Establishment of Tissue Culture and Regeneration System of Young Spikes of Leymus chinensis
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摘要: 为了优化羊草组织培养与再生体系,本试验以6个羊草[Leymus chinensis(Trin.)Tzvel.]新品系的幼穗为外植体,使用添加不同植物激素的MS培养基对羊草幼穗进行愈伤组织诱导、继代、分化等培养,建立高效再生体系。结果表明:诱导培养基中添加2,4-D激素浓度为5.0mg·L-1时,6个羊草新品系幼穗的诱导率均较高,其中Lc-6出愈率最高,为87.5%,其次是Lc-4,诱导率为81.5%;6个品系愈伤组织通过固-液-固(MS2-MSL2-MS2)交替继代培养,愈伤组织结构与状态得到明显改善,愈伤由疏松变得致密,褐化现象明显减少,愈伤变为乳白色颗粒状,Lc-6和Lc-4的愈伤状态优于其他品系;6个品系愈伤组织在BNKT分化培养基上的分化率显著高于其他2种培养基(P <0.05),Lc-6分化率最高,为41.25%;6个品系移栽后组培苗成活率均为100%。Abstract: In order to optimize tissue culture and regeneration system of Leymus chinensis,six young panicles of Leymus chinensis were used as explants,and MS medium supplemented with different plant hormones was used to induce subculture differentiation of young panicles of Leymus chinensis,so as to establish an efficient regeneration system.The results showed that when the concentration of 2,4-D hormone was 5.0 mg·L-1 in the induction medium,the induction rate of young panicles of the six new lines of Leymus chinensis were all high.The callus rate of Lc-6 was the highest(87.5%),followed by Lc-4(81.5%).The callus structure and state of the six strains were significantly improved by solid-liquid-solid(MS2-MSL2-MS2)subculture,the callus changed from loose to compact,the browning was significantly reduced,and the callus turned to milky white granules.The callus state of Lc-6 and Lc-4 was better than that of the other strains.The callus differentiation rate of the six strains on BNKT medium was significantly higher than that of the other two media(P<0.05),the differentiation rate of Lc-6 was the highest(41.25);After transplantation,the survival rate of tissue culture seedlings of six strains was 100%.
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[1] 那佳,黄立华,张璐,等.我国东北草地生产力现状及可持续发展对策[J].中国草地学报,2019,41(6):152-164. [2] 武胜男,张曦,高晓霞,等.三江源区“黑土滩”型退化草地人工恢复植物群落的演替动态[J].生态学报,2019,39(7):2444-2453. [3] 舒庆艳.羊草细胞差异表达基因分析与遗传转化方法研究[D].北京:中国科学院研究生院(植物研究所),2005. [4] 王建丽.羊草细胞壁关键组分与糖化效率相关性分析及LcCOMT基因转化羊草的初步研究[D].哈尔滨:哈尔滨师范大学,2019. [5] 张莹,李晓峰,刘公社,等.羊草愈伤组织状态的调控[J].西北农林科技大学学报(自然科学版),2007(5):111-114. [6] 曲同宝,王丕武,关淑艳,等.羊草组织培养及再生系统的建立[J].草业学报,2004(5):91-94. [7] 刘公社,汪恩华,刘杰,等.羊草幼穗离体培养诱导植株再生的研究(英文)[J].草地学报,2002(3):198-202. [8] 肖燕,王振兴,李东明,等.羊草成熟胚诱导愈伤组织及植株再生系统的优化[J].植物学报,2020,55(2):192-198. [9] 邹吉祥,金华,姜国斌,等.Thidiazuron对解除羊草种子休眠和植株再生的影响[J].草业科学,2015,32(10):1612-1618. [10] 于娜,董宽虎.不同激素处理对白羊草愈伤组织分化的影响[J].北方园艺,2014(8):83-86. [11] 陈延,马甜,蒙静,肖庆红,等.羊草抗旱适应性研究[M].银川:宁夏人民教育出版社,2015. [12] 代小梅,孙振元,韩蕾.草地早熟禾愈伤组织诱导及柠檬酸对其褐化的抑制效应[J].核农学报,2015,29(2):270-277. [13] 李素娟,樊秀霞,王华,等.水稻不同品种组培再生和转基因频率研究[J].核农学报,2013,27(12):1817-1827. [14] 吴晓军,胡喜贵,陈向东,等.小麦成熟胚再生体系优化效果评价及高再生率基因型筛选[J].江苏农业科学,2019,47(11):74-77. [15] 周妍彤,郭强,毛培春,等.长穗偃麦草成熟种胚高频再生体系[J].草业科学,2019,36(5):1317-1322. [16] 魏健.羊草体细胞耐盐碱研究[D].长春:吉林农业大学,2005. [17] 刘江淑.羊草高效再生体系的建立及转化的研究[D].海口:华南热带农业大学,2003. [18] 刘公社,齐冬梅.赖草属几种植物幼胚离体培养研究[J].草业学报,2004,13(1):70-73. [19] 张莹.羊草种质资源中维生素E的评价及农杆菌介导的羊草遗传转化研究[D].杨凌:西北农林科技大学,2006. -
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