基于核磁共振波谱的盐芥盐胁迫代谢组学分析

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	基于核磁共振波谱的盐芥盐胁迫代谢组学分析
	王新宇 ; 王丽华 ; 于萍 ; 李楠 ; 吴惠丰 ; 阎秀峰
刊名	生态学报
	2012-08-08
卷号	32 期号:15 页码:4737-4744
关键词	盐芥代谢组盐胁迫核磁共振
ISSN号	1000-0933
其他题名	NMR spectroscopy based metabolomic analysis of Thellungiella salsuginea under salt stress
通讯作者	阎秀峰 yanxiufeng@wzu.edu.cn
产权排序	温州大学生命与环境科学学院;中国科学院烟台海岸带研究所;
中文摘要	以甲醇/水(1∶1)作为溶剂;利用高分辨核磁共振氢谱分析了盐生模式植物盐芥(Thellungiella salsuginea)代谢组对盐胁迫的响应。根据1H核磁共振(NMR)波谱;在盐芥莲座叶中准确鉴定出23种代谢产物;包括11种氨基酸、4种糖类、6种有机酸和2种其他代谢产物。主成分分析表明;150、300 mmol/L NaCl处理盐芥的代谢组与对照均有显著差异(P<0.05);两种浓度的NaCl处理对盐芥代谢组的影响也不相同。盐胁迫处理以后;盐芥23种代谢产物含量均发生显著变化;除天冬氨酸、延胡索酸受盐胁迫诱导含量下降以外;其余代谢物含量均不同程度升高。这些代谢物主要参与了糖类代谢途径、氨基酸合成途径、三羧酸循环和甜菜碱合成途径;这些代谢途径在盐芥响应盐胁迫过程中有重要作用。
英文摘要	Soil salinity is a critical environmental problem that disrupts plant metabolic homeostasis and requires adjustment of metabolic pathways in plant cells,a process that is usually referred to as acclimation.Metabolomics technologies have made significant contributions to the study of plant stress biology through identification of different compounds,such as signaling molecules and metabolic by-products in response to stress conditions,as well as small molecules involved in the plant acclimation processes.Thellungiella salsuginea is a close relative of Arabidopsis thaliana.It has been proposed as an ideal model for studying molecular mechanisms of salinity tolerance in plants because of its ’extremophile’ characteristics manifested by extreme tolerance to high salt conditions.To obtain a better understanding of the molecular mechanisms underlying the response of T.salsuginea to salt stress,an Nuclear Magnetic Resonance(NMR)-based metabolic profiling approach was used to profile metabolite changes in T.salsuginea after treatment with 150 mmol/L or 300 mmol/L NaCl for 24 h.In general,metabolomic studies should be designed to detect as many metabolites as possible in an organism,and a solvent that can extract a diverse group of metabolites should be employed.In our experiments,metabolites were extracted from the leaf tissues using a solvent system of methanol/water(1/1),known to extract many different metabolites.1H-NMR spectroscopy of samples from control,150 mmol/L and 300 mmol/L NaCl treatment was performed separately.Spectral data were analyzed and interpreted using multivariate statistical analyses.Overall,the original NMR spectra were dominated by one of the organic acids,malate(δ 2.38 and 2.68),which is a T.salsuginea metabolite to maintain the osmotic balance in the cells and was approx.10—100 times higher than other metabolites found in the 1H-NMR spectra.Principal components analysis(PCA) was used in this work for the separation of control from different concentrations of NaCl-treated groups.PCA is an exploratory unsupervised pattern recognition method since it calculates inherent variation within the data sets without use of the class membership.Following PCA,the PC scores plot indicated highly significant separations(P<0.05) between control and salt treatments,suggesting huge differences in metabolite profiles between control and NaCl-treated samples.In order to understand the origin of the differences between the control and NaCl treatments,the metabolites were identified and quantified.A total of 23 intracellular metabolites,comprising 11 amino acids,4 sugars,6 organic acids and 2 others were identified in leaf extracts of T.salsuginea.All of the 23 metabolites showed reproducible and statistically significant changes in NaCl-treated samples compared to control samples.Most metabolites exhibited significant increases in response to NaCl treatment except aspartate and fumarate.To evaluate the connections of these metabolic changes under salt stress,the measured metabolite variations were mapped onto the plant biosynthetic pathways.Metabolites involved in carbohydate metabolism,amino acid biosynthesis,TCA cycle and betaine biosynthesis played an important role in response to salt stress.It is notable that a potentially powerful strategy of salt tolerance in the halophyte T.salsuginea is to increase the TCA cycle intermediates and accumulate the osmoregulatory solute proline.This information,together with quantitative kinetic indices,can be used to model and simulate metabolic pathways.This study has further highlighted the value of the metabolic profiling approach in discovering and validating plant metabolic mechanisms in response and acclimation to salt stress.
学科主题	分子生物学
收录类别	CSCD
资助信息	国家自然科学基金(31170368,31070351)
语种	中文
CSCD记录号	CSCD:4605558
公开日期	2013-03-08
内容类型	期刊论文
源URL	[http://ir.yic.ac.cn/handle/133337/5819]
专题	烟台海岸带研究所_中科院海岸带环境过程与生态修复重点实验室
推荐引用方式 GB/T 7714	王新宇,王丽华,于萍,等. 基于核磁共振波谱的盐芥盐胁迫代谢组学分析[J]. 生态学报,2012,32(15):4737-4744.
APA	王新宇,王丽华,于萍,李楠,吴惠丰,&阎秀峰.(2012).基于核磁共振波谱的盐芥盐胁迫代谢组学分析.生态学报,32(15),4737-4744.
MLA	王新宇,et al."基于核磁共振波谱的盐芥盐胁迫代谢组学分析".生态学报 32.15(2012):4737-4744.