Differential analysis of volatile ingredients in pine wood before and after planting <italic style="font-style: italic">Poria cocos</italic> through HS‑GC⁃MS

TAO Yuxuan; ZHANG Mei; ZI Lei; FEI Fang; CHEN Jiayuan; YU Jie; YANG Xingxin

doi:10.16306/j.1008-861x.2024.03.003

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Differential analysis of volatile ingredients in pine wood before and after planting Poria cocos through HS‑GC⁃MS

Special column on resource of Chinese medicinal materials | 更新时间：2024-05-31

- Differential analysis of volatile ingredients in pine wood before and after planting Poria cocos through HS‑GC⁃MS
- Academic Journal of Shanghai University of Traditional Chinese Medicine Vol. 38, Issue 3, Pages: 15-26(2024)
- 作者机构：
  
  1.云南中医药大学中药学院（云南　昆明　650500）
  2.云南省南药可持续利用重点实验室（云南　昆明　650500）
- 作者简介：
- 基金信息：
- DOI：10.16306/j.1008-861x.2024.03.003
  CLC：
- Published：25 May 2024，
  
  Received：17 February 2023，
  
  Revised：12 April 2024，
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陶语萱,张美,字磊等.HS⁃GC⁃MS分析茯苓种植前后松木中的挥发性组分差异[J].上海中医药大学学报,2024,38(03):15-26.

TAO Yuxuan,ZHANG Mei,ZI Lei,et al.Differential analysis of volatile ingredients in pine wood before and after planting Poria cocos through HS‑GC⁃MS[J].Academic Journal of Shanghai University of Traditional Chinese Medicine,2024,38(03):15-26.
陶语萱,张美,字磊等.HS⁃GC⁃MS分析茯苓种植前后松木中的挥发性组分差异[J].上海中医药大学学报,2024,38(03):15-26. DOI： 10.16306/j.1008-861x.2024.03.003.

TAO Yuxuan,ZHANG Mei,ZI Lei,et al.Differential analysis of volatile ingredients in pine wood before and after planting Poria cocos through HS‑GC⁃MS[J].Academic Journal of Shanghai University of Traditional Chinese Medicine,2024,38(03):15-26. DOI： 10.16306/j.1008-861x.2024.03.003.

摘要

目的

探究茯苓种植用松木在种植前后挥发性成分差异。

方法

将茯苓种植前后的松木样本分别用石油醚提取，残渣再用甲醇提取得到石油醚和甲醇提取物；利用顶空-气相色谱-质谱联用（HS-GC-MS）技术分析提取物中的挥发性成分；应用峰面积归一化法计算各成分的相对含量，数据库确认差异化合物结构；通过正交偏最小二乘法判别分析（OPLS-DA）确认显著差异化合物。

结果

种植前后的松木中共检测到130种化学成分，其中125种在种植前后的相对含量发生变化；与种植前相比，种植后松木中79种相对含量降低，46种相对含量增加，其中24种显著下降，9种显著增加［变量投影重要性VIP>1或S-plots图中|p（corr）|>0.58］；种植后松木中显著下降的成分主要是酸类、醇类、烷烃类、烯烃类及醚类。

结论

与种植前相比，种植后的松木中相对含量下降的79种成分，尤其是相对含量显著下降的24种，可能是茯苓生长过程中从松木中吸取利用的营养物质，研究成果为茯苓松木替代种植及松木资源保护提供科学依据。

Abstract

Methods： To explore the differences of volatile components in pine wood for

Poria cocos

planting before and after planting.

Methods

Pine samples before and after planting

Poria cocos

were separately extracted with petroleum ether， and the residues were extracted with methanol to obtain petroleum ether and methanol extracts. The volatile components in the extracts were analyzed by headspace-gas chromatography-mass spectrometry （HS-GC-MS）. The relative content of each component was calculated by peak area normalization method. The structures of the different compounds were confirmed through databases. Significantly different compounds were confirmed by OPLS-DA.

Results

A total of 130 chemical components were detected in pine samples before and after planting， of which the relative contents of 125 components changed before and after planting. Compared with the volatile components of pine samples before planting， the relative contents of 79 components of pine samples after planting were decreased， while the relative contents of 46 components were increased， of which the relative contents of 24 components were significantly decreased， while the relative contents of 9 components were significantly increased ［variable importance in the projection （VIP） > 1 or |p （corr）| >0.58 in S-plots］. The components that significantly decreased in the pine samples after planting were mainly acids， esters， alkanes， alkenes and ethers.

Conclusion

Compared with the pine samples before planting， the 79 components whose relative contents were decreased after planting， especially the 24 components whose relative contents were decreased significantly， may be the nutrients absorbed and utilized from pines during the growth of

Poria cocos

. The research results provide scientific basis for the pine replacement in planting

Poria cocos

and the protection of pine resources.

关键词

茯苓松木顶空进样气相色谱-质谱联用挥发性成分

Keywords

Poria cocospineheadspace samplingGC-MSvolatile components

references

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马艳春，范楚晨，冯天甜，等. 茯苓的化学成分和药理作用研究进展［J］. 中医药学报， 2021， 49（12）： 108-111.

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荆丹，龙德祥，刘勇. 茯苓椴木栽培技术［J］. 安徽农学通报， 2020， 26（16）： 43-44.

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曹硕. 基因组及转录组学分析探究茯苓菌核形成机制［D］. 武汉：华中农业大学， 2021.

CAO S. Exploring the sclerotium formation mechanism of Poria cocos （Schw.） Wolf by genomic and trasnscriptomic analysis［D］. Wuhan： Huazhong Agricultural University， 2021.

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Differential analysis of volatile ingredients in pine wood before and after planting Poria cocos through HS‑GC⁃MS

DOI：10.16306/j.1008-861x.2024.03.003

摘要

Abstract

关键词

Keywords

references