Abstract
A procedure for transformation of monohaploid and diploid potato genotypes through infection of stem internodes with hairy root inducing strains of Agrobacterium is described. Hairy roots induced by A. rhizogenes strain LBA9402 and A. tumefaciens strain LBA1020, both containing the Ri1855 plasmid, were analysed for phenotype, growth and development, and opine expression. The ploidy level of the hairy roots was determined by measurements of the nuclear DNA content and the chromosome number. The genotypes of potato (8 monohaploids, 2 diploids) greatly differed in their response to transformation, i.e. the frequency of stem internodes with primary hairy roots, the number of roots per internode and their phenotype. Transformation efficiency was lower in most of the monohaploid genotypes as compared to that in diploid genotypes. Hairy root clones could be established in 4 of the 8 monohaploid genotypes and in both diploid genotypes after subculturing of primary hairy roots. Hormone autotrophy was observed in all the root clones. The root clones varied in their phenotype and opine expression; opine expression was found in only 50% of the clones. Twenty-five of the 26 hairy root clones of the diploid genotypes showed only parental (diploid) chromosome number, even after 6 months of culture, suggesting genetic stability during the transformation and in the resulting hairy roots. However, in monohaploid genotypes the hairy root clones were either diploid or tetraploid. The transformation of monohaploid and diploid potato genotypes can be an efficient system for the establishment of a series of genetic marker lines for gene mapping.
Published Version
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 call