植物代谢组学及其在烟草上的应用进展
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- 英文论文题名:Plant metabolomics and its applications in tobacco
- 论文作者:张丽 ; 姬厚伟 ; 黄锡娟 ; 王芳 ; 刘剑
- 英文论文作者:Zhang Li ; Ji Houwei ; Huang Xijuan ; Wang Fang ; Liu Jian ; Technology Center ; China Tobacco Guizhou Industrial Co. ; Ltd
- 年:2016
- 作者机构:贵州中烟工业有限责任公司技术中心;
- 论文关键词:植物代谢组学 ; 烟草 ; 应用
- 英文论文关键词:plant metabolomics ; tobacco ; application
- 会议召开时间:2016-12-01
- 会议录名称:中国烟草学会2016年度优秀论文汇编——烟草工业主题
- 语种:中文
- 分类号:Q946
- 学会代码:ZGYG
- 学会名称:中国烟草学会
- 页数:13
- 文件大小:806k
- 原文格式:D
摘要
作为系统生物学的一个重要分支,代谢组学是一门研究生物体系受内外环境扰动后(基因的改变或环境的变化),其产生的小分子代谢物变化的科学。代谢组学已被广泛应用于天然药物开发、植物学、微生物学和食品安全等研究领域。本文对代谢组学的形成与发展、植物代谢组学研究方法及其在烟草中的应用进行了综述,并对植物代谢组学的发展及其在烟草中的应用进行了展望。代谢组学将在烟草基因功能解析、揭示代谢网络调控机理和提高烟草品质等生物技术应用方面发挥不可替代的作用。
As one important platform of systems biology, metabolomics focused on the changes of low molecule weight metabolites in a biological system which was imposed on perturbations, including genetic or environment changes. Now, it has been widely used in different research fields, i.e. natural medicines development, botany, microbiology, food safety. Here, the formation and development, research methods and its application in tobacco were reviewed, and the further developments of metabolomics and its application in tobacco field were prospected. Metabolomics will play a significant role in functional annotation of the tobacco genome, revelation the mechanism of metabolic regulatory networks, improvement of tobacco quality and so on.
As one important platform of systems biology, metabolomics focused on the changes of low molecule weight metabolites in a biological system which was imposed on perturbations, including genetic or environment changes. Now, it has been widely used in different research fields, i.e. natural medicines development, botany, microbiology, food safety. Here, the formation and development, research methods and its application in tobacco were reviewed, and the further developments of metabolomics and its application in tobacco field were prospected. Metabolomics will play a significant role in functional annotation of the tobacco genome, revelation the mechanism of metabolic regulatory networks, improvement of tobacco quality and so on.
引文
[1]Fiehn O,Kopka J,Dormann P,et al.Metabolite profiling for plant functional genomics[J].Nat Biotechnol,2000,18(11):1157-1161.
[2]Fiehn O.Link between genotypes and phenotypes[J].Plant Mol Biol,2002,48(2):155-171.
[3]Griffiths W J.Metabolomics,Metabonomics and Metabolite Profiling[M].London:The Royal Society of Chemistry,2008.
[4]Gates S C,Sweeley C C.Quantitative metabolic profiling based on gas chromatography[J].Clin Chem,1978,24(10):1663-1673.
[5]Van der Greef J,Leegwater D C.Urine profile analysis by field desorption mass spectrometry,a technique for detecting metabolites of xenobiotics:Application to 3,5-dinitro-2-hydroxytoluene[J].Biol Mass Spectrom,1983,10(1):1-4.
[6]Oliver S G.From gene to screen with yeast[J].Curt Opin Genet Dev,1997,7(3):405-409.
[7]Nicholson J K,Lindon J C,Holmes E.‘Metabolomics’:understanding the metabolic responses of living systems to pathophysilogical stimuli via multivariate statistical analysis of biological NMR spectroscopic data[J].Xenobiotica,1999,29(11):1181-1189.
[8]Sauter H,Lauer M,Fritsch H.Metabolic profiling of plants:a new diagnostic technique[C]//American Chemical Society Symposium Series 443.Washington DC:American Chemical Society,1991:288—299.
[9]尹恒,李曙光,白雪芳,等.植物代谢组学的研究方法及其应用[J].植物学通报,2005,22(5):532-540.
[10]Kim H K,Verpoorte R.Sample Preparation for Plant Metabolomics[J].Phytochem Analysis,2010,21(1):4-13.
[11]Fukusaki E,Kobayashi A.Plant metabolomics:Potential for practical operation[J].J Biosci Bioeng,2005,100(4):347-354.
[12]Weckwerth W,Wenzel K,Fiehn O.Process for the integrated extraction,identification and quantification of metabolites,proteins and RNA to reveal their co-regulation in biochemical networks[J].Proteomics,2004,4(1):78-83.
