凤尾菇和裂褶菌原生质体非对称融合研究
梁枝荣 安沫平 通占元
摘 要:具有双重营养缺陷型的裂褶菌单核体突变菌株的原生质体经过灭活处理后作为供体与同样带有营养缺陷型标记的风尾菇单核体原生质体融合,得到大量生长速度和菌落形态差异较大的多核体和双核体融合子.这些融合子主要显示了供体菌株的特性,数次转接后,有的融合子从多核体转变成双核体,有的融合子完全恢复了供体亲本双核体的遗传特性,同时获得了一些有意义值得继续探讨的新的生理特性,如菌丝体在木屑麸皮以及废棉培养料上生长速度较快,在平板培养基和木屑培养料上均较早较快地形成原基和子实体等.结果表明原生质体非对称融合是一种效率较高的融合方式,可以作为食用菌育种的一种有效途经.
关键词:裂褶菌, 凤尾菇, 非对称融合, 灭活供体, 复活
分类号:Q932 文献标识码:A
文章编号:1007-3515 (2001)01-0111-0115
POLARIZED PROTOPLAST FUSION BETWEEN PLEUROTUS SAJOR-CAJU AND SCHIZOPHYLLUM COMMUNE
LIANG Zhi-Rong(Department of Rural Economy and Technology, Chinese Academy of Sciences, Beijing 100080)
AN Mo-Ping(Hebei Agro-envirenmental Protection & Monitoring Station, Shijiazhuang, 050011)
TONG Zhan-Yuan(Hebei Agro-envirenmental Protection & Monitoring Station, Shijiazhuang, 050011)
Abstract:A large number of fusion products from polarized protoplast fusion between inactivated monokaryotic protoplasts of Schizophyllum commune and viable monokaryotic protoplasts of Pleurotus sajor-caju were produced. The preliminary study showed that the fusion products mainly carried the characteristics of donor parent instead of recipient parent. After several subcultures, some fusants produced clamp connections and microscopical observation confirmed there were twin nuclei in their mycelial cells. The result implied that the dead donor could re-emerge from the fusant and companed with the transformation from the monokaryon to dikaryon, as well as achieve some new characteristics such as mycelial growth fast and easier and earlier fruiting. The result also implied that polarized protoplast fusion seems to be a more efficient method to produce fusion products in strain improvement of edible fungi.
Keywords:Schizophyllum commune, Pleurotus sajor-caju, Polarized protoplast fusion, Dead donor, Re-emergence
作者单位:梁枝荣(中国科学院北京农村经济技术发展部 北京 100080)
安沫平(河北省农业环境保护监测, 石家庄 050011)
通占元(河北省农业环境保护监测, 石家庄 050011)
参考文献:
[1]Huang, NL. 1993. Edible Fungi Cyclopedia.Chinese Agriculture Press: Beijing ( in Chinese).1~117.
[2]Liang ZR, & Chang ST, 1989. A Study on intergeneric hybridization between Pleurotus sajor-caju and Schizophyllum commune by protoplast fusion. Mushroom Science 12(Part I):125~137.
[3]Liang ZR, & Chao SF. 1999. Induction and selection of auxotrophic mutants in Pleurotus sajor-caju and the detection of their mating type genes. Edible Fungi 19(3):9(in Chinese)
[4]Liang ZR, Zhang XQ, Wang CC, 1999. Application of inactivated protoplast as a dead donor in protoplast fusion of edible fungi. .Mycosystema 18(3):341~342(in Chinese).[梁枝荣等,1999.原生质体灭活供体在食用菌融合中的应用初探.菌物系统, 18(3):341~342]
[5]Liang ZR, & Zhao LQ, 1999. A study of polarized protoplast fusion between Pleurotus sajor -caju and Pleurotus cystidiosus. Mycosystema 18(4):440~444(in Chinese).[梁枝荣等,1999. 凤尾菇和裂褶菌原生质体的非对称融合. 菌物系统, 18(4):440~444]
[6]Raper CA, Miles P.C, 1958. The genetics of Schizophyllum commune. Genetics 43:530~546. Wang CC, & Liang ZR. 2000a. Selection and isolation of double auxotrophic mutants in higher basidiomecetes.Microbiology 27(4): 272~274(in Chinese).
[7]Wang CC, & Liang ZR. 2000a. Selection and isolation of double auxotrophic mutants in higher basidiomecetes.Microbiology 27(4): 272~274(in Chinese).
[8]Wang CC, & Liang ZR. 2000b. A study on polarized protoplast fusion between Pleurotus sajor- caju and Lentinus edodes. Mycosystema 19(3): 413~415(in Chinese)[王澄辙等, 2000, 凤尾菇和香菇原生质体非对称融合. 19(3): 413~415菌物系统]
[9]Yoo YB et al., 1989. Interorder protoplast fusion between Pleurotus ostreats and Ganoderma applanatum. Kor J Mycol 17(3):119~123.