组织样品大气压质谱分析研究

王雨芬 卢海艳 张华 陈焕文

引用本文: 王雨芬,  卢海艳,  张华,  陈焕文. 组织样品大气压质谱分析研究[J]. 分析化学, 2020, 48(7): 827-837. doi: 10.19756/j.issn.0253-3820.191704 shu
Citation:  WANG Yu-Fen,  LU Hai-Yan,  ZHANG Hua,  CHEN Huan-Wen. Research Progress on Tissue Analysis by Mass Spectrometry without Sample Pretreatment[J]. Chinese Journal of Analytical Chemistry, 2020, 48(7): 827-837. doi: 10.19756/j.issn.0253-3820.191704 shu

组织样品大气压质谱分析研究

  • 基金项目:

    本文系国家自然科学基金项目(Nos.21565004,21605016,21765001)和江西省自然科学基金项目(No.20171ACG70015)资助

摘要: 组织样品中含有丰富的生物分子信息,是代谢组学、脂质组学、蛋白质组学等研究的物质基础。近年来,大气压质谱分析(AMS)技术因具有无需样品预处理即可直接获取组织样品中生物分子种类及含量信息的能力,在组织样品分析中突显了高通量、高灵敏度、高准确性、低样品耗量的特点,已逐渐成为分析组织样品不可或缺的手段。本文以常见的植物、动物和临床术后组织样品为代表,介绍了近年来AMS技术在组织样品分析中的应用进展,结合成像技术,讨论了组织样品AMS的发展趋势。

English


    1. [1]

      LU Hai-Yan, ZHANG Hua, XIAO Yi-Po, LI Yi, GU Hai-Wei, CHEN Huan-Wen. J. Instrum. Anal.,2017,36(2):152-160 卢海艳, 张华, 肖义坡, 李毅, 顾海巍, 陈焕文.分析测试学报,2017,36(2):152-160

    2. [2]

      Hsu C C, Dorrestein P C. Curr. Opin. Biotechnol.,2015,31:24-34

    3. [3]

      Margulis K, Zhou Z P, Fang Q Z, Sievers R E, Lee R J, Zare R N. Anal. Chem.,2018,90(20):12198-12206

    4. [4]

      He J M, Sun C L, Li T G, Luo Z G, Huang L J, Song X W, Li X, Abliz Z. Adv. Sci.,2018,5(11):1800250

    5. [5]

      Yue H, Ma L, Pi Z F, Chen H W, Wang Y, Hu B, Liu S Y. Planta Med.,2013,79(2):169-174

    6. [6]

      Gross J H. Anal. Bioanal. Chem.,2014,406(1):63-80

    7. [7]

      Phelps D L, Balog J, Gildea L F, Bodai Z, Savage A, El-Bahrawy M A, Speller A V M, Rosini F, Kudo H, McKenzie J S, Brown R, Takats Z, Ghaem-Maghami S. Brit. J. Cancer,2018,118(10):1349-1358

    8. [8]

      Fatou B, Saudemont P, Leblanc E, Vinatier D, Mesdag V, Wisztorski M, Focsa C, Salzet M, Ziskind M, Fournier I. Sci. Rep.,2016,6:25919

    9. [9]

      Zhang J L, Rector J, Lin J Q, Young J H, Sans M, Katta N, Giese N, Yu W D, Nagi C, Suliburk J, Liu J S, Bensussan A, DeHoog R J, Garza K Y, Ludolph B, Sorace A G, Syed A, Zahedivash A, Milner T E, Eberlin L S. Sci. Transl. Med.,2017,9(406):eaan3968

    10. [10]

      Wu C P, Dill A L, Eberlin L S, Cooks R G, Ifa D R. Mass Spectrom. Rev.,2013,32(3):218-243

    11. [11]

      Huang M Z, Yuan C H, Cheng S C, Cho Y T, Shiea J. Annu. Rev. Anal. Chem.,2010,3:43-65

    12. [12]

      Weston D J. Analyst,2010,135(4):661-668

    13. [13]

      Huang M Z, Cheng S C, Cho Y T, Shiea J. Anal. Chim. Acta,2011,702(1):1-15

    14. [14]

      Klejdus B, Kovacik J. Ind. Crop. Prod.,2016,83:774-780

    15. [15]

      Rocca L M, Cecca J, L'Episcopo N, Fabrizi G. J. Mass Spectrom.,2017,52(11):709-719

    16. [16]

      Schilmiller A L, Last R L, Pichersky E. Plant J.,2008,54(4):702-711

    17. [17]

