Inactivation of the global regulator LaeA in Monascus ruber results in a species-dependent response in sporulation and secondary metabolism

The nuclear regulator LaeA has been proven to globally govern fungal development and secondary metabolism, but its function may be species-dependent, even though its amino acid sequences are well conserved in numerous fungi. Herein we identified the LaeA in Monascus ruber M7 (MrLaeA), and verified i...

Full description

Saved in:
Bibliographic Details
Published in:Fungal biology 2016-03, Vol.120 (3), p.297-305
Main Authors: Liu, Qingpei, Cai, Li, Shao, Yanchun, Zhou, Youxiang, Li, Mu, Wang, Xiaohong, Chen, Fusheng
Format: Article
Language:English
Subjects:
Citrinin - metabolism
Gene Knockout Techniques
Genes, Fungal
Genes, Regulator
Genetic Complementation Test
Hyphae - growth & development
Hyphal development
LaeA
Molecular Sequence Data
Monascus
Monascus - genetics
Monascus - growth & development
Monascus ruber
Pigments, Biological - metabolism
Secondary Metabolism
Sequence Analysis, DNA
Spores, Fungal - growth & development
Sporulation
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The nuclear regulator LaeA has been proven to globally govern fungal development and secondary metabolism, but its function may be species-dependent, even though its amino acid sequences are well conserved in numerous fungi. Herein we identified the LaeA in Monascus ruber M7 (MrLaeA), and verified its role to mediate growth, sporulation and secondary metabolism. Results showed that the radial growth rate of the selected MrlaeA knock-out mutant (MrΔlaeA-22) was significantly faster than that of the parental strain M. ruber M7, and growth was accompanied by the formation of an abnormal colony phenotype with more abundant aerial hyphae. Interestingly, conidia production of the MrΔlaeA-22 strain was about thrice that of M. ruber M7, but ascospores were not observed in the MrΔlaeA-22 strain. Additionally, compared to M. ruber M7, MrΔlaeA-22 exhibited drastically reduced production of multiple secondary metabolites, especially those of the six well-known Monascus pigments and citrinin. Simultaneously, the selected MrlaeA complementation strain (MrΔlaeA::laeA-45) nearly recovered the capacity for sporulation and secondary metabolism observed in the parental strain. These results demonstrate that MrLaeA regulates not only secondary metabolism, but also asexual and sexual differentiation in M. ruber, but some of its regulation appears to differ from other fungi. [Display omitted] •LaeA is a global regulator in Monascus ruber, a kind of traditional fermented fungi.•We firstly discovered the disruption of laeA could lead to the typical cleistothecia disappearing.•LaeA negatively controlled the vegetative development and the asexual reproduction in M. ruber.•LaeA positively regulated the sexual reproduction and the secondary metabolism in M. ruber.•The function of LaeA may be species-dependent, even though its amino acid sequences are well conserved in numerous fungi.
ISSN:1878-6146
1878-6162
DOI:10.1016/j.funbio.2015.10.008