短波紫外线辐照坛紫菜壳孢子制备色彩突变体的新途径  

作　　者：陶伟丽 钟晨辉[1] 张鹏[2] 郭辰涛 王铁杆[2] 林琪[1] TAO Weili;ZHONG Chenhui;ZHANG Peng;GUO Chentao;WANG Tiegan;LIN Qi(Key Laboratory of Exploration and Utilization of Marine Organisms in Fujian Province,National and Local Joint Engineering Research Center of Marine Biological Seed Industry Technology,Fisheries Research Institute of Fujian,Xiamen 361013,China;Zhejiang Key Laboratory of Exploitation and Preservation of Coastal Bio-Resource,Zhejiang Mariculture Research Institute,Wenzhou 325005,China;Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources,Ministry of Education,Shanghai Ocean University,Shanghai 201306,China)

机构地区：[1]福建省水产研究所、福建省海洋生物增养殖与高值化利用重点实验室、海洋生物种业技术国家地方联合工程研究中心,福建厦门361013 [2]浙江省海洋水产养殖研究所、浙江省近岸水域生物资源开发与保护重点实验室,浙江温州325005 [3]上海海洋大学、水产种质资源发掘与利用教育部重点实验室,上海201306

出　　处：《渔业科学进展》2024年第3期235-244,共10页Progress in Fishery Sciences

基　　金：财政部和农业农村部:现代农业产业技术体系(CARS-50);浙江省农业(水产)新品种选育重大科技专项(2021C02069-9);福建省科技计划(2023R1053);温州市科技计划(S2020008)共同资助。

摘　　要：壳孢子萌发时期是坛紫菜(Pyropia haitanensis)减数分裂发生的时期,壳孢子萌发形成的最初4个细胞呈线性排列,形成减数分裂四分体,且发生遗传重组的四分体细胞可以决定叶状体的发育模式和性状分离。因此,诱变产生色彩突变的嵌合叶状体相比诱变叶状体产生的点状色块,将更易于获得突变细胞。本研究为获得坛紫菜人工色彩嵌合突变体,使用不同剂量(50、100、200、300、400、500和600J/m^(2))的短波紫外线(UV-C,λ=254nm)辐照坛紫菜壳孢子,培养数天后,在壳孢子苗中出现了色彩突变的嵌合叶状体。结果显示,低剂量(50 J/m^(2))的辐射促进壳孢子萌发,而辐照剂量高于100 J/m^(2)则会抑制壳孢子萌发和分裂。辐照剂量在50~400J/m^(2)范围内,色彩突变体出现的频率随辐照剂量的增加而增加,辐照剂量分别为300和400J/m^(2)时,突变率分别达到15.22%和17.18%。其中,出现色彩突变的嵌合叶状体以2色块嵌合体和3色块嵌合体居多,4色块嵌合体最少,但辐照剂量增加至400 J/m^(2)以上时,随着辐照剂量的增加,色彩突变体出现的频率反而下降,表明最适宜的诱变剂量为300或400 J/m^(2)。同时,短波紫外线辐照也使色彩突变嵌合体的长宽比下降,采用生物酶解法从色彩嵌合体中分离出了单色的体细胞萌发体。本研究为坛紫菜人工色彩突变体的制备和诱变育种提供了新途径。Ultraviolet mutagenesis is a safe and efficient method to induce mutations in laver.It has the advantages of non-pollution,high efficiency,easy operation,and low cost.It has been primarily used for mutagenesis of the filament,protoplast,or blade of cultivated Pyropia species,but is rarely used to induce genetic mutants from germinating conchospore.The germination period of conchospores is the period of meiosis in Pyropia haitanensis.The four progeny cells of germinating conchospores are linearly arranged forming a meiotic tetrad.The tetrad cells that undergo genetic recombination can determine the developmental pattern and segregation of traits in the thallus.In this study,short-wave ultraviolet(UV-C)irradiation with different doses(50,100,200,300,400,500,and 600 J/m^(2))was used to induce color mutants during the germination of conchospores in P.haitanensis.The results showed that low-dose irradiation(50 J/m^(2))promoted the germination of conchospores,while irradiation doses above 100 J/m^(2)inhibited the germination and growth of tetrad germlings.Therefore,low-doses of UV-C irradiation were used in the production to promote the germination of conchospores and improve the production efficiency of laver.In the dose range of 50-400 J/m^(2),the frequency of color chimeras increased with increasing irradiation intensity.When the dose was 300 J/m^(2)and 400 J/m^(2),and the pigmentation mutation rate was 15.22%and 17.18%,respectively,and the death rate of conchospores was 51.70%and 61.00%,respectively.In the dose range of 50-500 J/m^(2),with the increase in UV-C irradiation dose,the proportion of 2-color sectored chimera showed a trend of first decreasing and then increasing,and the proportion of 3-and 4-color sectored chimera showed a trend of first increasing and then decreasing.Among them,the regenerated color chimeras that appear were generally 2-and 3-color sectored chimera,yet the proportion of 4-color sectored chimera was the least.When the irradiation intensity reached 500 J/m^(2),the majority of the conchosp

关 键 词：坛紫菜 壳孢子 短波紫外线 色彩突变体 分离 

分 类 号：S968.43[农业科学—水产养殖]