Engineering a genetic transformation system for Colletotrichum acutatum, the causal fungus of lime anthracnose and postbloom fruit drop of citrus

Abstract

Postbloom fruit drop (PFD) of citrus is caused by Colletotrichum acutatum. PFD isolates infect flower petals, induce abscission of small fruit and can cause severe yield loss on most citrus cultivars. Isolates from Key lime anthracnose (KLA) cause that disease on the Mexican lime, but also cause PFD on sweet orange. Both PFD and KLA isolates exhibited resistance to the common selection agents including hygromycin, bialaphos, benomyl and geneticin/G418. A genetic transformation system was developed for C. acutatum to confer resistance to sulfonylurea (chlorimuron ethyl) by expressing an acetolactate synthase gene (sur) cassette from Magnaporthe grisea. The protocol was tested on 11 different KLA and PFD isolates. The transformation frequencies were highly variable among isolates and among experiments (0–17.9 per μg circular DNA using 10⁷ protoplasts). Southern blot analysis of transformants indicated that the plasmid vector was randomly integrated in multiple copies into the genome of C. acutatum. Addition of restriction enzymes or use of a vector with homologous sequences did not change the transformation frequencies, but tended to reduce the number integrated. Over 97% of the transformants retained the sulfonylurea resistance phenotype under non-selective conditions. Of 300 transformants tested, three were unable to cause necrotic lesions on detached Key lime leaves. The transformation method opens up opportunities for the genetic manipulation of C. acutatum.