[13]Krall L,Huege J,Catchpole G,et al.Assessment of sampling strategies for gas chromatography-mass spectrometry(GC-MS)based metabolomics of cyanobacteria[J].Journal of Chromatography B,2009,877:2952-2960.
[14]Fiehn O,Kopka J,Trethewey RN,et al.Identification of uncommon Plant Metabolites based on Calculation of Elemental Compositions Using Gas Chromatography and Quadrupole Mass Spectrometry[J].Anal.Chem.2000,72:3573-3580.
[15]Choi Y H,Kim H K,Hazekamp A,et al.Metabolomic differentiation of Cannabis sativa cultivars using 1H NMR spectroscopy and principal component analysis[J].J Nat Prod,2004,67(6):953-957.
[16]Gullberg J,Jonsson P,Nordstr?m A,et al.Design of experiments:an efficient strategy to identify factors influencing extraction and derivatization of Arabidopsis thaliana samples in metabolomic studies with gas chromatography/mass spectrometry[J].Analytical biochemistry,2004,331(2):283-295.
[17]Li Y,Pang T,Li YL,et al.Gas chromatography-mass spectrometric method for metabolic profiling of tobacco leaves[J].J Sep Sci,2011,34:1447-1454.
[18]Li Q,Zhao C,Li Y,et al.Liquid chromatography/mass spectrometry‐based metabolic profiling to elucidate chemical differences of tobacco leaves between Zimbabwe and China[J].J Sep Sci,2011,34(2):119-126.
[19]Schwieterman M L,Colquhoun T A,Jaworski E A,et al.Strawberry Flavor:Diverse chemical compositions,a seasonal influence,and effects on sensory perception[J].Plo S one,2014,9(2):e88446.
[20]Sánchez G,Besada C,Badenes M L,et al.A non-targeted approach unravels the volatile network in peach fruit[J].Plo S one,2012,7(6):e38992.
[21]Ma D M,Gandra S V S,Sharma N,et al.Integration of GC-MS based non-targeted metabolic profiling with headspace solid phase microextraction enhances the understanding of volatile differentiation in tobacco leaves from North Carolina,India and Brazil[J].2012.American Journal of Plant Sciences,2012,3(12):1759-1769.
[22]张丽,刘绍锋,王晓瑜,等.吹扫捕集-气相色谱/质谱法分析卷烟烟丝的嗅香成分[J].烟草科技,2013(004):63-70.
[23]邱青青,燕敏,李琛.代谢组学分析技术的新进展[J].诊断学理论与实践,2011,10(1):82-85.
[24]Pérez E M S,Iglesias M J,Ortiz F L,et al.Study of the suitability of HRMAS NMR for metabolic profiling of tomatoes:Application to tissue differentiation and fruit ripening[J].Food Chem,2010,122(3):877-887.
[25]Rooney OM,Troke J,Nicholson JK,et al.High-resolution diffusion and relaxation-edited magic angle spinning 1H NMR spectroscopy of intact liver tissue[J].Magn Reson Med,2003,50(5):925-930.
[26]Verpoorte R,Choi Y H,Mustafa N R,et al.Metabolomics:back to basics[J].Phytochemistry Reviews,2008,7(3):525-537.
[27]Leiss K A,Choi Y H,Verpoorte R,et al.An overview of NMR-based metabolomics to identify secondary plant compounds involved in host plant resistance[J].Phytochemistry Reviews,2011,10(2):205-216.
[28]Wishanrt DS.Quantitative metabolomics using NMR[J].Trends and Chem,2008,27(3):228-237.
[29]Hye KK,Young HC,Robert V,et al.NMR-based metabolomic analysis of plants[J].Nature Protocols,2010,5:536-549.
[30]Naz S,Moreira dos Santos D C,García A,et al.Analytical protocols based on LC-MS,GC-MS and CE-MS for nontargeted metabolomics of biological tissues[J].Bioanalysis,2014,6(12):1657-1677.
[31]Lei Z,Huhman D V,Sumner L W.Mass spectrometry strategies in metabolomics[J].Journal of Biological Chemistry,2011,286(29):25435-25442.
[32]Giavalisco P,Hummel J,Lisec J,et al.High-resolution direct infusion-based mass spectrometry in combination with whole 13C metabolome isotope labeling allows unambiguous assignment of chemical sum formulas[J].Analytical chemistry,2008,80(24):9417-9425.
[33]Dettmer K,Aronov P A,Hammock B D.Mass spectrometry‐based metabolomics[J].Mass spectrometry reviews,2007,26(1):51-78.
[34]Zhang A,Sun H,Wang P,et al.Modern analytical techniques in metabolomics analysis[J].Analyst,2012,137(2):293-300.
[35]黄强,尹沛源,路鑫,等.色谱-质谱联用技术在代谢组学中的应用[J].色谱,2009,27(05):566-572.
