posted on 2023-05-03, 11:48authored byNick Albert, Andrew GriffithsAndrew Griffiths, Greig Cousins, Isabelle Verry, Warren Williams
Anthocyanin pigments accumulate to form spatially restricted patterns in plants, particularly in flowers, but also occur in vegetative tissues. Spatially restricted anthocyanin leaf markings are poorly characterised in plants, but are common in forage legumes. We hypothesised that the molecular basis for anthocyanin leaf markings in Trifolium spp. is due to the activity of a family of R2R3-MYB genes. R2R3-MYB genes were identified that are associated with the two classic pigmentation loci in T. repens. The R locus patterns ‘red leaf’, ‘red midrib’ and ‘red fleck’ are conditioned by a single MYB gene, RED LEAF. The ‘diffuse red leaf’ trait is regulated by the RED LEAF DIFFUSE MYB gene. The V locus was identified through mapping two V-linked traits, ‘V-broken yellow’ (Vby) and ‘red leaflet’ (Vrl ). Two highly similar R2R3-MYB genes, RED V-a and RED Vb,mapped to the V locus and co-segregated with the RED V pigmentation pattern. Functional characterisation of RED LEAF and RED V was performed, confirming their function as anthocyanin regulators and identifying a C-terminal region necessary for transactivation. The mechanisms responsible for generating anthocyanin leaf markings in T. repens provide a valuable system to compare with mechanisms that regulate complex floral pigmentation.
Albert, N.W., Griffiths, A.G., Cousins, G.R., Verry, I.M., & Williams, W.M. (2015). Anthocyanin leaf markings are regulated by a family of R2R3-MYB genes in the genus Trifolium. New Phytologist, 205(2), 882-93.