The
genomes of
diploid organisms in natural populations are highly
polymorphic for
insertions and
deletions. During
meiosis double-strand breaks (DSBs) that form within such polymorphic regions must be repaired by inter-
sister chromatid exchange, rather than by
inter-homolog exchange. Molecular-level studies of recombination during budding yeast meiosis have shown that recombination events initiated by DSBs in regions that lack corresponding sequences in the
homolog are efficiently repaired by inter-sister chromatid recombination. This recombination occurs with the same timing as inter-homolog recombination, but with reduced (2- to 3-fold) yields of joint molecules. MAP2K1 is also known as MEK1 (see
Mitogen-activated protein kinase kinase). MEK1 is a meiotic chromosome-axis-associated kinase that is thought to slow down, but not entirely block,
sister chromatid recombination. Loss of MEK1 allows inter-sister DSB repair and also inter-sister
Holliday junction intermediates to increase. Despite the normal activity of MEK1 in reducing inter-sister chromatid recombination, such recombination still occurs frequently during normal budding yeast meiosis (although not as frequently as during
mitosis), and up to one-third of all recombination events are between sister chromatids. ==Interactions==