[36]Schauer N,Steinhauser D,Strelkov S,et al.GC–MS libraries for the rapid identification of metabolites in complex biological samples[J].FEBS letters,2005,579(6):1332-1337.
[37]Yang S,Hoggard J C,Lidstrom M E,et al.Gas Chromatography and Comprehensive Two‐Dimensional Gas Chromatography Hyphenated with Mass Spectrometry for Targeted and Nontargeted Metabolomics[J].Metabolomics in Practice:Successful Strategies to Generate and Analyze Metabolic Data,2013:69-92.
[38]Zhou J,Ma C,Xu H,et al.Metabolic profiling of transgenic rice with cry IAc and sck genes:An evaluation of unintended effects at metabolic level by using GC-FID and GC–MS[J].Journal of Chromatography B,2009,877(8):725-732.
[39]Roessner U,Wagner C,Kopka J,et al.Simultaneous analysis of metabolites in potato tuber by gas chromatography–mass spectrometry[J].The Plant Journal,2000,23(1):131-142.
[40]Schauer N,Zamir D,Fernie A R.Metabolic profiling of leaves and fruit of wild species tomato:a survey of the Solanum lycopersicum complex[J].Journal of Experimental Botany,2005,56(410):297-307.
[41]Ma C,Wang H,Lu X,et al.Metabolic fingerprinting investigation of Artemisia annua L.in different stages of development by gas chromatography and gas chromatography–mass spectrometry[J].Journal of Chromatography A,2008,1186(1):412-419.
[42]Duan L X,Chen T L,Li M,et al.Use of the metabolomics approach to characterize Chinese medicinal material Huangqi[J].Molecular plant,2011:ssr093.
[43]Ernst M,Silva D B,Silva R R,et al.Mass spectrometry in plant metabolomics strategies:from analytical platforms to data acquisition and processing[J].Natural product reports,2014,31(6):784-806.
[44]Theodoridis G A,Gika H G,Want E J,et al.Liquid chromatography–mass spectrometry based global metabolite profiling:a review[J].Analytica chimica acta,2012,711:7-16.
[45]Vuckovic D.Current trends and challenges in sample preparation for global metabolomics using liquid chromatography–mass spectrometry[J].Analytical and bioanalytical chemistry,2012,403(6):1523-1548.
[46]Tolstikov V V,Fiehn O.Analysis of highly polar compounds of plant origin:combination of hydrophilic interaction chromatography and electrospray ion trap mass spectrometry[J].Analytical biochemistry,2002,301(2):298-307.
[47]Yuan Wang,Xin Lu,Guowang Xu.Development of a comprehensive two-dimensional hydrophilic interaction chromatography/quadrupole time-of-flight mass spectrometry system and its application in separation and identification of saponins from Quillaja saponaria[J].Journal of Chromatography A.2008,1181(1-2):51–59.
[48]Patrick Giavalisco,Karin K?hl,Jan Hummel,et al.13C Isotope-Labeled Metabolomes Allowing for Improved Compound Annotation and Relative Quantification in Liquid Chromatography-Mass Spectrometry-based Metabolomic Research[J].Anal.Chem.,2009,81(15):6546–6551.
[49]Creek D J,Jankevics A,Breitling R,et al.Toward global metabolomics analysis with hydrophilic interaction liquid chromatography–mass spectrometry:improved metabolite identification by retention time prediction[J].Analytical chemistry,2011,83(22):8703-8710.
[50]Theodoridis G A,Gika H G,Want E J,et al.Liquid chromatography–mass spectrometry based global metabolite profiling:a review[J].Analytica chimica acta,2012,711:7-16.
[51]Rainville P D,Theodoridis G,Plumb R S,et al.Advances in liquid chromatography coupled to mass spectrometry for metabolic phenotyping[J].Tr AC Trends in Analytical Chemistry,2014.
[52]Ramautar R,Demirci A,Jong G J.Capillary electrophoresis in metabolomics[J].Tr AC Trends in Analytical Chemistry,2006,25(5):455-466.
[53]Harada K,Fukusaki E.Profiling of primary metabolite by means of capillary electrophoresis-mass spectrometry and its application for plant science[J].Plant Biotechnology,2009,26(1):47-52.
[54]Watanabe M,Kusano M,Oikawa A,et al.Physiological roles of theβ-substituted alanine synthase gene family in Arabidopsis[J].Plant physiology,2008,146(1):310-320.
[55]Sato S,Arita M,Soga T,et al.Time-resolved metabolomics reveals metabolic modulation in rice foliage[J].BMC Syst Biol,2008,2(1):51-13.
[56]Sawalha S M S,Arraez-Roman D,Segura-Carretero A,et al.Quantification of main phenolic compounds in sweet and bitter orange peel using CE-MS/MS[J].Food Chem,2009,116(2):12567-574.
