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基于水自由基阳离子区分己烯醇碳碳双键位置的质谱研究
Mass Spectrometry Study on Distinguishing the Position of Hexenol Carbon-Carbon Double Bond Based on Water Radical Cation
- 分析测试学报 2025年44卷第5期 页码:836-843
- 作者机构:
1.东华理工大学 江西省质谱科学与仪器重点实验室,江西 南昌 330013
2.江西中医药大学 癌症研究中心,江西 南昌 330004
- 作者简介:
张小平,博士,副教授,研究方向:质谱,E-mail:zhangxpsunshine@163.com
- 基金信息:国家自然科学基金项目(22364002);江西省自然科学基金项目(20242BAB25138);江西省人才项目(gpyc20240074;2025QT06);江西省国际合作项目(20232BBH80012);东华理工大学人才项目(DHTJBJ202404)
DOI:10.12452/j.fxcsxb.240831358
中图分类号: O657.6收稿日期:2024-08-31,
修回日期:2024-10-11,
纸质出版日期:2025-05-15
- 稿件说明:
移动端阅览
黄运佳,李雯,段敏敏,王晓云,张小平,陈焕文.基于水自由基阳离子区分己烯醇碳碳双键位置的质谱研究[J].分析测试学报,2025,44(05):836-843.
HUANG Yun-jia,LI Wen,DUAN Min-min,WANG Xiao-yun,ZHANG Xiao-ping,CHEN Huan-wen.Mass Spectrometry Study on Distinguishing the Position of Hexenol Carbon-Carbon Double Bond Based on Water Radical Cation[J].Journal of Instrumental Analysis,2025,44(05):836-843.
黄运佳,李雯,段敏敏,王晓云,张小平,陈焕文.基于水自由基阳离子区分己烯醇碳碳双键位置的质谱研究[J].分析测试学报,2025,44(05):836-843. DOI: 10.12452/j.fxcsxb.240831358.
HUANG Yun-jia,LI Wen,DUAN Min-min,WANG Xiao-yun,ZHANG Xiao-ping,CHEN Huan-wen.Mass Spectrometry Study on Distinguishing the Position of Hexenol Carbon-Carbon Double Bond Based on Water Radical Cation[J].Journal of Instrumental Analysis,2025,44(05):836-843. DOI: 10.12452/j.fxcsxb.240831358.
摘要
己烯醇不同的双键位置异构体具有不同的生物学活性,快速精准识别其碳碳双键位置异构体有助于更好地理解其结构与生物学功能。该研究建立了一种基于水自由基阳离子区分己烯醇碳碳双键位置异构体的方法:首先利用低能电晕放电技术制备大量的水自由基阳离子,再通入己烯醇分子使其与水自由基阳离子反应形成环氧化产物
m
/
z
[M+O]
+•
,然后对所得的环氧化产物进行碰撞诱导,分析形成的一系列特征碎片离子
m
/
z
60、
m
/
z
74、
m
/
z
88,定位双键,从而区分不同碳碳双键的位置。该反应快速,质谱技术分析快速准确;且实验装置简单,无需反应预处理,操作简便;反应过程无需额外有机溶剂,环境友好。
Abstract
Different double bond positional isomers of hexenol have different biological activities. Rapid and accurate identification of their carbon-carbon double bond positional isomers helps to better understand their structure and biological functions. In this study,a me
thod based on water radical cations to distinguish the position isomers of the carbon-carbon double bond of hexenol was established. The specific strategy is:first,a large number of water radical cations were prepared by low-energy corona discharge technology,and then the hexenol molecule was introduced to react with the water radical cation to form the epoxidation product
m
/
z
[M+O]
+•
,and then the obtained epoxidation product was subjected to collision induction analysis to form a series of characteristic fragment ions
m
/
z
60,
m
/
z
74,
m
/
z
88,locate the double bond,thereby distinguishing the position of different carbon-carbon double bonds. The advantages of this method include rapid reaction,rapid and accurate mass spectrometry analysis.The experimental device is simple,without reaction pretreatment,and the experiment is simple. In addition,the reaction process does not require additional organic solvents and is environmentally friendly.
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Morawo T , Fadamiro H . Chemoecology , 2014 , 24 ( 4 ): 127 - 135 .
Sugimoto K , Matsui K , Iijima Y , Akakabe Y , Muramoto S , Ozawa R , Uefune M , Sasaki R , Alamgir K M , Akitake S , Nobuke T , Galis I , Aoki K , Shibata D , Takabayashi J . P . Natl. Acad. Sci. USA , 2014 , 111 ( 19 ): 7144 - 7149 .
Wei J , Wang L , Zhu J , Zhang S , Nandi O I , Kang L . Plos one , 2007 , 2 ( 9 ): e852 .
Das P , Morawo T , Fadamiro H . J. Insect Physiol. , 2017 , 101 : 169 - 177 .
Gigot C , Ongena M , Fauconnier M L , Wathelet J P , Thonart P . Biotechnol. Agron. Soc. , 2010 , 14 ( 3 ): 451 - 460 .
Mitchell R F , Ray A M , Hanks L M , Millar J G . Environ. Entomol. , 2018 , 47 ( 6 ): 1547 - 1552 .
Vyviurska O , Matura F , Furdikova K , Spanik I . J . Food Sci. Technol. Mys. , 2017 , 54 ( 13 ): 4284 - 4301 .
Su Q , Yang F , Zhang Q , Tong H , Hu Y , Zhang X , Xie W , Wang S , Wu Q , Zhang Y . Plant Cell Environ. , 2020 , 43 ( 6 ): 1 - 15 .
Hopfgartner G , Bourgogne E . Mass Spectrom. Rev. , 2003 , 22 ( 3 ): 195 - 214 .
