Abstract
Liamocins, as the secondary metabolites synthesized and secreted by Aureobasidium spp., consist of a single mannitol or a single arabitol head group partially O-acylated with three 3,5-dihydroxydecanoic ester groups or directly esterified with three or four 3,5-dihydroxydecanoic ester tails. Very recently, the whole synthetic pathway of liamocins in A. melanogenum 6-1-2 has been elucidated. It was found that the promoter sequences of all the genes related to liamocin synthesis in A. melanogenum 6-1-2 had stress regulatory elements with core sequences of AGGGG or CCCCT. Therefore, expression of all the genes would be regulated by the Msn2. In this study, it was found that removal of the single one MSN2 gene in A. melanogenum 6-1-2 made the mutant decrease yield of extracellular liamocin by 92.28 %, while complementation of the MSN2 gene in the mutant rendered liamocin synthesis to be restored. When A. melanogenum 6-1-2 was cultured in the liamocin fermentation medium with high glucose and low nitrogen, the Msn2 was localized in the nucleus and positively regulated the expression of the genes related to liamocin biosynthesis. Furthermore, when the key BCY1 gene encoding regulatory subunit of the cAMP-PKA signaling pathway in A. melanogenum 6-1-2 was knocked out, the amount of extracellular liamocins synthesized by the mutant was decreased by 96.73 % and the Msn2 was localized in the cytoplasm. Similarly, when the key HOG1 gene in the HOG1 signaling pathway was deleted, liamocin biosynthesis in the knockout strain was decreased by 98.09 %. However, it was found that the Hog1 may be one part of the general transcription complex to regulate the transcription of the MSN2 gene, leading to the reduced Msn2 and liamocin synthesis in the mutant. In addition, the key TOR1 gene and SNF1 gene in the TOR1 signaling pathway and the SNF1 signaling pathway were not involved in the regulation of the Msn2 activity and liamocin synthesis. It was concluded that the transcriptional activator Msn2, the HOG1 signaling pathway and the cAMP-PKA signaling pathway were involved in the regulation of liamocin biosynthesis and production.
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