Abstract
The genome of the fungal plant pathogenFusarium oxysporum contains at least six different families of transposable elements. Representatives of both DNA transposons and retrotransposons have been identified, either by cloning of dispersed repetitive sequences (Foret andpalm) or by trapping in the nitrate reductase gene (Fot1, Fot2 Impala andHop).Fot1 andImpala elements are related to theTc1 andmariner class of transposons. These transposable elements can affect gene structure and function in several ways: inactivation of the target gene through insertion, diversification of the nucleotide sequence by imprecise excisions, and probably chromosomal rearrangements as suggested by the extensive karyotype variation observed among field isolates. Comparisons of the distribution of these elements inFusarium populations have improved our understanding of population structure and epidemiology and provided support for horizontal genetic transfer. Also they could be developed as genetic tools for tagging genes, a cloning strategy that is particularly promising in imperfect fungi.
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