Homeodomain-containing transcription factors (Htfs) play important roles in animals, fungi, and plants during some developmental processes. Here, a homeodomain-containing transcription factor PoHtf1 was functionally characterized in the cellulase-producing fungi Penicillium oxalicum 114-2. PoHtf1 was shown to participate in colony growth and conidiation through regulating the expression of its downstream transcription factor BrlA, the key regulator of conidiation in P. oxalicum 114-2. Additionally, PoHtf1 inhibited the expression of the major cellulase genes by coordinated regulation of cellulolytic regulators CreA, AmyR, ClrB, and XlnR. Furthermore, transcriptome analysis showed that PoHtf1 participated in the secondary metabolism including the pathway synthesizing conidial yellow pigment. These data show that PoHtf1 mediates the complex transcriptional-regulatory network cascade between developmental processes and cellulolytic gene expression in P. oxalicum 114-2. Our results should assist the development of strategies for the metabolic engineering of mutants for applications in the enzymatic hydrolysis for biochemical production.
Aims:In eukaryotic cells, chromatin remodelling complexes are essential for the accessibility of transcription factors to the specific regulating regions of downstream genes. Here, we identified an actin-like protein PoARP9 in cellulase production strain Penicillium oxalicum 114-2, which was an essential member of SWI/SNF complex. To investigate the physiological function of PoARP9 in transcriptional regulation, the coding gene Poarp9 was deleted in P. oxalicum 114-2. Methods and Results:The absence of PoARP9 affected the colony growth on medium with glucose, cellulose or starch as sole carbon source. Meanwhile, the expression levels of major cellulase genes were all upregulated in ΔPoarp9 under the cellulase-inducing condition. In addition, the expression levels of amylase transcription activator AmyR as well as two major amylase genes were also increased in ΔPoarp9. Conclusions:These results demonstrated that chromatin remodelling affects the development and expression of cellulase and amylase in P. oxalicum. And the SWI/ SNF complex member PoARP9 plays essential roles in these processes. Significance and Impact of the Study:This study provided new insights into the regulation of cellulase and development in P. oxalicum. And the regulatory function of SWI/SNF complex member ARP9 towards cellulase and amylase expression in P. oxalicum was verified for the first time.
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