Defining the Functionally Important Domain and Amino Acid Residues in Mycobacterium tuberculosis Integration Host Factor for Genome Stability, DNA Binding, and Integrative Recombination

Abstract

ABSTRACT The integration host factor of Mycobacterium tuberculosis (mIHF) consists of a single polypeptide chain, the product of the ihf gene. We previously revealed that mIHF is a novel member of a new class of nucleoid-associated proteins that have important roles in DNA damage response, nucleoid compaction, and integrative recombination. The mIHF contains a region of 86 amino acids at its N terminus, absent from both α- and β-subunits of Escherichia coli IHF. However, the functional significance of an extra 86-amino-acid region in the full-length protein remains unknown. Here, we report the structure/function relationship of the DNA-binding and integrative recombination-stimulating activity of mIHF. Deletion mutagenesis showed that an extra 86-amino-acid region at the N terminus is dispensable; the C-terminal region possesses the sequences essential for its known biological functions, including the ability to suppress the sensitivity of E. coli Δ ihfA and Δ ihfB cells to DNA-damaging agents, DNA binding, DNA multimerization-circularization, and stimulation of phage L5 integrase-catalyzed integrative recombination. Single and double alanine substitutions at positions Arg170 and Arg171, located at the mIHF DNA-binding site, abrogated its capacity to suppress the sensitivity of E. coli ΔihfA and Δ ihfB cells to DNA-damaging agents. The variants encoded by these mutant alleles failed to bind DNA and stimulate integrative recombination. Interestingly, the DNA-binding activity of the mIHF-R173A variant remained largely unaffected; however, it was unable to stimulate integrative recombination, thus revealing a separation-of-function allele of mIHF. The functional and structural characterization of this separation-of-function allele of mIHF could reveal previously unknown functions of IHF. IMPORTANCE The integration host factor of Mycobacterium tuberculosis is a novel nucleoid-associated protein. mIHF plays a vital role in DNA damage response, nucleoid compaction, and integrative recombination. Intriguingly, mIHF contains an extra 86-amino-acid region at its N terminus, absent from both α- and β-subunits of Escherichia coli IHF, whose functional significance is unknown. Furthermore, a triad of arginine residues located at the mIHF-DNA interface have been implicated in a range of its functions. Here, we reveal the roles of N- and C-terminal regions of mIHF and the individual residues in the Arg triad for their ability to provide protection in vivo against DNA damage, bind DNA, and stimulate integrase-catalyzed site-specific recombination.