Characteristic analysis of transformants in T-DNA mutation library of Monascus ruber

Monascus ruber, a red mold species, has been widely used in the fields of food and medicine. In this research, we transformed Monascus ruber spores using Agrobacterium tumefaciens as a tool for random insertional mutagenesis with the hygromycin phosphotransferase gene as the selected marker. Three types of mutants including citrinin-producing mutants, mutants with abnormal aerial hyphae and pigment change mutants were screened for molecular analysis. Southern blot analysis showed that more than 83.3% of transformants contained single T-DNA insertions. The genomic DNA segments of the transformants flanking the T-DNA could be amplified from their left borders with TAIL-PCR. Homologous comparison using the Blast tool showed that none of the isolated DNA sequences had any similarity to each other, suggesting that the T-DNA was randomly integrated into the fungal genome, which provided the hypothetical reason for the variant phenotypes of the transformants. The successful creation of transformants with a single T-DNA tag insertion may help us to clone functional genes related to the metabolism and differentiation of Monascus spp., which will greatly facilitate the molecular analysis of this important fungus and the improvement of strains at the genetic level.