蒲公英耐盐突变体‘滨蒲1号'的耐盐性研究

陈桂平<sup>1</sup>; 张晓东<sup>2*</sup>

引用本文:	陈桂平, 张晓东.蒲公英耐盐突变体‘滨蒲1号'的耐盐性研究[J].广西植物,2021,41(9):1417-1424.[点击复制]
	CHEN Guiping, ZHANG Xiaodong.Mechanism for salt tolerance of salt-tolerant mutant ‘BINPU 1.' of Taraxacum mongolicum[J].Guihaia,2021,41(9):1417-1424.[点击复制]

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蒲公英耐盐突变体‘滨蒲1号'的耐盐性研究
陈桂平¹, 张晓东^2*
1. 唐山师范学院生命科学系, 河北唐山 063000;2. 河北省农林科学院滨海农业研究所, 河北唐山063299

摘要:

土壤盐渍化是当今农业生产上的重要危害之一,它严重影响当地农作物的生长、发育及产量的提高。为了提高盐碱地的利用效率,该文以蒲公英耐盐突变体 ‘滨蒲1号' 及其亲本叶片为材料进行丙二醛(MDA)含量等8种生理指标的测定,同时利用cDNA-RAPD技术对蒲公英耐盐突变体及其亲本根胁迫0、12、24 h的差异表达基因进行分析。结果表明:(1)突变体 ‘滨蒲1号' 叶片中脯氨酸含量、叶绿素含量、可溶性蛋白含量、CAT活性、POD活性、SOD活性在不同胁迫时间点均大体高于亲本; MDA含量、相对电导率低于亲本。(2)以筛选出的 10条 RAPD 引物进行cDNA-RAPD分析,共扩增出 22 条清晰的条带,差异条带10条,多态性为45.4%。(3)扩增产物片段大小在150 ～1 000 bp之间,主要为盐抑制基因片段,推测蒲公英耐盐突变体 ‘滨蒲1号' 的耐盐性既与渗透调节物质脯氨酸及多种抗氧化酶上升引起的保护作用有关,也与根中一些与耐盐相关的基因表达变化有关。该研究为进一步克隆蒲公英耐盐基因并利用基因工程手段培育耐盐优质的蒲公英新品系奠定一定的理论基础。

关键词: 蒲公英, 耐盐突变体, 生理指标, cDNA-RAPD, 差异表达基因

DOI：10.11931/guihaia.gxzw202004008

分类号:Q943

文章编号:1000-3142(2021)09-1417-08

基金项目:河北省科技计划项目(21327509D); 河北省农林科学院现代农业科技创新工程课题资助(F18R18001); 河北省科学计划项目(16226304D-5); 唐山市科技计划项目(18130220a); 唐山市重点实验室项目(2020TS004b)[Supported by Science and Technology Project of Hebei Province(21327509D); Modern Agricultural Science and Technology Innovation Project of Hebei Academy of Agricultural and Forestry Sciences(F18R18001); Science Planning Program of Hebei Province(16226304D-5); Tangshan Science and Technology Planning Project(18130220a); Tangshan Key Laboratory Project(2020TS004b)]。

Mechanism for salt tolerance of salt-tolerant mutant ‘BINPU 1.' of Taraxacum mongolicum

CHEN Guiping¹, ZHANG Xiaodong^2*

1. Department of Life Sciences, Tangshan Normal University, Tangshan 063000, Hebei, China;2. Institute of Coastal Agriculture Hebei Academy of Agriculture and Forestry Science, Tangshan 063299, Hebei, China 1. Department of Life Sciences, Tangshan Normal University, Tangshan 063000, Hebei, China; 2. Institute of Coastal Agriculture Hebei Academy of Agriculture and Forestry Science, Tangshan 063299, Hebei, China

Abstract:

Soil salinization is one of main hazards in agricultural production, seriously declining growth, development and yield of local crops. In order to improve utilization efficiency of saline land, salt-tolerant mutant ‘BINPU 1.' of Taraxacum mongolicum and its parents were chosen as experimental materials, and eight physiological parameters such as malondialdehyde(MDA)contents were determined, as well as analysis of differentially expressed genes in the root under saline treatments of 0, 12 and 24 h through cDNA-RAPD technique. The results were as follows:(1)Except for MDA content and relative conductivity, contents of proline, chlorophyll and soluble protein, and activities of CAT, POD and SOD in leaves of the mutant ‘BINPU 1.' under different saline treatments were all higher than those of the parents in general.(2)Totally 22 clear bands were amplified through cDNA-RAPD technique using 10 screened RAPD primers, of which, 10 different bands were found and the polymorphism was 45.4%.(3)Fragment size of amplification product ranged from 150 to 1 000 bp, mainly consisting of fragments of salt suppressor genes, indicating that the ability of salt-tolerant mutant ‘BINPU 1.' T. mongolicum was related to the protective effects caused by the increase of osmotic regulating substance such as proline and various of antioxidant enzymes activities, as well as some differentially expressed genes in roots. This study provides a theoretical support for further cloning salt-tolerant genes in T. mongolicum and breeding new salt-tolerant T. mongolicum cultivars through genetic engineering.

Key words: Taraxacum mongolicum, salt-tolerant mutant, physiological indexes, cDNA-RAPD, differentially expressed gene