Construction of a Cosmid-Based Ultraefficient Genomic Library System for Filamentous Fungi of the Genus Aspergillus

Abstract

Filamentous fungi of the genus Aspergillus include producers of industrially important organic acids, enzymes, and secondary metabolites, as well as pathogens of many plants and animals. Novel genes in the Aspergillus genome are potentially crucial for the fermentation and drug industries (e.g., agrochemicals and antifungal drugs). A research approach based on classical genetics is effective for identifying functionally unknown genes. During analyses based on classical genetics, mutations must be identified easily and quickly. Herein, we report the development of a cosmid-based plasmid pTOCK1 and the use of a genomic library of Aspergillus nidulans constructed using pTOCK1. The cosmid-based genomic library was used for convenient auxotrophic mutants (pyroA and pabaB), as well as mutants with abnormal colony morphology (gfsA) and yellow conidia (yA), to obtain library clones complementary to these phenotypes. The complementary strain could be obtained through a single transformation, and the cosmid could be rescued. Thus, our cosmid library system can be used to identify the causative gene in a mutant strain.