硅藻抑制剂二氧化锗在海带体细胞诱导体系中的影响

doi:10.16378/j.cnki.1003-1111.24003

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摘要为探究硅藻抑制剂二氧化锗在诱导体系中对硅藻的抑制作用及对诱导体系的影响,以海带幼孢子体为外植体,在2% PESI培养基中分别加入质量浓度为0、1.00、2.00、2.50、3.00、3.50 mg/L和4.00 mg/L的二氧化锗,探讨不同质量浓度二氧化锗对诱导体系中海带透明细丝发生率及愈伤组织诱导率的影响。试验结果显示:不同质量浓度二氧化锗对海带体细胞诱导体系的影响极显著(P<0.01);体系诱导至第60天时,随二氧化锗质量浓度的提高,透明细丝的细胞组成数及分支逐渐减少,3.50 mg/L及以上组几乎不出现透明细丝;透明细丝发生率在低质量浓度组(0~2.50 mg/L)差异不显著,均超过80%,显著高于高质量浓度组(P<0.05);第80天时,愈伤组织诱导率在1.00、2.00 mg/L低质量浓度组差异不显著,分别为83.33%、73.61%,显著高于高质量浓度组(P<0.05);应用1.00 mg/L的二氧化锗对已污染硅藻的诱导体系进行初步治疗,抑制硅藻污染效果显著。综上所述,在海带体细胞诱导体系中加入二氧化锗的最佳质量浓度为1.00 mg/L,在不影响海带体细胞诱导体系的前提下,可有效抑制硅藻污染。

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关键词 ：海带, 体细胞诱导, 外植体, 硅藻, 二氧化锗, 愈伤组织, 透明细丝

Abstract：In order to evaluate the inhibitory effect of the diatom inhibitor germanium dioxide (GeO₂) on diatoms in the inducible system and effect on the inducible system, a tissue block with a side length of 0.2—0.3 cm in 1.0—1.5 cm length sporophytes of kelp Laminaria japonica as explants in 2% PESI culture medium was exposed to GeO₂at concentrations of 0, 1.00, 2.00, 2.50, 3.00, 3.50 and 4.00 mg/L in the 2% PESI medium to investigate the effect of GeO₂ concentration on the incidence of kelp transparent mitoplast and callus induction rate in the induction system of the kelp. On the 80th day in the induction system, 1.00 mg/L of GeO₂ was added to the diatom-contaminated system in the control group, and the medium was exchanged every 7—10 days to observe the therapeutic effect of GeO₂ on the contaminative diatoms. The results showed that different concentrations of GeO₂ had an extremely significant impact on the induction of somatic cells (P<0.01). On the 60th day of the induction experiment, the cell and branch numbers of mitoplast gradually were found to be decreased with the increase in GeO₂ concentration, and almost no mitoplast was found in the groups of above 3.50 mg/L, without significant difference in the induction rates (above 80%) of transparent mitoplast among the low concentration groups (0—2.50 mg/L), distinctly higher than that in other high concentration groups(P<0.01).On the 80th day, no significant difference was found between 1.00 and 2.00 mg/L groups, and the introduction rates of callus were shown to be 83.33% and 73.61%, respectively, higher than that in other groups(P<0.01). The application of 1.00 mg/L GeO₂to treat contaminated samples showed excellent removal effectiveness of diatoms from the induction system of the kelp. In summary, the optimal concentration of GeO₂ was 1.00 mg/L for the somatic cells induction system, which effectively inhibited diatom contamination without affecting the mitoplast and callus induction of the kelp.

Key words： Laminaria japonica induction of somatic cell explant diatom germanium dioxide callus transparent mitoplast

收稿日期: 2024-01-03

PACS:

S968.42

基金资助:山东省重点研发计划(重大科技创新工程)项目(2022LZGC004);财政部与农业农村部现代农业产业技术体系项目(CARS-50);国家重点研发计划“蓝色粮仓科技创新”重点专项(2018YFD0901500);山东省农业良种工程项目(2021LZGC004);山东省现代农业藻类产业技术体系项目(SDAIT-26).

通讯作者: 李言(1983—),女,高级工程师;研究方向:海洋藻类遗传学及育种. E-mail: liyan-pig@163.com.

作者简介: 田萍萍(1983—),女,高级工程师;研究方向:海洋藻类遗传学及育种. E-mail: pptian2010@163.com.

引用本文:

田萍萍, 刘延岭, 陈书秀, 王伟伟, 李晓捷, 李言. 硅藻抑制剂二氧化锗在海带体细胞诱导体系中的影响[J]. 水产科学, 2025, 44(1): 145-150.
TIAN Pingping, LIU Yanling, CHEN Shuxiu, WANG Weiwei, LI Xiaojie, LI Yan. Effects of an Inhibitor Germanium Dioxide of Diatom Growth on Somatic Cell Induction System of Kelp Laminaria japonica. Fisheries Science, 2025, 44(1): 145-150.

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http://www.shchkx.com/CN/10.16378/j.cnki.1003-1111.24003 或 http://www.shchkx.com/CN/Y2025/V44/I1/145

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