The filamentous fungus Aspergillus terreus has been successfully used for industrial production of itaconic acid (IA) for many years. The IA biosynthesis pathway has recently been characterized at a molecular genetic level as an IA gene cluster by a clone-based transcriptomic approach. The cluster consists of four genes, including genes for cis-aconitic acid decarboxylase (cadA), a predicted transcription factor (tf), a mitochondrial organic acid transporter (mttA) and an MFS (major facilitator superfamily) type transporter (mfsA). In this research, we performed expressed sequence tag (EST) analysis and systematic gene deletions to further investigate the role of those genes during IA biosynthesis in A. pseudoterreus ATCC32359. EST analysis showed a similar expression pattern among those four genes that were distinct from neighboring genes and further confirmed that they belong to the same biosynthesis cluster. Systematic gene deletion analysis demonstrated that tf, cadA, mttA and mfsA genes in the cluster are essential for IA production; deletion of any of them will either completely abolish the IA production or dramatically decrease the amount of IA produced. The tf gene plays a regulatory role in this cluster. Deletion of tf led to decreased expression levels of cadA, mttA and mfsA. More importantly, a significant amount of aconitic acid was detected in the cadA deletion strain but not in the other deletion strains. Therefore, by deleting only one gene, the cadA, we established a novel microbial host for the production of aconitic acid and other value-added chemicals from sugars in lignocellulosic biomass.
Keywords: Aconitic acid (AA); Aspergillus pseudoterreus ATCC32359; Itaconic acid (IA); Transporter; cis-aconitic acid decarboxylase (cadA).