[57]Levandi T,Leon C,Kaljurand M,et al.Capillary electrophoresis time-of-flight mass spectrometry for comparative metabolomics of transgenic versus conventional maize[J].Anal Chem,2008,80(16):6329-6335.
[58]Wagner S,Scholz K,Sieber M,et al.Tools in metabonomics:an integrated validation approach for LC-MS metabolic profiling of mercapturic acids in human urine[J].Anal Chem,2007,79(7):2918-2926.
[59]Lutz U,Lutz R W,Lutz W K.Metabolic profiling of glucuronides in human urine by LC-MS/MS and partial least-squares discriminant analysis for classification and prediction of gender[J].Anal Chem,2006,78(13):4564-4571.
[60]Wang C,Kong H,Guan Y,et al.Plasma phospholipid metabolic profiling and biomarkers of type 2 diabetes mellitus based on high-performance liquid chromatography/electrospray mass spectrometry and multivariate statistical analysis[J].Anal Chem,2005,77(13):4108-4116.
[61]Beckwith-Hall B M,Brindle J T,Barton R H,et al.Application of orthogonal signal correction to minimise the effects of physical and biological variation in high resolution 1H NMR spectra of biofluids[J].Analyst,2002,127(10):1283-1288.
[62]Trygg J,Holmes E,Lundstedt T.Chemometrics in metabonomics[J].J Pmteome Res,2007,6(2):469-479.
[63]Choi H K,Choi Y H,Verberne M,et al.Metabolic fingerprinting of wild type and transgenic tobacco plants by1H NMR and multivariate analysis technique[J].Phytochemistry,2004,65(7):857-864.
[64]Zhang J,Zhang Y,Du Y,et al.Dynamic metabonomic responses of tobacco(Nicotiana tabacum)plants to salt stress[J].Journal of proteome research,2011,10(4):1904-1914.
[65]Kim S W,Kim J H,Ahn M S,et al.Metabolic evaluation of cellular differentiation of tobacco leaf explants in response to plant growth regulators in tissue cultures using 1H NMR spectroscopy and multivariate analysis[J].Plant Cell,Tissue and Organ Culture(PCTOC),2012,108(2):303-313.
[66]郜强,余苓,陈磊,等.基于动态顶空成分的烟叶原料香型特征判别分析[J].计算机与应用化学,2012,29(3):309-312.
[67]Ma D M,Gandra S V S,Sharma N,et al.Integration of GC-MS based non-targeted metabolic profiling with headspace solid phase microextraction enhances the understanding of volatile differentiation in tobacco leaves from North Carolina,India and Brazil[J].2012.
[68]Zhang L,Wang X,Guo J,et al.Metabolic profiling of chinese tobacco leaf of different geographical origins by GC-MS[J].Journal of agricultural and food chemistry,2013,61(11):2597-2605.
[69]Zhao Y,Zhao C,Lu X,et al.Investigation of the Relationship between the Metabolic Profile of Tobacco Leaves in Different Planting Regions and Climate Factors Using a Pseudotargeted Method Based on Gas Chromatography/Mass Spectrometry[J].Journal of proteome research,2013,12(11):5072-5083.
[70]Li L,Zhao C,Chang Y,et al.Metabolomics study of cured tobacco using liquid chromatography with mass spectrometry:Method development and its application in investigating the chemical differences of tobacco from three growing regions[J].Journal of separation science,2014,37(9-10):1067-1074.
[71]唐远驹.关于烤烟香型问题的探讨[J].中国烟草科学,2011,32(3):1-7.
[72]胡群.卷烟品质、安全性及其相关技术手段的系统研究[D].昆明:中国科学院昆明植物研究所,2005.
[73]杨铁钊,李钦奎,李伟.植物次生代谢与烟草香味物质[J].中国烟草科学,2005,(4):23-26.
[74]王霞,杨铁钊,殷全玉.影响烟草香味的主要次生代谢途径及其研究进展[J].中国烟草科学,2008,29(1):47-50.
[75]符新妍,张小全,杨铁钊,等.烤烟生育期间主要非挥发性有机酸含量及相关酶活性变化特征[J].西北植物学报,2014,34(2):0325-0331.
[76]耿召良,李继新,冯勇刚,等.生态条件和种质因素对初烤烟叶次生代谢产物含量的影响[J].西北农林科技大学学报(自然科学版),2013,41(12):80-85.
[77]黄勇,周冀衡,郑明,等.UV-B对烟草生长发育及次生代谢的影响[J].中国生态农业学报,2009,17(1):140-144.
[78]乔瑞丽.生态因子对烟草中类萜代谢的影响[D].郑州:郑州大学,2011.
[79]梁太波,张景玲,田雷,等.干旱胁迫下外源甜菜碱和脯氨酸对烤烟抗氧化代谢的影响[J].烟草科技,2013,(2):68-71.
