The evolutionarily conserved MOS4-associated complex
AbstractRecent work in plant immunity has shown that MOS4, a known intermediate in R protein mediated resistance, is a core member of the nuclear MOS4-associated complex (MAC). This complex is highly conserved in eukaryotes, as orthologous complexes known as the CDC5L-SNEVPrp19-Pso4 complex and the Nineteen complex (NTC) were previously identified in human and yeast, respectively. The involvement of these complexes in pre-mRNA splicing and spliceosome assembly suggests that the MAC probably has a similar function in plants. Double mutants of any two MAC components are lethal, whereas single mutants of the MAC core components mos4, Atcdc5, mac3, and prl1 are all viable and display pleiotropic defects. This suggests that while the MAC is required for some essential biological function such as splicing, individual MAC components are not crucial for complex functionality and likely have regulatory roles in other biological processes such as plant immunity and flowering time control. Future studies on MAC components in Arabidopsis will provide further insight into the regulatory mechanisms of the MAC on specific biological processes.