Spermidine Synthase and Saccharopine Reductase Have Co-Expression Patterns Both in Basidiomycetes with Fusion Form and Ascomycetes with Separate Form

Abstract: Gene fusion is a process through which two or more distinct genes are fused into a single chimeric gene. Unlike most harmful fusion genes in cancer cells, in this study, we first found that spermidine synthetase- (SPDS, catalyst of spermidine biosynthesis) and saccharopine reductase- (SR, catalyst of the penultimate step of lysine biosynthesis) encoding genes form a natural chimeric gene, FfSpdsSr, in Flammulina filiformis. Through the cloning of full-length ORFs in different strains and the analysis of altern… Show more

“…Guo et al conducted the transcriptional and metabolic patterns of Lentinula edodes when the mycelial tissues were exposed to high temperature [7]. Yang et al described a special link of spermidine and lysine which was probably involved in the development of mushroom fruiting body and in response to the multiple environmental factors [8]. Another study corroborated the longchain fatty acid synthesis pathway which was responsible for stipe gradient elongation in F. filiformis [9].…”

Biotechnology of Edible Fungi

“…Guo et al conducted the transcriptional and metabolic patterns of Lentinula edodes when the mycelial tissues were exposed to high temperature [7]. Yang et al described a special link of spermidine and lysine which was probably involved in the development of mushroom fruiting body and in response to the multiple environmental factors [8]. Another study corroborated the longchain fatty acid synthesis pathway which was responsible for stipe gradient elongation in F. filiformis [9].…”

Biotechnology of Edible Fungi