Evaluation of nematode-resistant sugar beet (Beta vulgaris L.) lines by molecular analysis

Abstract

Thirty sugar beet (Beta vulgaris) lines conferring complete resistance to the beet cyst nematode (BCN, Heterodera schachtii) originating from interspecific crosses with wild beets of the section Procumbentes (B. procumbens, B. webbiana and B. patellaris) were investigated by morphology and wild beet-specific molecular markers. The beet lines carrying chromosome mutations consisted of monosomic additions (2n=18+1), fragment additions (2n=18+fragment) and translocations (2n=18) from the wild beets. Genome-specific single-copy, satellite and repetitive probes were applied to study the origin, chromosomal assignment and presence of nematode resistance genes. Within the wild beet species at least three different resistance genes located on different chromosomes were distinguished: Hs1 on the homoelogous chromosomes I of each species, Hs2 on the homoelogous chromosomes VII of B. procumbens and B. webbiana and Hs3 on chromosome VIII of B. webbiana. A clear distinction between the three chromosomes was possible by morphological and molecular means. The translocation lines were separated into two different groups: one containing the resistance gene Hs1 from chromosome I and the other carrying a different nematode resistance gene. The molecular data combined with sequence analyses of Hs1 of the three wild beet species revealed a clear distinction between B. procumbens and B. webbiana. The evolutionary and taxonomical relationship of these species supporting the idea of three different species originating from a common ancestor is discussed.