identification and characterisation of alleles of sucrose phosphate synthase gene family III in sugarcane

• Published in: Molecular breeding Vol. 18; no. 1; pp. 39 - 50
• Main Authors: McIntyre, C.L, Jackson, M, Cordeiro, G.M, Amouyal, O, Hermann, S, Aitken, K.S, Eliott, F, Henry, R.J, Casu, R.E, Bonnett, G.D
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Nature B.V 01.08.2006
• Subjects: Alleles; chromosome mapping; Clusters; Cultivars; Deoxyribonucleic acid; DNA; Gene mapping; Genes; Genetic crosses; Genetic diversity; Genetics; Haplotypes; Homology; linkage groups; Mapping; Molecular biology; multigene family; Nucleotides; Parents; Plant biology; Polyploidy; Primers; Progeny; Quantitative trait loci; Saccharum; Saccharum officinarum; Single-nucleotide polymorphism; Sorghum; Sps gene; Sucrose; Sucrose phosphate synthase; Sugar; sugar content; Sugarcane
• ISSN: 1380-3743; 1572-9788
• DOI: 10.1007/s11032-006-9012-7

Little is known about the extent of allelic diversity of genes in the complex polyploid, sugarcane. Using sucrose phosphate synthase (SPS) Gene (SPS) Family III as an example, we have amplified and sequenced a 400 nt region from this gene from two sugarcane lines that are parents of a mapping population. Ten single nucleotide polymorphisms (SNPs) were identified within the 400 nt region of which seven were present in both lines. In the elite commercial cultivar Q165A, 10 sequence haplotypes were identified, with four haplotypes recovered at 9% or greater frequency. Based on SNP presence, two clusters of haplotypes were observed. In IJ76-514, a Saccharum officinarum accession, 8 haplotypes were identified with 4 haplotypes recovered at 13% or greater frequency. Again, two clusters of haplotypes were observed. The results suggest that there may be two SPS Gene Family III genes per genome in sugarcane, each with different numbers of different alleles. This suggestion is supported by sequencing results in an elite parental sorghum line, 403463-2-1, in which 4 haplotypes, corresponding to two broad types, were also identified. Primers were designed to the sugarcane SNPs and screened over bulked DNA from high and low Sucrose-containing progeny from a cross between Q165A and IJ76-514. The SNP frequency did not vary in the two bulked DNA samples, suggesting that these SNPs from this SPS gene family are not associated with variation in sucrose content. Using an ecotilling approach, two of the SPS Gene Family III haplotypes were mapped to two different linkage groups in homology group 1 in Q165A. Both haplotypes mapped near QTLs for increased sucrose content but were not themselves associated with any sugar-related trait.