Study of PUMILIO genes function of Arabidopsis during plant developrnent

The PUF family is a group of conserved proteins that bind to rnRNAs regulating its stability and translation in key developrnental processes. Among the twenty five Arabidopsis proteins with PUF repeats, we found that three highly similar members, APUM-I, APUM-2 and APUM-3 (~90% identity) and co-localize spatially and temporally in the shoot apical and axillaries meristems, root elongation zone and pericycle during callus and lateral root formation, as well as stamens and pollens. RTPCR assays showed that these proteins have similar expression profiles in ali organs analyzed. Moreover, plant apum-1 and apum-2 knockouts have no detectably altered phenotype, suggesting a functional redundancy between them. Plants in which APUM-I, APUM-2 and APUM-3 expression were reduced through antisense RNA, showed chlorotic and reduced leaves, shorter and less ramificated roots and low fertility. This phenotype is similar to that of plants over-expressing the KRP-2 gene, a CDK inhibitor. An AraPum binding element at 3\'-UTR of the KRP-2 transcript suggests that it may be a possible target for APUM. In addition, in comparison to wild-type plants, antisense plants have increased KRP-2 transcripts levels. We proposed that APUM proteins act by coordinating leaf and root formation by way of influencing KRP-2 transiation. The ancestral function of PUF proteins in the maintenance of the cell cycle, to detriment of differentiation, seems to be conserved in plants. (AU)