[80]张小全,王新发,杨铁钊.氮素对烤烟基因型间香味基础物质及相关性状的影响[J].中国烟草科学,2013,34(3):36-41.
[81]李飞,杨铁钊,张小全,等.不同施氮量烤烟氮素代谢差异及其对香气前体物形成的影响[J].华北农学报,2014,29(1):170-177.
[82]仝延鹏,刘朝科,王逸飞,等.精制有机肥对烤烟化学成分及香气物质含量的影响[J].江西农业学报,2014,26(3):35-38.
[83]李忠,杨洪明,徐世涛,等.基于质谱的代谢组学方法在烟草化学中的应用研究[J].分析测试学报,2008(z1):294-295.
[84]徐世涛,李万珣,阴耕云,等.烟用梗丝的品质改善研究[J].云南大学学报(自然科学版),2010,32(S1):13-15.
[85]李忠,杨洪明,师建全.卷烟添加剂对烟气标记化合物影响的代谢组学研究[C]//2008年全国有机质谱学术会议论文集.2008.
[86]李忠,易斌,徐世涛,等.烟叶分模块加工中工艺优化与代谢组学验证[J].云南大学学报(自然科学版),2010,32(S1):150-155.
[87]朱超,梁琼麟,王义明,等.代谢组学的整合化发展及其新进展[J].分析化学,2010,38(07):1060-1068.
[2]Fiehn O.Link between genotypes and phenotypes[J].Plant Mol Biol,2002,48(2):155-171.
[3]Griffiths W J.Metabolomics,Metabonomics and Metabolite Profiling[M].London:The Royal Society of Chemistry,2008.
[4]Gates S C,Sweeley C C.Quantitative metabolic profiling based on gas chromatography[J].Clin Chem,1978,24(10):1663-1673.
[5]Van der Greef J,Leegwater D C.Urine profile analysis by field desorption mass spectrometry,a technique for detecting metabolites of xenobiotics:Application to 3,5-dinitro-2-hydroxytoluene[J].Biol Mass Spectrom,1983,10(1):1-4.
[6]Oliver S G.From gene to screen with yeast[J].Curt Opin Genet Dev,1997,7(3):405-409.
[7]Nicholson J K,Lindon J C,Holmes E.‘Metabolomics’:understanding the metabolic responses of living systems to pathophysilogical stimuli via multivariate statistical analysis of biological NMR spectroscopic data[J].Xenobiotica,1999,29(11):1181-1189.
[8]Sauter H,Lauer M,Fritsch H.Metabolic profiling of plants:a new diagnostic technique[C]//American Chemical Society Symposium Series 443.Washington DC:American Chemical Society,1991:288—299.
[9]尹恒,李曙光,白雪芳,等.植物代谢组学的研究方法及其应用[J].植物学通报,2005,22(5):532-540.
[10]Kim H K,Verpoorte R.Sample Preparation for Plant Metabolomics[J].Phytochem Analysis,2010,21(1):4-13.
[11]Fukusaki E,Kobayashi A.Plant metabolomics:Potential for practical operation[J].J Biosci Bioeng,2005,100(4):347-354.
[12]Weckwerth W,Wenzel K,Fiehn O.Process for the integrated extraction,identification and quantification of metabolites,proteins and RNA to reveal their co-regulation in biochemical networks[J].Proteomics,2004,4(1):78-83.
[13]Krall L,Huege J,Catchpole G,et al.Assessment of sampling strategies for gas chromatography-mass spectrometry(GC-MS)based metabolomics of cyanobacteria[J].Journal of Chromatography B,2009,877:2952-2960.
[14]Fiehn O,Kopka J,Trethewey RN,et al.Identification of uncommon Plant Metabolites based on Calculation of Elemental Compositions Using Gas Chromatography and Quadrupole Mass Spectrometry[J].Anal.Chem.2000,72:3573-3580.
[15]Choi Y H,Kim H K,Hazekamp A,et al.Metabolomic differentiation of Cannabis sativa cultivars using 1H NMR spectroscopy and principal component analysis[J].J Nat Prod,2004,67(6):953-957.
[16]Gullberg J,Jonsson P,Nordstr?m A,et al.Design of experiments:an efficient strategy to identify factors influencing extraction and derivatization of Arabidopsis thaliana samples in metabolomic studies with gas chromatography/mass spectrometry[J].Analytical biochemistry,2004,331(2):283-295.
[17]Li Y,Pang T,Li YL,et al.Gas chromatography-mass spectrometric method for metabolic profiling of tobacco leaves[J].J Sep Sci,2011,34:1447-1454.
[18]Li Q,Zhao C,Li Y,et al.Liquid chromatography/mass spectrometry‐based metabolic profiling to elucidate chemical differences of tobacco leaves between Zimbabwe and China[J].J Sep Sci,2011,34(2):119-126.
