The genome of the cellulase-producing fungus Talaromyces cellulolyticus (formerly Acremonium cellulolyticus) was screened for a potent DNA ligase IV gene (ligD homologue). Homologous recombination efficiency in T. cellulolyticus is very low. Therefore, suppression of a non-homologous end-joining system was attempted to enable specific gene knockouts for molecular breeding. The transcript levels of ligD homologue were 0.037 of those of the parental YP-4 strain in the Li20 transformant carrying the RNAi construct targeting the ligD homologue. Transformation of the hairpin-type RNAi vector into T. cellulolyticus could be useful in fungal gene knockdown experiments. Cellulase production and protein secretion were similar in the parental YP-4 strain and the Li20 transformant. Knockout transformation of ligD homologue using the Li20 transformant led to 23.1 % double crossover gene targeting. Our results suggest that the potent DNA ligase IV gene of T. cellulolyticus is related to non-homologous end joining and that the knockdown of the ligD homologue is useful in gene targeting.
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