[No authors listed]
The mismatch repair (MMR) pathway promotes genome stability by controlling the fidelity of replication and recombination. The first step of the pathway involves recognition of the mismatch by heterodimers composed of MutS homologs (MSH). Although MSH6 has been well characterized in yeasts and humans, the role of the plant protein has not been extensively studied. We first analyzed gene expression in Arabidopsis thaliana. The use of transgenic plants expressing the β-glucuronidase (GUS) reporter gene under the control of approximately 1-kb region upstream of the start codon of the AtMSH6 gene demonstrated that MSH6 is preferentially expressed in undifferentiated cells with an intense cell division rate. We then examined protein function in meiotic and somatic recombination. Suppression of AtMSH6 did not affect the rate of meiotic recombination, but increased the frequency of recombination between two homeologous repeats of a marker gene by 3-fold relative to wild-type plants. Expression of the AtMSH6 gene under the control of its own promoter in msh6 homozygous mutant plants rescued the altered somatic recombination phenotype. We conclude that MSH6 shows a functional conservation across different biological kingdoms and a functional specificity in plants.
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