摘要
【目的】为加强对梨叶片资源的药用价值以及农副产品的开发利用,全面分析梨叶片中次生代谢物质的种类。【方法】通过代谢组学分析库尔勒香梨、超红、南红、鸭梨、翠冠5个品种与福鼎大白茶的成熟期叶片的代谢物差异。【结果】PCA分析表明,代谢物种内聚类较为集中,种间聚类较远;5个比较组特异性差异代谢物分别有55、155、54、59和28种;Heatmap分析表明,排名前50的差异代谢物在5个主栽梨叶片中的表达量具有显著差异;黄酮和黄酮醇生物合成、ABC转运和类黄酮生物合成等途径是差异代谢物富集的主要通路,其中山梨醇、果糖、甘露醇、柠檬酸、水杨酸、马来酸等含量显著上调。【结论】不同栽培种梨叶片的代谢物在种类和表达量上均具有显著差异,研究结果为开发利用梨叶片资源提供了理论基础。
【Objective】Plant leaves are rich in secondary metabolites,mainly including phenols,terpenoids,alkaloids and other secondary substances,which have physiological functions in regulating plant growth,biological defense,anti-abiotic stress and so on.Pear is one of the important economic fruits of Rosaceae,and widespread in the world.China is one of the origins of pears,and has a long history of cultivation and rich variety resources.Pyrus pyrifolia,P.ussuriensis,P.sinkiangensis,P.communis and P.bretschnrideri are the main cultivated species of pear in China.Pears contain a wide variety of phenolic compounds,which would be beneficial for human health.Therefore,there have been many researches on the metabolite content of pear fruit.There are also abundant secondary metabolites in pear leaves,which are very important for the growth and development of fruit trees.However,there is a lack of systematic analysis of the metabolites in pear leaves.【Methods】In this study,we collected mature,healthy pear leaves in September,and carried them into lab.The leaves of Fuding Dabai tea rich in secondary metabolites were selected as control,and the differences of metabolites in the mature leaves of five cultivars Kuerle,Chaohong,Nanhong,Yali and Cuiguan were compared and analyzed by metabolomics.PCA analysis,Heatmap analysis,KEGG analysis and K-means analysis were used to analysis differential metabolites.【Results】A total of 9011 metabolites were detected under positive and negative ion mode.11747 peaks and 4987 metabolites were identified in the positive ion model,and 11575 peaks and 4024 metabolites were identified in the negative ion model.The principal component analysis(PCA)showed that the detected intra-species clustering of metabolic species was relatively concentrated,while the interspecific clustering was relatively distant.The metabolites of the leaves of Chaohong were clustered far apart from those of the other four kinds of pear,which indicated the difference of metabolites in the leaves of occidental pear and oriental pear.In the oriental pear varieties,the metabolites of Kuerle fragrant pear were far from those of Yali,Cuiguan and Nanhong,and there were some differences.The number of differential metabolites of Kuerle,Chaohong,Nanhong,Yali,Cuiguan and Fuding Dabai was 1194,1153,1176,1153 and 1164,respectively.There were 456,468,469,481 and 446 kinds of significantly up-regulated differential metabolites in Kuerle,Chaohong,Nanhong,Yali and Cuiguan compared with Fuding Dabai,respectively,and 728,685,707,672 and 718 kinds of significantly downregulated differential metabolites.The number of common differential metabolites was 747,and the specific differential metabolites were 55,155,54,59 and 28,respectively.The heatmap analysis showed that the expression levels of the top 50 differential metabolites were significantly different in the leaves of 5 cultivated pears.Among the top 50 differential metabolites,the number of metabolites in Yali leaves was the largest,with about 24 kinds,mainly including chrysanthemin,genistin,swertiajaponin,quercetin 3-lathyroside,picein,swertiajaponin,6alpha-Hydroxycastasterone,glycyrrhetinic acid and protobassic acid.The correlation analysis could measure the degree of correlation between different metabolites,and further understand the interrelationship between metabolites in the process of biological state change.Therefore,we used Pearson correlation coefficient to measure the correlation between the top 50 differential metabolites with metabolite expression.It was found that 642 pairs of metabolites were positively correlated,and 633 pairs of metabolites were negatively correlated.We divided all the differential metabolites into 12 subclusters using K-mean analysis,and the results showed that the variation trend of differential metabolites in these 12 subclusters was basically the same.The number of differential metabolites in subclusters 1,2,6,8,10 and 11 was the most distributed,and the number was 229,200,104,304,256 and 81,respectively.The variation trend of differential metabolites in cluster 1,2 and 8 was basically the same.The expression of metabolites in Chaohong leaves was quite different in subgroups 3,5 and 7,and the contents of metabolites in Nanhong leaves was quite different in subgroup 12.The KEGG analysis were used to analyze the differential enrichment of the metabolic pathways between the leaves of Kuerle,Chaohong,Nanhong,Yali and Cuiguan and the leaves of Fuding Dabai.The 5 comparison groups were enriched in 78 KEGG pathways,there were 76,71,73,70 and 74 KEGG pathways in the 5 cultivars,respectively.The flavone and flavonol biosynthesis(pxb00944),ABC transport(pxb02010)and flavonoid biosynthesis(pxb00941)were the main pathways for the enrichment of differential metabolite,among them,the contents of sorbitol,fructose,mannitol,citric acid,salicylic acid,maleic acid and methylmalonic acid were significantly up-regulated.Additionally,the zeatin synthesis(pxb00908)and monobacterial biosynthesis(pxb00261)were also metabolic pathways in which metabolites were significantly enriched in the leaves of Chaohong.【Conclusion】To sum up,there are obvious differences in kinds and expressions of metabolites in the leaves of different pear cultivars,and this study could provide theoretical basis for the development and utilization of the leaf resources of pear.
作者
焦慧君
冉昆
董冉
董肖昌
关秋竹
王宏伟
魏树伟
JIAO Huijun;RAN Kun;DONG Ran;DONG Xiaochang;GUAN Qiuzhu;WANG Hongwei;WEI Shuwei(Shandong Institute of Pomology,Tai’an 271000,Shandong,China)
出处
《果树学报》
CAS
CSCD
北大核心
2024年第6期1111-1124,共14页
Journal of Fruit Science
基金
山东省农科院创新工程项目(CXGC2023F21、CXGC2023A13)
山东省果树研究所青年基金(GSS2022QN11)
国家梨产业技术体系(CARS-28-37)
山东省自然科学基金(ZR2020MC141、ZR2021MC177、ZR2023MC061)
农业农村部园艺作物种质资源利用重点实验室开放基金(NYZS202206)。
关键词
梨
叶片
次生代谢物质
Pear
Leaves
Secondary metabolites