Summary: | <p>Abstract</p> <p>Background</p> <p>Much of the organismal variation we observe in nature is due to differences in organ size. The observation that even closely related species can show large, stably inherited differences in organ size indicates a strong genetic component to the control of organ size. Despite recent progress in identifying factors controlling organ growth in plants, our overall understanding of this process remains limited, partly because the individual factors have not yet been connected into larger regulatory pathways or networks. To begin addressing this aim, we have studied the upstream regulation of expression of <it>BIG BROTHER </it>(<it>BB</it>), a central growth-control gene in <it>Arabidopsis thaliana </it>that prevents overgrowth of organs. Final organ size and <it>BB </it>expression levels are tightly correlated, implying the need for precise control of its expression. <it>BB </it>expression mirrors proliferative activity, yet the gene functions to limit proliferation, suggesting that it acts in an incoherent feedforward loop downstream of growth activators to prevent over-proliferation.</p> <p>Results</p> <p>To investigate the upstream regulation of <it>BB </it>we combined a promoter deletion analysis with a phylogenetic footprinting approach. We were able to narrow down important, highly conserved, <it>cis</it>-regulatory elements within the <it>BB </it>promoter. Promoter sequences of other Brassicaceae species were able to partially complement the <it>A. thaliana bb-1 </it>mutant, suggesting that at least within the Brassicaceae family the regulatory pathways are conserved.</p> <p>Conclusions</p> <p>This work underlines the complexity involved in precise quantitative control of gene expression and lays the foundation for identifying important upstream regulators that determine <it>BB </it>expression levels and thus final organ size.</p>
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