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Fluorescence in situ hybridization in sugarcane or fish-ing in the genomic wilderness. [MO06]

Piperidis Nathalie, Aitken Karen S., D'Hont Angélique. 2015. Fluorescence in situ hybridization in sugarcane or fish-ing in the genomic wilderness. [MO06]. In : Pushing the frontiers of sugarcane improvement. ISSCT. Saint-Gilles : ISSCT, Résumé, 44. Germplasm and Breeding ISSCT Workshop. 11, Saint-Gilles, Réunion, 1 Juin 2015/5 Juin 2015.

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Url - éditeur : https://issct.org/activities/workshops/workshops-2013-2016/

Note générale : A l'occasion de ce congrès, s'est également déroulé le 8th Molecular Biology ISSCT Workshop.

Résumé : Cytogenetics applied to sugarcane has brought our fundamental understanding of the sugarcane genome to a new level. In the mid-nineties, Genomic in situ Hybridisation (GISH) was first applied to sugarcane to determine the specific composition of the modern cultivar R570. GISH revealed the chromosomal composition of R570 was 80% Saccharum officinarum, 10% S. spontaneum and 10% of recombined chromosomes. The Australian counterpart Q165, revealed a slightly different species composition as 75%, 15% and 10%, respectively. Both R570 and Q165 genetic maps have portrayed a partial coverage of linkage groups (LG) despite the large number of molecular markers invested in the maps. It also shows that S. spontaneum chromosomes seem to have a better vertical coverage than S. officinarum chromosomes as the S. spontaneum genome is more polymorphic. To gain a better understanding of the genome composition in terms of LG number per homology group (HG) and species attribution of the LG, we applied BAC-FISH to sugarcane. Bacterial Artificial Chromosomes (BAC) consist of large chromosome segments (around 100kb). BAC from the Sorghum or Saccharum genomes were used as anchorage points on the sugarcane cultivars to identify homologous/homeologous chromosomes for each HG. We will present some examples of results of BAC-FISH applied to several cultivars for at least 4 different HG. The determination and comparison of the number of chromosomes per HG to the number of LG from the genetic maps will determine the saturation level of the genetic maps. This will help us to obtain critical knowledge of the horizontal chromosome distribution for a particular cultivar and compare its structure to another cultivar. Eventually we will have a better understanding of the distribution of the chromosomes during crossing and this will help breeders to make more informed and targeted choices in their selection programs. (Texte intégral)

Classification Agris : F30 - Génétique et amélioration des plantes

Auteurs et affiliations

  • Piperidis Nathalie, BSES (AUS)
  • Aitken Karen S., CSIRO (AUS)
  • D'Hont Angélique, CIRAD-BIOS-UMR AGAP (FRA)

Source : Cirad-Agritrop (https://agritrop.cirad.fr/577222/)

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