Abstract
Relative expression levels of twenty-four amylase genes in Shiraia sp. SUPER-H168 were investigated by real-time quantitative PCR when various carbohydrates, including glucose, sucrose, maltose, amylose, amylopectin and corn flour, were used as carbon source. Genes, including an α-glucosidase gene Amy33 (2997 bp), an α-amylase gene Amy365-1 (1749 bp) and a glycogen debranching enzyme gene Amy130 (2487 bp), were overexpressed, and four overexpression transformants were constructed, respectively. When Amy365-1 and Amy130 were co-overexpressed, relative expression levels of seven hypocrellin biosynthesis genes and four related genes in central carbon catabolism were all increased. Expression of Amy33 was also increased along with increase of Amy365-1 and Amy130. Under liquid state fermentation, biomasses and hypocrellin productions were both gradually increased in four overexpression strains than those of wild type strain. Under SSF, hypocrellin production of Amy365-1 and Amy130 co-expression strain reached 71.85 mg/gds, which was 2.83 fold than that of wild type strain, and residual sugar was decreased from 35.47% to 16.68%. These results can provide a practical approach for other secondary metabolites by filamentous fungi under SSF when raw starch material is used as carbon source.
Highlights
Photodynamic therapy is a minimally invasive therapeutic modality to treat with cancer diseases and many other non-malignant diseases [1,2]
In order to improve the yield of hypocrellin and increase the use ratio of corn substrate, relative expression levels of twenty-four amylase genes in Shiraia sp
In order to improve the yield of hypocrellins, a lot of efforts were made [28]
Summary
Photodynamic therapy is a minimally invasive therapeutic modality to treat with cancer diseases and many other non-malignant diseases [1,2]. As non-toxic dyes, photosensitizers (PSs) react with oxygen to generate reactive oxygen species (ROS) under illumine condition. These ROS can damage cellular constituents and cause cell death [3]. Hypocrellins, including hypocrellin A, hypocrellin B, hypocrellin C and hypocrellin D [4], are the important PSs of perylenequinone class. These compounds are isolated from the stromata of Hypocrella bambusae and Shiraia bambusicola. Hypocrellins and their derivatives [5,6,7] have gained considerable attentions for two decades, because they can accumulate
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