Add to ORKGThe progress that has been achieved in understanding sugarcane (Saccharum spp.) genome structure over the last 15 years, thanks to the development of molecular cytogenetics is reviewed here. The basic chromosome numbers of the species S. spontaneum, S. officinarum and S. robustum have been determined using fluorescent in situ hybridization (FISH) with rDNA probes. Genomic in situ hybridization allowed the differentiation of chromosomes from S. officinarum and S. spontaneum, the two species involved in the origin of modern sugarcane cultivars, assessment of the proportion of chromosomes of these species in the genome of the modem cultivars and assessment of the extent of interspecific chromosome recombination. GISH has also been used to clar...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
A cana-de-açúcar assumiu grande importância no cenário econômico mundial, não só pela produção de aç...
Les clones actuels de canne à sucre, dont le nombre chromosomique 2n varie de 100 à 130, dérivent d'...
Modern sugarcane cultivars (Saccharum spp., 2n = 100-120) are complex polyploids derived from inters...
Introgression with wild relatives plays a major role in sugarcane breeding. Present sugarcane cultiv...
The genus Saccharum is composed of species with high polyploidy and highly varied chromosome numbers...
Sugarcane (Saccharumspp.) is probably the crop with the most complex genome. Modern cultivars (2n = ...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
International audienceSugarcane (Saccharum spp.) is probably the crop with the most complex genome. ...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
This study provides evidence that nuclear and chromosome remodelling has taken place in sugarcane, a...
Molecular markers provide a powerful tool to study the structure and variation of the sugarcane geno...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
Abstract Background Interspecific hybridization is an effective strategy for germplasm innovation in...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
A cana-de-açúcar assumiu grande importância no cenário econômico mundial, não só pela produção de aç...
Les clones actuels de canne à sucre, dont le nombre chromosomique 2n varie de 100 à 130, dérivent d'...
Modern sugarcane cultivars (Saccharum spp., 2n = 100-120) are complex polyploids derived from inters...
Introgression with wild relatives plays a major role in sugarcane breeding. Present sugarcane cultiv...
The genus Saccharum is composed of species with high polyploidy and highly varied chromosome numbers...
Sugarcane (Saccharumspp.) is probably the crop with the most complex genome. Modern cultivars (2n = ...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
International audienceSugarcane (Saccharum spp.) is probably the crop with the most complex genome. ...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
This study provides evidence that nuclear and chromosome remodelling has taken place in sugarcane, a...
Molecular markers provide a powerful tool to study the structure and variation of the sugarcane geno...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
Abstract Background Interspecific hybridization is an effective strategy for germplasm innovation in...
Chromosome-specific identification is a powerful technique in the study of genome structure and evol...
A cana-de-açúcar assumiu grande importância no cenário econômico mundial, não só pela produção de aç...
Les clones actuels de canne à sucre, dont le nombre chromosomique 2n varie de 100 à 130, dérivent d'...