[19]Schwieterman M L,Colquhoun T A,Jaworski E A,et al.Strawberry Flavor:Diverse chemical compositions,a seasonal influence,and effects on sensory perception[J].Plo S one,2014,9(2):e88446.
[20]Sánchez G,Besada C,Badenes M L,et al.A non-targeted approach unravels the volatile network in peach fruit[J].Plo S one,2012,7(6):e38992.
[21]Ma D M,Gandra S V S,Sharma N,et al.Integration of GC-MS based non-targeted metabolic profiling with headspace solid phase microextraction enhances the understanding of volatile differentiation in tobacco leaves from North Carolina,India and Brazil[J].2012.American Journal of Plant Sciences,2012,3(12):1759-1769.
[22]张丽,刘绍锋,王晓瑜,等.吹扫捕集-气相色谱/质谱法分析卷烟烟丝的嗅香成分[J].烟草科技,2013(004):63-70.
[23]邱青青,燕敏,李琛.代谢组学分析技术的新进展[J].诊断学理论与实践,2011,10(1):82-85.
[24]Pérez E M S,Iglesias M J,Ortiz F L,et al.Study of the suitability of HRMAS NMR for metabolic profiling of tomatoes:Application to tissue differentiation and fruit ripening[J].Food Chem,2010,122(3):877-887.
[25]Rooney OM,Troke J,Nicholson JK,et al.High-resolution diffusion and relaxation-edited magic angle spinning 1H NMR spectroscopy of intact liver tissue[J].Magn Reson Med,2003,50(5):925-930.
[26]Verpoorte R,Choi Y H,Mustafa N R,et al.Metabolomics:back to basics[J].Phytochemistry Reviews,2008,7(3):525-537.
[27]Leiss K A,Choi Y H,Verpoorte R,et al.An overview of NMR-based metabolomics to identify secondary plant compounds involved in host plant resistance[J].Phytochemistry Reviews,2011,10(2):205-216.
[28]Wishanrt DS.Quantitative metabolomics using NMR[J].Trends and Chem,2008,27(3):228-237.
[29]Hye KK,Young HC,Robert V,et al.NMR-based metabolomic analysis of plants[J].Nature Protocols,2010,5:536-549.
[30]Naz S,Moreira dos Santos D C,García A,et al.Analytical protocols based on LC-MS,GC-MS and CE-MS for nontargeted metabolomics of biological tissues[J].Bioanalysis,2014,6(12):1657-1677.
[31]Lei Z,Huhman D V,Sumner L W.Mass spectrometry strategies in metabolomics[J].Journal of Biological Chemistry,2011,286(29):25435-25442.
[32]Giavalisco P,Hummel J,Lisec J,et al.High-resolution direct infusion-based mass spectrometry in combination with whole 13C metabolome isotope labeling allows unambiguous assignment of chemical sum formulas[J].Analytical chemistry,2008,80(24):9417-9425.
[33]Dettmer K,Aronov P A,Hammock B D.Mass spectrometry‐based metabolomics[J].Mass spectrometry reviews,2007,26(1):51-78.
[34]Zhang A,Sun H,Wang P,et al.Modern analytical techniques in metabolomics analysis[J].Analyst,2012,137(2):293-300.
[35]黄强,尹沛源,路鑫,等.色谱-质谱联用技术在代谢组学中的应用[J].色谱,2009,27(05):566-572.
[36]Schauer N,Steinhauser D,Strelkov S,et al.GC–MS libraries for the rapid identification of metabolites in complex biological samples[J].FEBS letters,2005,579(6):1332-1337.
[37]Yang S,Hoggard J C,Lidstrom M E,et al.Gas Chromatography and Comprehensive Two‐Dimensional Gas Chromatography Hyphenated with Mass Spectrometry for Targeted and Nontargeted Metabolomics[J].Metabolomics in Practice:Successful Strategies to Generate and Analyze Metabolic Data,2013:69-92.
[38]Zhou J,Ma C,Xu H,et al.Metabolic profiling of transgenic rice with cry IAc and sck genes:An evaluation of unintended effects at metabolic level by using GC-FID and GC–MS[J].Journal of Chromatography B,2009,877(8):725-732.
[39]Roessner U,Wagner C,Kopka J,et al.Simultaneous analysis of metabolites in potato tuber by gas chromatography–mass spectrometry[J].The Plant Journal,2000,23(1):131-142.
[40]Schauer N,Zamir D,Fernie A R.Metabolic profiling of leaves and fruit of wild species tomato:a survey of the Solanum lycopersicum complex[J].Journal of Experimental Botany,2005,56(410):297-307.
[41]Ma C,Wang H,Lu X,et al.Metabolic fingerprinting investigation of Artemisia annua L.in different stages of development by gas chromatography and gas chromatography–mass spectrometry[J].Journal of Chromatography A,2008,1186(1):412-419.
