Abstract
Abstract Annulohypoxylon stygium is an ascomycete that helps Tremella fuciformis produce the fruiting body in wild state or artificial cultivation. Although the interaction between these two fungi is well known, the underlying molecular mechanism is limited. In this study, the 981 bp and 886 bp promoter sequences of glyceraldehyde-3-phosphate dehydrogenase (gpd) gene and α-tubulin gene have been cloned, respectively. Sequence analysis showed that gpd promoter contained nine CAAT boxes, and single TGACG-motif, TATA box, ABRE motif, STRE motif, MYB motif, and W box. The α-tubulin promoter included eight CAAT boxes, three STRE, two TATA boxes and MYB, single Box 4, CAT-box, CCAAT-box, TGA-element, and ABRE. Subsequently, we evaluated the promoters' function by constructing four vectors pGEH, pGRH, pTEH, and pTRH to drive fused enhanced green fluorescent protein and hygromycin B phosphotransferase (egfp-hph) or red fluorescent protein and hygromycin B phosphotransferase (rfp-hph) expression under the control of gpd or α-tubulin promoters in A. stygium. The integration of the transformed DNA into A. stygium genome was verified by PCR, Southern blot, fluorescence microscopy, and quantitative real-time PCR (qRT-PCR). All the results indicated that the two promoters could drive egfp-hph and rfp-hph expression. This result could provide help in gene functional studies by using gpd and α-tubulin promoters to direct gene over-expression or build dual promoter silencing systems.
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