition sequences with equal affinity but failed to cleave DNA. We observed that PI-MtuI was able to inflict double-strand breaks robustly within the ectopic recognition sequence to generate either a blunt end or 1-2-nucleotide 3'-hydroxyl overhangs. Mutational analyses of the presumptive metal ion-binding ligands (Asp(122), Asp(222), and Glu(220)) together with immunoprecipitation assays provided compelling evidence to link both the Mg(2+)- and Mn(2+) and ATP-dependent endonuclease activities to PI-MtuI. The kinetic mechanism of PI-MtuI promoted cleavage of ectopic DNA sites proceeded through a sequential mechanism with transient accumulation of nicked circular duplex DNA as an intermediate. Together, these data suggest that PI-MtuI, like group II introns, might mediate ectopic DNA transposition and hence its lateral transfer in natural populations.
Highlights
Mobile inteins and introns are genetic elements capable of self-propagation by “homing” into host genes in a wide variety of organisms: eubacteria, eukarya, archaea, and viruses
The process is promoted by a homing endonuclease, which is encoded by an open reading frame embedded within the genetic element
Mycobacterium tuberculosis RecA intein (PI-MtuI)1 is a member of the LAGLIDADG superfamily of homing endonucleases [15,16,17,18]
Summary
Mobile inteins and introns are genetic elements capable of self-propagation by “homing” into host genes in a wide variety of organisms: eubacteria, eukarya, archaea, and viruses (reviewed in Ref. 1). Inteins are genetic elements present within protein-coding sequences with dual function: protein-splicing and homing endonuclease activities. They are believed to play a central role in rearrangement of organelle as well as nuclear genomes [1,2,3,4,5,6]. PI-MtuI is the first example of an intein endonuclease demonstrated to have the ability to recognize and cleave cognate as well as ectopic DNA sites in the presence of alternative cofactors. These data implicate a possible role for PI-MtuI in its lateral transfer in natural populations
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