Distribution of short interstitial telomere motifs in two plant genomes: putative origin and function.

BACKGROUND: Short interstitial telomere motifs (telo boxes) are short sequences identical to plant telomere repeat units. They are observed within the 5' region of several genes over-expressed in cycling cells. In synergy with various cis-acting elements, these motifs participate in the activation of expression. Here, we have analysed the distribution of telo boxes within Arabidopsis thaliana and Oryza sativa genomes and their association with genes involved in the biogenesis of the translational apparatus. RESULTS: Our analysis showed that the distribution of the telo box (AAACCCTA) in different genomic regions of A. thaliana and O. sativa is not random. As is also the case for plant microsatellites, they are preferentially located in the 5' flanking regions of genes, mainly within the 5' UTR, and distributed as a gradient along the direction of transcription. As previously reported in Arabidopsis, a conserved topological association of telo boxes with site II or TEF cis-acting elements is observed in almost all promoters of genes encoding ribosomal proteins in O. sativa. Such a conserved promoter organization can be found in other genes involved in the biogenesis of the translational machinery including rRNA processing proteins and snoRNAs. Strikingly, the association of telo boxes with site II motifs or TEF boxes is conserved in promoters of genes harbouring snoRNA clusters nested within an intron as well as in the 5' flanking regions of non-intronic snoRNA genes. Thus, the search for associations between telo boxes and site II motifs or TEF box in plant genomes could provide a useful tool for characterizing new cryptic RNA pol II promoters. CONCLUSIONS: The data reported in this work support the model previously proposed for the spreading of telo boxes within plant genomes and provide new insights into a putative process for the acquisition of microsatellites in plants. The association of telo boxes with site II or TEF cis-acting elements appears to be an essential feature of plant genes involved in the biogenesis of ribosomes and clearly indicates that most plant snoRNAs are RNA pol II products.

Internal telomeric repeats and 'TCP domain' protein-binding sites co-operate to regulate gene expression in Arabidopsis thaliana cycling cells.

We have focused our interest on two cis-regulatory elements, named site II motif and telo box, identified within the promoter of plant proliferating cellular nuclear antigen (PCNA) and putatively involved in meristematic expression of the gene. A conserved topological association between site II motifs and telo boxes is observed in the promoter of numerous genes expressed in cycling cells, including several cell cycle-related genes and 153 Arabidopsis genes encoding ribosomal proteins. Meristematic expression of a GUS reporter gene was observed in plants under the control of Arabidopsis site II motif within a minimal promoter. This expression is strongly enhanced by addition of a telo box within this chimaeric promoter. We showed by gel retardation experiments that the site II motif is a target for several DNA-binding activities present in Arabidopsis crude cell extract and can bind a transcription factor, At-TCP20, from the Teosinte branched 1, Cycloidea, PCF (TCP)-domain protein family. In yeast two-hybrid experiments, At-TCP20 appears to be a potential partner of AtPuralpha, which was previously shown to bind telo boxes. An important consequence of this analysis is to reveal new and conserved regulatory processes concerning the regulation of plant ribosomal gene expression in cycling cells. The implication of these observations in plant-specific developmental pathways is discussed.