SummaryAnthocyanin 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.
BackgroundWhite clover (Trifolium repens) is a ubiquitous weed of the temperate world that through use of improved cultivars has also become the most important legume of grazed pastures world-wide. It has long been suspected to be allotetraploid, but the diploid ancestral species have remained elusive. Putative diploid ancestors were indicated by DNA sequence phylogeny to be T. pallescens and T. occidentale. Here, we use further DNA evidence as well as a combination of molecular cytogenetics (FISH and GISH) and experimental hybridization to test the hypothesis that white clover originated as a hybrid between T. pallescens and T. occidentale.ResultsT. pallescens plants were identified with chloroplast trnL intron DNA sequences identical to those of white clover. Similarly, T. occidentale plants with nuclear ITS sequences identical to white clover were also identified. Reciprocal GISH experiments, alternately using labeled genomic DNA probes from each of the putative ancestral species on the same white clover cells, showed that half of the chromosomes hybridized with each probe. F1 hybrids were generated by embryo rescue and these showed strong interspecific chromosome pairing and produced a significant frequency of unreduced gametes, indicating the likely mode of polyploidization. The F1 hybrids are inter-fertile with white clover and function as synthetic white clovers, a valuable new resource for the re-incorporation of ancestral genomes into modern white clover for future plant breeding.ConclusionsEvidence from DNA sequence analyses, molecular cytogenetics, interspecific hybridization and breeding experiments supports the hypothesis that a diploid alpine species (T. pallescens) hybridized with a diploid coastal species (T. occidentale) to generate tetraploid T. repens. The coming together of these two narrowly adapted species (one alpine and the other maritime), along with allotetraploidy, has led to a transgressive hybrid with a broad adaptive range.
Industries based on pastoral farming have increased their contribution to GDP from 13.5 to 17% since 1990 as the result of markedly intensified farming practices. In the future, we predict that this intensification will continue but, at the same time, there will be an emergence of an efficient, lower-input farming sector with almost no environmental footprint. Both sectors will require continuing input by pasture plant breeders. Over the past 20 years, development of pasture cultivars has become totally industry funded, with support from Crown funding for basic research. There have been several key advances in pasture plant breeding including new methods for using exotic germplasm and secondary gene-pools, modification of grass-endophyte associations, breeding for specific environments and the successful adoption of international breeding programmes. The emergence of genomics, marker-assisted selection (MAS) and genetic modification (GM) offer considerable promise for future development of pasture cultivars. Future grass breeding, aided by MAS and GM of both plants and endophytes, will place strong emphasis on feeding value for optimal animal performances, especially in intensive systems. There will also be development of grass types adapted to efficient, lower-input farming systems that will have minimal environmental A07026;
We report the molecular structure, genomic organization, chromosomal distribution and evolutionary dynamics of TrR350, a satellite DNA isolated from the forage legume white clover (Trifolium repens L.; 2n = 4 x = 32). The basic repeating unit is an A+T rich 350 bp Hin dIII fragment with a complex dimeric structure consisting of an internal direct repeat of 156 bp packed between unrelated flanking sequences. Each 156 bp repeat has a conserved 24 bp motif repeating at two places. Most of the 24 bp short repeating units enclose a pentanucleotide CAAAA motif, presumed to be involved in breakage-reunion mechanism of tandemly repeating arrays. The dimers share high sequence homology among themselves while monomers within dimers show significant sequence divergence. Genomic Southern hybridization and/or fluorescence in situ hybridization (FISH) on 17 Trifolium species/subspecies revealed that it is a lineage-specific repeat confined to several species within the section Lotoidea originating in the Mediterranean region. The uniform length of the basic repeating unit and the centromeric localization in most of the species harbouring it reflects its extensive conservation in the lineage. However, the Hin dIII restriction profile in seven species also indicated independent evolution of this repeat.
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