Abstract
CRS2-associated factors 1 and 2 (CAF1 and CAF2) are closely related proteins that function in concert with chloroplast RNA splicing 2 (CRS2) to promote the splicing of specific sets of group II introns in maize chloroplasts. The CRS2-CAF complexes bind tightly to their cognate group II introns in vivo, with the CAF subunit determining the intron specificity of the complex. In this work we show that the CRS2-CAF complexes are stable in the absence of their intron targets and that CRS2 binds a 22 amino acid motif in the COOH-terminal region of CAF2 that is conserved in CAF1. Yeast two-hybrid assays and co-fractionation studies using recombinant proteins show that this motif is both necessary and sufficient to bind CRS2. The 22-amino acid motif is predicted to form an amphipathic helix whose hydrophobic surface is conserved between CAF1 and CAF2. We propose that this surface binds the hydrophobic patch on the surface of CRS2 previously shown to be necessary for the interaction between CRS2 and CAF2.
Highlights
Group II introns are found in bacteria, mitochondria, and chloroplasts, and, sporadically, in archaea (6 –9)
Chloroplast splicing defects in caf1 and caf2 mutants showed that Chloroplast RNA splicing 2 (CRS2)-dependent introns require the CAFs for splicing and that these introns can be subdivided according to their requirement for either CAF1 or CAF2 [12]: the CRS2-CAF1 complex is required for the splicing of four introns, the CRS2-CAF2 complex is required for the splicing of three introns, and two introns require both CAF1 and CAF2
We found that CRS2 binds to a 22 amino acid motif in the COOH-terminal region of CAF2 that is similar to a motif in the COOHterminal region of CAF1
Summary
Group II introns are found in bacteria, mitochondria, and chloroplasts, and, sporadically, in archaea (6 –9). Taken together these data suggest that the CRM domains in the CAF subunit of each CRS2-CAF complex bind intron RNA and recruit CRS2 to specific introns. Sequences encoding the NH2-terminal region of mature CAF2, residues Gln59 through Arg226, were PCR amplified with primers CAF2P and CAF2NB and cloned into the BamHI and XhoI sites of pET28a.
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