AUTHOR=Sforça Danilo Augusto , Vautrin Sonia , Cardoso-Silva Claudio Benicio , Mancini Melina Cristina , Romero-da Cruz María Victoria , Pereira Guilherme da Silva , Conte Mônica , Bellec Arnaud , Dahmer Nair , Fourment Joelle , Rodde Nathalie , Van Sluys Marie-Anne , Vicentini Renato , Garcia Antônio Augusto Franco , Forni-Martins Eliana Regina , Carneiro Monalisa Sampaio , Hoffmann Hermann Paulo , Pinto Luciana Rossini , Landell Marcos Guimarães de Andrade , Vincentz Michel , Berges Helene , de Souza Anete Pereira
TITLE=Gene Duplication in the Sugarcane Genome: A Case Study of Allele Interactions and Evolutionary Patterns in Two Genic Regions
JOURNAL=Frontiers in Plant Science
VOLUME=10
YEAR=2019
URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2019.00553
DOI=10.3389/fpls.2019.00553
ISSN=1664-462X
ABSTRACT=
Sugarcane (Saccharum spp.) is highly polyploid and aneuploid. Modern cultivars are derived from hybridization between S. officinarum and S. spontaneum. This combination results in a genome exhibiting variable ploidy among different loci, a huge genome size (~10 Gb) and a high content of repetitive regions. An approach using genomic, transcriptomic, and genetic mapping can improve our knowledge of the behavior of genetics in sugarcane. The hypothetical HP600 and Centromere Protein C (CENP-C) genes from sugarcane were used to elucidate the allelic expression and genomic and genetic behaviors of this complex polyploid. The physically linked side-by-side genes HP600 and CENP-C were found in two different homeologous chromosome groups with ploidies of eight and ten. The first region (Region01) was a Sorghum bicolor ortholog region with all haplotypes of HP600 and CENP-C expressed, but HP600 exhibited an unbalanced haplotype expression. The second region (Region02) was a scrambled sugarcane sequence formed from different noncollinear genes containing partial duplications of HP600 and CENP-C (paralogs). This duplication resulted in a non-expressed HP600 pseudogene and a recombined fusion version of CENP-C and the orthologous gene Sobic.003G299500 with at least two chimeric gene haplotypes expressed. It was also determined that it occurred before Saccharum genus formation and after the separation of sorghum and sugarcane. A linkage map was constructed using markers from nonduplicated Region01 and for the duplication (Region01 and Region02). We compare the physical and linkage maps, demonstrating the possibility of mapping markers located in duplicated regions with markers in nonduplicated region. Our results contribute directly to the improvement of linkage mapping in complex polyploids and improve the integration of physical and genetic data for sugarcane breeding programs. Thus, we describe the complexity involved in sugarcane genetics and genomics and allelic dynamics, which can be useful for understanding complex polyploid genomes.