      Freund D M, Martin A C, Cohen J D, Hegeman A D. Planta,2018,247(1):267-275

    18. [18]

      Prchalova J, Kovarik F, Rajchl A. J. Mass Spectrom.,2017,52(2):116-126

    19. [19]

      Shiea J, Huang M Z, Hsu H J, Lee C Y, Yuan C H, Beech I, Sunner J. Rapid Commun. Mass Spectrom.,2005,19(24):3701-3704

    20. [20]

      Bierstedt A, Riedel J. Methods,2016,104:3-10

    21. [21]

      Martinez-Jarquin S, Herrera-Ubaldo H, de Folter S, Winkler R. Talanta,2018,185:324-327

    22. [22]

      He T Y, Chambers M I, Musah R A. Anal. Chem.,2018,90(21):12802-12809

    23. [23]

      Zhang H, Gu H W, Yan F Y, Wang N A, Wei Y P, Xu J J, Chen H W. Sci. Rep.,2013,3:2495

    24. [24]

      Xu J Q, Chen H W. Bioanalysis, 2018,10(8):523-525

    25. [25]

      Zhang H, Bibi A S, Lu H Y, Han J, Chen H W. J. Mass Spectrom., 2017,52(8):526-533

    26. [26]

      Zhang H, Chingin K, Zhu L, Chen H W. Anal. Chem.,2015,87(5):2878-2883

    27. [27]

      Shen S S, Zhang H, Huang K K, Chen H W, Shen W X, Fang X W. New J. Chem.,2019,43(5):2118-2125

    28. [28]

      Boughton B A, Thinagaran D, Sarabia D, Bacic A, Roessner U. Phytochem. Rev.,2016,15(3):445-488

    29. [29]

      Enomoto H, Sensu T, Sato K, Sato F, Paxton T, Yumoto E, Miyamoto K, Asahina M, Yokota T, Yamane H. Sci. Rep.,2017,7:42977

    30. [30]

      Bong Y, Li B, Malitsky S, Rogachev L, Aharoni A, Kaftan F, Svatos A, Franceshi P. Front. Plant Sci.,2016,7:60

    31. [31]

      Fowble K L, Teramoto K, Cody R B, Edwards D, Guarrera D, Musah R A. Anal. Chem., 2017,89(6):3421-3429

    32. [32]

      Stopka S A, Samarah L Z, Shaw J B, Liyu A V, Velickovic D, Agtuca B J, Kukolj C, Koppenaal D W, Stacey G, Pasa-Tolic L, Anderton C R, Vertes A. Anal. Chem.,2019,91(8):5028-5035

    33. [33]

      Moreno-Pedraza A, Rosas-Roman I, Garcia-Rojas N S, Guillen-Alonso H, Ovando-Vazquez C, Diaz-Ramirez D, Cuevas-Contreras J, Vergara F, Marsch-Martinez N, Molina-Torres J, Winkler R. Anal. Chem.,2019,91(4):2734-2743

    34. [34]

      Jeong S, Eskandari R, Park S M, Alvarez J, Tee S S, Weissleder R, Kharas M G, Lee H, Keshari K R. Sci. Adv., 2017,3(6):e1700341

    35. [35]

      Zaitsu K, Hayashi Y, Murata T, Yokota K, Ohara T, Kusano M, Tsuchihashi H, Ishikawa T, Ishii A, Ogata K, Tanihata H. Anal. Chem.,2018,90(7):4695-4701

    36. [36]

      Hayashi Y, Zaitsu K, Murata T, Ohara T, Moreau S, Kusano M, Tanihata H, Tsuchihashi H, Ishii A, Ishikawa T. Anal. Chim. Acta, 2017,983:160-165

    37. [37]

      Harayama T, Riezman H. Nat. Rev. Mol. Cell Biol.,2018,19(5):281-296

    38. [38]

      Bergholt M S, Serio A, McKenzie J S, Boyd A, Soares R F, Tillner J, Chiappini C, Wu V, Dannhorn A, Takats Z, Williams A, Stevens M M. ACS Central Sci.,2018,4(1):39-51

    39. [39]

      Wang X Q, Hou Y W, Hou Z H, Xiong W, Huang G M. Anal.Chem., 2019,91(4):2719-2726

    40. [40]

      Yin R C, Kyle J, Burnum-Johnson K, Bloodsworth K J, Sussel L, Ansong C, Laskin J. Anal. Chem.,2018,90(11):6548-6555

    41. [41]

