Isolation of two novel complete Ty1<Emphasis Type="Italic">-copia</Emphasis> retrotransposons from apple and demonstration of use of derived S-SAP markers for distinguishing bud sports of <Emphasis Type="BoldItalic">Malus domestica</Emphasis> cv. Fuji

Retrotransposon-based molecular markers are a powerful tool for mapping and diversity studies. The scarcity of retrotransposon long terminal repeat (LTR) sequences limits the application of retrotransposon-based molecular marker systems. Here, we isolated two novel complete Ty1-copia retrotransposons (CTcrm1 and CTcrm2) in apple using a genome walking strategy. The CTcrm retrotransposons are nearly 5 kb long, and they have all the features of Ty1-copia retrotransposons. The differences in gene organization and nucleotide sequence length between the CTcrm retrotransposons and other reported complete retrotransposons in apple showed that CTcrm1 and CTcrm2 are the first two distinct complete Ty1-copia retrotransposons in the apple genome. To investigate the potential utility of the two retrotransposons as molecular markers, primers complementary to the CTcrm LTRs were designed to develop sequence-specific amplification polymorphism markers for discriminating bud sports of Fuji apple. Multiple polymorphisms corresponding to CTcrm1 and CTcrm2 were detected and could easily be used to discriminate bud sports from their Fuji progenitor, as well as from each other.     

SIRE-1, A putative plant retrovirus is closely related to a legume TY1-copia retrotransposon family

SIRE-1 is a potential soybean retrovirus which has a gene order similar to Ty1-copia retrotransposons but also contains an envelope-like open reading frame (ORF), which is characteristic of retroviruses. PCR and Southern analysis reveals that SIRE-1 is closely related to a legume-wide family of envelope-lacking Ty1-copia group retrotransposons which suggests that SIRE-1 was formed by the recent acquisition of an envelope gene by a Ty1-copia retrotransposon.     

Retrotransposon populations of <Emphasis Type="Italic">Vicia</Emphasis> species with varying genome size

The (non-LTR) LINE and Ty3-gypsy-type LTR retrotransposon populations of three Vicia species that differ in genome size (Vicia faba, Vicia melanops and Vicia sativa) have been characterised. In each species the LINE retrotransposons comprise a complex, very heterogeneous set of sequences, while the Ty3-gypsy elements are much more homogeneous. Copy numbers of all three retrotransposon groups (Ty1-copia, Ty3-gypsy and LINE) in these species have been estimated by random genomic sequencing and Southern hybridisation analysis. The Ty3-gypsy elements are extremely numerous in all species, accounting for 18–35% of their genomes. The Ty1-copia group elements are somewhat less abundant and LINE elements are present in still lower amounts. Collectively, 20–45% of the genomes of these three Vicia species are comprised of retrotransposons. These data show that the three retrotransposon groups have proliferated to different extents in members of the Vicia genus and high proliferation has been associated with homogenisation of the retrotransposon population.Electronic Supplementary Material Supplementary material is available for this article at .