Abstract
Agrobacterium tumefaciens-mediated transformation (ATMT) was used to facilitate gene transfer into the clinically important dermatophyte, Trichophyton mentagrophytes (teleomorph: Arthroderma vanbreuseghemii). A binary vector containing a hygromycin B resistance cassette was introduced into A. tumefaciens, and the resultant strain was co-cultivated with fungal small conidia. Transformation yielded a large number of hygromycin B-resistant transformants. Hybridization analysis showed that most of the transformants harboured a single copy of T-DNA randomly integrated into the genome. Transformation frequency was increased to more than 200 per 107 conidia by optimizing the co-cultivation time and temperature. ATMT was then used for targeted gene disruption mediated by homologous recombination. Using a PCR-based strategy, we isolated the areA/nit-2-like nitrogen regulatory gene (tnr:Trichophytonnitrogen regulator) from T. mentagrophytes. A binary vector containing two regions of the tnr locus flanking the hygromycin B resistance cassette was constructed and introduced into T. mentagrophytesvia ATMT. Transformants with disruption of the areA/nit-2-like gene (tnr) were obtained in three of four independent disruption experiments, most of which showed homologous recombination via double crossover without additional ectopic integration of the disruption construct.