[42]Duan L X,Chen T L,Li M,et al.Use of the metabolomics approach to characterize Chinese medicinal material Huangqi[J].Molecular plant,2011:ssr093.
[43]Ernst M,Silva D B,Silva R R,et al.Mass spectrometry in plant metabolomics strategies:from analytical platforms to data acquisition and processing[J].Natural product reports,2014,31(6):784-806.
[44]Theodoridis G A,Gika H G,Want E J,et al.Liquid chromatography–mass spectrometry based global metabolite profiling:a review[J].Analytica chimica acta,2012,711:7-16.
[45]Vuckovic D.Current trends and challenges in sample preparation for global metabolomics using liquid chromatography–mass spectrometry[J].Analytical and bioanalytical chemistry,2012,403(6):1523-1548.
[46]Tolstikov V V,Fiehn O.Analysis of highly polar compounds of plant origin:combination of hydrophilic interaction chromatography and electrospray ion trap mass spectrometry[J].Analytical biochemistry,2002,301(2):298-307.
[47]Yuan Wang,Xin Lu,Guowang Xu.Development of a comprehensive two-dimensional hydrophilic interaction chromatography/quadrupole time-of-flight mass spectrometry system and its application in separation and identification of saponins from Quillaja saponaria[J].Journal of Chromatography A.2008,1181(1-2):51–59.
[48]Patrick Giavalisco,Karin K?hl,Jan Hummel,et al.13C Isotope-Labeled Metabolomes Allowing for Improved Compound Annotation and Relative Quantification in Liquid Chromatography-Mass Spectrometry-based Metabolomic Research[J].Anal.Chem.,2009,81(15):6546–6551.
[49]Creek D J,Jankevics A,Breitling R,et al.Toward global metabolomics analysis with hydrophilic interaction liquid chromatography–mass spectrometry:improved metabolite identification by retention time prediction[J].Analytical chemistry,2011,83(22):8703-8710.
[50]Theodoridis G A,Gika H G,Want E J,et al.Liquid chromatography–mass spectrometry based global metabolite profiling:a review[J].Analytica chimica acta,2012,711:7-16.
[51]Rainville P D,Theodoridis G,Plumb R S,et al.Advances in liquid chromatography coupled to mass spectrometry for metabolic phenotyping[J].Tr AC Trends in Analytical Chemistry,2014.
[52]Ramautar R,Demirci A,Jong G J.Capillary electrophoresis in metabolomics[J].Tr AC Trends in Analytical Chemistry,2006,25(5):455-466.
[53]Harada K,Fukusaki E.Profiling of primary metabolite by means of capillary electrophoresis-mass spectrometry and its application for plant science[J].Plant Biotechnology,2009,26(1):47-52.
[54]Watanabe M,Kusano M,Oikawa A,et al.Physiological roles of theβ-substituted alanine synthase gene family in Arabidopsis[J].Plant physiology,2008,146(1):310-320.
[55]Sato S,Arita M,Soga T,et al.Time-resolved metabolomics reveals metabolic modulation in rice foliage[J].BMC Syst Biol,2008,2(1):51-13.
[56]Sawalha S M S,Arraez-Roman D,Segura-Carretero A,et al.Quantification of main phenolic compounds in sweet and bitter orange peel using CE-MS/MS[J].Food Chem,2009,116(2):12567-574.
[57]Levandi T,Leon C,Kaljurand M,et al.Capillary electrophoresis time-of-flight mass spectrometry for comparative metabolomics of transgenic versus conventional maize[J].Anal Chem,2008,80(16):6329-6335.
[58]Wagner S,Scholz K,Sieber M,et al.Tools in metabonomics:an integrated validation approach for LC-MS metabolic profiling of mercapturic acids in human urine[J].Anal Chem,2007,79(7):2918-2926.
[59]Lutz U,Lutz R W,Lutz W K.Metabolic profiling of glucuronides in human urine by LC-MS/MS and partial least-squares discriminant analysis for classification and prediction of gender[J].Anal Chem,2006,78(13):4564-4571.
[60]Wang C,Kong H,Guan Y,et al.Plasma phospholipid metabolic profiling and biomarkers of type 2 diabetes mellitus based on high-performance liquid chromatography/electrospray mass spectrometry and multivariate statistical analysis[J].Anal Chem,2005,77(13):4108-4116.
[61]Beckwith-Hall B M,Brindle J T,Barton R H,et al.Application of orthogonal signal correction to minimise the effects of physical and biological variation in high resolution 1H NMR spectra of biofluids[J].Analyst,2002,127(10):1283-1288.
[62]Trygg J,Holmes E,Lundstedt T.Chemometrics in metabonomics[J].J Pmteome Res,2007,6(2):469-479.
