Abstract
SummaryThe complexity of polyploid Saccharum genomes hindered progress of genome research and crop improvement in sugarcane. To understand their genome structure, transcriptomes of 59 F1 individuals derived from S. officinarum LA Purple and S. robustum Molokai 5829 (2n = 80, x = 10 for both) were sequenced, yielding 11 157 and 8998 SNPs and 83 and 105 linkage groups, respectively. Most markers in each linkage group aligned to single sorghum chromosome. However, 71 interchromosomal rearrangements were detected between sorghum and S. officinarum or S. robustum, and 24 (33.8%) of them were shared between S. officinarum and S. robustum, indicating their occurrence before the speciation event that separated these two species. More than 2000 gene pairs from S. spontaneum, S. officinarum and S. robustum were analysed to estimate their divergence time. Saccharum officinarum and S. robustum diverged about 385 thousand years ago, and the whole‐genome duplication events occurred after the speciation event because of shared interchromosomal rearrangements. The ancestor of these two species diverged from S. spontaneum about 769 thousand years ago, and the reduction in basic chromosome number from 10 to 8 in S. spontaneum occurred after the speciation event but before the two rounds of whole‐genome duplication. Our results proved that S. officinarum is a legitimate species in its own right and not a selection from S. robustum during the domestication process in the past 10 000 years. Our findings rejected a long‐standing hypothesis and clarified the timing of speciation and whole‐genome duplication events in Saccharum.
Highlights
Sugarcane is the most economically important sugar crop, supplying 80% sugar consumed worldwide
Our results showed that the cumulative numbers of SNPs ranged from 2680 to 62 398, which is correlated with descent depth, ranging from 24 to 198 for minor nucleotide depth (Figure S2)
The 24 interchromosomal rearrangements shared by S. officinarum and S. robustum accounted for 26.4% (14 of 53) in
Summary
Sugarcane is the most economically important sugar crop, supplying 80% sugar consumed worldwide. Given the recent demand for alternatives to fossil fuels, it is one of the most productive, first-generation liquid biofuel feedstocks (Kole, 2010). Sugarcane exemplifies an extreme case of autopolyploidy making fundamental genetic studies comparatively more complex than those with other diploid crops (Henry et al, 2010). There are six species in the genus Saccharum, including S. spontaneum, S. robustum, S. officinarum, S. barberi, S. sinense and S. edule. Saccharum spontaneum and S. robustum are wild species with basic chromosome number x = 8 and x = 10, respectively (D’Hont et al, 1996; D’hont et al, 1998; Ha et al, 1999). Chromosome numbers vary widely in the two wild species with
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
