Diversity of sequences and expression patterns among alleles of a sugarcane loading stem gene.

Modern sugarcane cultivars are highly polyploid and aneuploid hybrids, which are propagated as clones. Their complex genome structure comprises 100-130 chromosomes and 10-13 hom(e)ologous copies of most loci. There is preliminary evidence of very high heterozygosity, with implications for genetic improvement approaches ranging from marker-assisted selection to transgenics. Here, we report that sugarcane cultivar Q200 has at least nine alleles at the Loading Stem Gene (ScLSG) locus. Exon-intron structure is identical and the predicted protein products show at least 92 % identity, across sugarcane alleles and the Sorghum homologue Sb07g027880. There is substantial variation in the 5' UTR and promoter regions including numerous allele-specific nucleotide polymorphisms, insertions and deletions. We developed an allele-specific qRT-PCR method to undertake the first compelling test of allele-specific expression in polyploid sugarcane. Seven alleles distinguished by this method all showed peak expression in the sucrose-loading zone of the stem, but there was apparent variability in expression patterns across other tissues. The ScLSG2 and ScLSG5 alleles appear promising for specificity of expression in stems, relative to leaf, meristem, emerging shoot and root tissues. Within the stem, there was activity in parenchyma, vascular and rind tissues. This expression pattern is of interest in basic research and biotechnology aimed at enhanced sucrose content, engineering value-added products, and manipulation of stem biomass composition.