Lu H Y , Zhang H , Chingin K , Xiong J L , Fang X W , Chen H W . TrAC-Trend Anal . Chem. , 2018 , 107 : 99 - 115 .
Zhang X P , Cheng S . J . Am . Soc. Mass Spectrom. , 2017 , 28 ( 10 ): 2246 - 2254 .
Pham H T , Julian R R . Analyst , 2016 , 141 ( 4 ): 1273 - 1278 .
Barrientos R C , Zhang Q . J . Am . Soc. Mass Spectrom. , 2019 , 30 ( 9 ): 1609 - 1620 .
Buenger E W , Reid G E . Eur. J. Mass Spectrom. , 2020 , 26 ( 5 ): 311 - 323 .
Baba T , Campbell J L , Le Blanc J C Y , Baker P R S . Anal. Chem. , 2017 , 89 ( 14 ): 7307 - 7315 .
Thomas M C , Mitchell T W , Harman D G , Deeley J M , Nealon J R , Blanksby S J . Anal. Chem. , 2008 , 80 ( 1 ): 303 - 311 .
Vincent M , Guglielmetti G , Cassani G , Tonini C . Anal. Chem. , 1987 , 59 ( 5 ): 694 - 699 .
Zhu Y , Wang W , Yang Z . Anal. Chem. , 2020 , 92 ( 16 ): 11380 - 11387 .
Takashima S , Toyoshi K , Yamamoto T , Shimozawa N . Sci. Rep. , 2020 , 10 ( 1 ): 12988 .
Balazy M , Nies A S . Biomed . Environ. Mass Spectrom. , 1989 , 18 ( 5 ): 328 - 336 .
Tang S , Cheng H , Yan X . Angew. Chem. Int. Ed. , 2020 , 59 ( 1 ): 209 - 214 .
Jjunju F P M , Damon D E , Romero-Perez D , Young I S , Ward R J , Marshall A , Maher S , Badu-Tawiah A K . Sci. Rep. , 2020 , 10 ( 1 ): 10698 .
Zhao X , Zhao Y , Zhang L , Ma X , Zhang S , Zhang X . Anal. Chem. , 2018 , 90 ( 3 ): 2070 - 2078 .
Cao W , Cheng S , Yang J , Feng J , Zhang W , Li Z , Chen Q , Xia Y , Ouyang Z , Ma X . Nat. Commun. , 2020 , 11 ( 1 ): 375 .
Li J J , Wang C , Deng J W , Luan T G . J. Instrum. Anal. (李佳洁,王超,邓洁薇,栾天罡.分析测试学报), 2021 , 40 ( 6 ): 851 - 859 .
Mi D B , Chingin K . Molecules , 2020 , 25 ( 15 ): 3490 .
Wang F , Schmidhammer U , Lande A D L , Mostafavi M . Phys. Chem. Chem. Phys. , 2017 , 19 ( 4 ): 2894 - 2899 .
Madunil S L , Imasaka T , Imasaka T . Analyst , 2020 , 145 ( 3 ): 777 - 783 .
Dong F , Heinbuch S , Rocca J J , Bernstein E R . J. Chem. Phys. , 2006 , 124 ( 22 ): 224319 .
Gao X F , He P , Chen H W . Acta Chim . Sin. , 2018 , 76 : 802 - 806 .
Zhang X P , Hu P H , Duan M M , Konstantin C , Roman B , Zhang X L , Chen H W . Chem. Sci. , 2024 , 15 : 16125 - 16132 .
Zhang X P , Su R , Li J L , Huang L P , Yang W W , Konstantin C , Roman B , Wang J J , Zhang X L , Zhu W F , Huang K K , Feng S H , Chen H W . Nat. Commun. , 2024 , 15 : 1535 .
Zhang X P , Ren X , Konstantin C , Xu J Q , Yan X , Chen H W . Anal. Chim. Acta , 2020 , 1139 : 146 - 154 .
Semon E , Arvisenet G , Guichard E , Le Quere J L . J. Mass Spectrom. , 2018 , 53 ( 1 ): 65 - 77 .
Zhang J I , Tao W A , Cooks R G . Anal. Chem. , 2011 , 83 ( 12 ): 4738 - 4744 .
Hu N , Tu Y P , Jiang K , Pan Y . J. Org. Chem. , 2010 , 75 ( 12 ): 4244 - 4250 .
Chai Y F , Xiong X C , Yue L , Jiang Y , Pan Y J , Fang X . J. Am. Soc. Mass Spectrom. , 2016 , 27 ( 1 ): 161 - 167 .
Pan P R , Lin Y S , Tsai M K , Kuo J L , Chai J D . Phys. Chem. Chem. Phys. , 2012 , 14 ( 30 ): 10705 - 10712 .
Jia Y H , Alothman Z A , Liang R , Cha S S , Li X Y , Ouyang W Y , Zheng A Q , Osman S M , Luque R , Sun Y . Mol. Catal. , 2020 , 495 : 11146 .
Cao W , Ma X , Li Z , Zhou X , Ouyang Z . Anal. Chem. , 2018 , 90 ( 17 ): 10286 - 10292 .
Feng Y , Chen B , Yu Q , Li L . Anal. Chem. , 2019 , 91 ( 3 ): 1791 - 1795 .
Wan L Z , Gong G D , Liang H , Huang G M . Anal. Chim. Acta , 2019 , 1075 : 120 - 127 .
Huang L H , Shi X Y , Xie H Z , Zhou T . J. Instrum. Anal. (黄龙会,石幸玉,谢海洲,周婷. 分析测试学报), 2025 , 44 ( 1 ): 73 - 81 .
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