Protoplast isolation is relevant for many different applications and has been principally used in proceduresnvolving genetic manipulation. In this study, the age of mycelium, osmotic stabilizers, enzyme, incubation te...Protoplast isolation is relevant for many different applications and has been principally used in proceduresnvolving genetic manipulation. In this study, the age of mycelium, osmotic stabilizers, enzyme, incubation temperature and incubation time were evaluated in terms of their effects on protoplast yield. The young mycelia (3 d) of Tulasnella calospora were digested for 6 h at 30℃ in a mixture of 1.2 mol·L-1 MgSO_4 + 10 mmoI·L-1 K2HPO4 as the osmotic stabilizer, with a 1.0% lysing enzyme and 1.5% driselase: more than 106 protoplasts mL-1 were obtained. When collected 3y density gradient centrifugation, the concentration of protoplasts can reach 107-108 protoplasts mL-1, an amount suitable enough for experiments of transformation in fungi. For every 10_5 protoplasts, about 15-25 protoplasts can egenerate after 24-36 h cultivation in a liquid medium and after 8-10 d in an agar medium. This study produced an efficient method for protoplast production, reverting them into a typical mycelia morphology using a Tulasnella calospora solate.展开更多
基金supported by the National Key Project of Scientific and Technical Supporting Programs funded by the Ministry of Science & Technology, China (No. 2012BAC01B05-3)
文摘Protoplast isolation is relevant for many different applications and has been principally used in proceduresnvolving genetic manipulation. In this study, the age of mycelium, osmotic stabilizers, enzyme, incubation temperature and incubation time were evaluated in terms of their effects on protoplast yield. The young mycelia (3 d) of Tulasnella calospora were digested for 6 h at 30℃ in a mixture of 1.2 mol·L-1 MgSO_4 + 10 mmoI·L-1 K2HPO4 as the osmotic stabilizer, with a 1.0% lysing enzyme and 1.5% driselase: more than 106 protoplasts mL-1 were obtained. When collected 3y density gradient centrifugation, the concentration of protoplasts can reach 107-108 protoplasts mL-1, an amount suitable enough for experiments of transformation in fungi. For every 10_5 protoplasts, about 15-25 protoplasts can egenerate after 24-36 h cultivation in a liquid medium and after 8-10 d in an agar medium. This study produced an efficient method for protoplast production, reverting them into a typical mycelia morphology using a Tulasnella calospora solate.
