Genetic characterization and field evaluation to recover parental phenotype in transgenic sugarcane: a step toward commercial release

NOGUERA, A. S.; ENRIQUE, R. A.; PERERA, M. F.; OSTENGO, S.; RACEDO, J.; COSTILLA, D; ZOSSI, S.; CUENYA, M. I.; FILIPPONE, M. P.; WELIN, B.; CASTAGNARO, A. P.

MOLECULAR BREEDING

SPRINGER

Lugar: Berlin; Año: 2015 vol. 35 p. 1 - 15

1380-3743

Abstract Sugarcane commercial variety RA 87-3 was transformed with a genetic construct harboring the epsps gene from Agrobacterium strain CP4 conferring tolerance to glyphosate and nptII gene for kanamycin selection. Transformed lines were multiplied in greenhouse, and herbicide tolerance was evaluated using different concentrations (3, 4, 8 and 16 l/ha) of glyphosate (Helm 48 %p/v). All herbicidetolerant (HT) lines were field tested to confirm glyphosate tolerance and perform preliminary evaluations of phenotypic resemblance to parental cultivar. All transformed lines maintained herbicide tolerance, but many showed phenotypic changes and/or growth aberrations. Ten HT lines, showing close growth resemblance to RA 87-3, were analyzed using nine compulsory morphologic markers proposed by the International Union for the Protection of New Varieties of Plants (UPOV) and 339 molecular markers. Out of the ten HT lines tested, six showed minor morphologic and genetic variations and were selected for field testing over two vegetative crop cycles (plant cane and first ratoon) at two production areas in Argentina. The six field-tested HT lines were found to be almost indistinguishable when comparing agronomic and industrial characteristics and chemical composition. Stable heritance of the CP4 epsps gene and glyphosate tolerance throughout different clonal generations were confirmed by RT-qPCR and Southern blot. Taking into account all results, two out of the six lines tested were selected for a possible commercial release. Our study confirms the utility of genetic transformation as a complementary tool to classical breeding procedures and highlights the usefulness of UPOV traits together with molecular markers for early selections of transgenic events that closely resemble their parental genotype.