[63]Choi H K,Choi Y H,Verberne M,et al.Metabolic fingerprinting of wild type and transgenic tobacco plants by1H NMR and multivariate analysis technique[J].Phytochemistry,2004,65(7):857-864.
[64]Zhang J,Zhang Y,Du Y,et al.Dynamic metabonomic responses of tobacco(Nicotiana tabacum)plants to salt stress[J].Journal of proteome research,2011,10(4):1904-1914.
[65]Kim S W,Kim J H,Ahn M S,et al.Metabolic evaluation of cellular differentiation of tobacco leaf explants in response to plant growth regulators in tissue cultures using 1H NMR spectroscopy and multivariate analysis[J].Plant Cell,Tissue and Organ Culture(PCTOC),2012,108(2):303-313.
[66]郜强,余苓,陈磊,等.基于动态顶空成分的烟叶原料香型特征判别分析[J].计算机与应用化学,2012,29(3):309-312.
[67]Ma D M,Gandra S V S,Sharma N,et al.Integration of GC-MS based non-targeted metabolic profiling with headspace solid phase microextraction enhances the understanding of volatile differentiation in tobacco leaves from North Carolina,India and Brazil[J].2012.
[68]Zhang L,Wang X,Guo J,et al.Metabolic profiling of chinese tobacco leaf of different geographical origins by GC-MS[J].Journal of agricultural and food chemistry,2013,61(11):2597-2605.
[69]Zhao Y,Zhao C,Lu X,et al.Investigation of the Relationship between the Metabolic Profile of Tobacco Leaves in Different Planting Regions and Climate Factors Using a Pseudotargeted Method Based on Gas Chromatography/Mass Spectrometry[J].Journal of proteome research,2013,12(11):5072-5083.
[70]Li L,Zhao C,Chang Y,et al.Metabolomics study of cured tobacco using liquid chromatography with mass spectrometry:Method development and its application in investigating the chemical differences of tobacco from three growing regions[J].Journal of separation science,2014,37(9-10):1067-1074.
[71]唐远驹.关于烤烟香型问题的探讨[J].中国烟草科学,2011,32(3):1-7.
[72]胡群.卷烟品质、安全性及其相关技术手段的系统研究[D].昆明:中国科学院昆明植物研究所,2005.
[73]杨铁钊,李钦奎,李伟.植物次生代谢与烟草香味物质[J].中国烟草科学,2005,(4):23-26.
[74]王霞,杨铁钊,殷全玉.影响烟草香味的主要次生代谢途径及其研究进展[J].中国烟草科学,2008,29(1):47-50.
[75]符新妍,张小全,杨铁钊,等.烤烟生育期间主要非挥发性有机酸含量及相关酶活性变化特征[J].西北植物学报,2014,34(2):0325-0331.
[76]耿召良,李继新,冯勇刚,等.生态条件和种质因素对初烤烟叶次生代谢产物含量的影响[J].西北农林科技大学学报(自然科学版),2013,41(12):80-85.
[77]黄勇,周冀衡,郑明,等.UV-B对烟草生长发育及次生代谢的影响[J].中国生态农业学报,2009,17(1):140-144.
[78]乔瑞丽.生态因子对烟草中类萜代谢的影响[D].郑州:郑州大学,2011.
[79]梁太波,张景玲,田雷,等.干旱胁迫下外源甜菜碱和脯氨酸对烤烟抗氧化代谢的影响[J].烟草科技,2013,(2):68-71.
[80]张小全,王新发,杨铁钊.氮素对烤烟基因型间香味基础物质及相关性状的影响[J].中国烟草科学,2013,34(3):36-41.
[81]李飞,杨铁钊,张小全,等.不同施氮量烤烟氮素代谢差异及其对香气前体物形成的影响[J].华北农学报,2014,29(1):170-177.
[82]仝延鹏,刘朝科,王逸飞,等.精制有机肥对烤烟化学成分及香气物质含量的影响[J].江西农业学报,2014,26(3):35-38.
[83]李忠,杨洪明,徐世涛,等.基于质谱的代谢组学方法在烟草化学中的应用研究[J].分析测试学报,2008(z1):294-295.
[84]徐世涛,李万珣,阴耕云,等.烟用梗丝的品质改善研究[J].云南大学学报(自然科学版),2010,32(S1):13-15.
[85]李忠,杨洪明,师建全.卷烟添加剂对烟气标记化合物影响的代谢组学研究[C]//2008年全国有机质谱学术会议论文集.2008.
[86]李忠,易斌,徐世涛,等.烟叶分模块加工中工艺优化与代谢组学验证[J].云南大学学报(自然科学版),2010,32(S1):150-155.
[87]朱超,梁琼麟,王义明,等.代谢组学的整合化发展及其新进展[J].分析化学,2010,38(07):1060-1068.