      Ma X X, Xia Y. Angew. Chem.Int. Edit.,2014,53(10):2592-2596

    42. [42]

      Tang F, Guo C G, Ma X X, Zhang J, Su Y, Tian R, Shi R Y, Xia Y, Wang X H, Ouyang Z. Anal. Chem., 2018,90(9):5612-5619

    43. [43]

      Waldchen F, Spengler B, Heiles S. J. Am. Chem. Soc.,2019,141(30):11816-11820

    44. [44]

      Douglass K A, Venter A R. J. Mass Spectrom.,2013,48(5):553-560

    45. [45]

      Feider C L, Elizondo N, Eberlin L S. Anal. Chem.,2016,88(23):11533-11541

    46. [46]

      Hsu C C, Baker M W, Gaasterland T, Meehan M J, Macagno E R, Dorrestein P C. Anal. Chem.,2017,89(16):8251-8258

    47. [47]

      Shin H, Jo S, Mikos A G. Biomaterials,2003,24(24):4353-4364

    48. [48]

      Roman J K, Walsh C M, Oh J, Dana C E, Hong S, Jo K D, Alleyne M, Miljkovic N, Cropek D M. Anal. Bioanal. Chem.,2018,410(7):1911-1921

    49. [49]

      Willmann J K, van Bruggen N, Dinkelborg L M, Gambhir S S. Nat. Rev. Drug Discov.,2008,7(7):591-607

    50. [50]

      Xu L X, Wang T T, Geng Y Y, Wang W Y, Li Y, Duan X K, Xu B, Liu C C, Liu W H. Anal. Bioanal. Chem.,2017,409(22):5217-5223

    51. [51]

      Burns L E, Borts D J. Anal. Chim. Acta,2019,1063:75-81

    52. [52]

      Perez C J, Tata A, de Campos M L, Peng C, Ifa D R. J. Am. Soc. Mass Spectrom.,2017,28(6):1136-1148

    53. [53]

      Chakrabarty S, Shelver W L, Hakk H, Smith D J. J. Agric. Food Chem.,2018,66(41):10871-10880

    54. [54]

      LU Hai-Yan, ZHANG Hua, ZHOU Wei, CHEN Huan-Wen. Mod. Food Technol.,2016,32(06):298-303 卢海艳, 张华, 周炜, 陈焕文.现代食品科技,2016,32(06):298-303

    55. [55]

      Xu J Q, Xu S R, Xiao Y P, Chingin K, Lu H Y, Yan R H, Chen H W. Anal. Chem.,2017,89(21):11252-11258

    56. [56]

      Lu H Y, Zhang H, Zhu T G, Xiao Y P, Xie S X, Gu H W, Cui M, Luo L P. Sci. Rep.,2017,7:5136

    57. [57]

      Chen W Q, Sun K X, Zheng R S, Zeng H M, Zhang S W, Xia C F, Yang Z X, Li H, Zou X N, He J. Chin. J. Cancer Res.,2018,30(1):1-12

    58. [58]

      Zhang J L, Yu W D, Suliburk J, Eberlin L S. Clin. Chem.,2016,62(9):1172-1174

    59. [59]

      Banerjee S. J. Biosci.,2018,43(4):731-738

    60. [60]

      Ferreira C R, Yanne K E, Jarmusch A K, Pirro V, Ouyang Z, Cooks R G. Clin. Chem.,2016,62(1):99-110

    61. [61]

      Pirro V, Alfaro C M, Jarmusch A K, Hattab E M, Cohen-Gadol A A, Cooks R G. Proc. Natl. Acad. Sci. USA, 2017,114(26):6700-6705

    62. [62]

      Ashizawa K, Yoshimura K, Johno H, Inoue T, Katoh R, Funayama S, Sakamoto K, Takeda S, Masuyama K, Matsuoka T, Ishii H. Oral Oncol.,2017,75:111-119

    63. [63]

      Zou R, Cao W B, Chon L, Hua W, Xu H, Mao Y, Page J, Shi R Y, Xia Y, Hu T Y, Zhang W P, Ouyang Z. Anal. Chem.,2019,91(1):1157-1163

    64. [64]

      Lu J R, Tan M, Cai Q S. Cancer Lett.,2015, 356(2):156-164

    65. [65]

      Margulis K, Chiou A S, Aasi S Z, Tibshirani R J, Tang J Y, Zare R N. Proc. Natl. Acad. Sci. USA,2018,115(25):6347-6352

    66. [66]

      Zhang J L,Yu W D, Ryu S W, Lin J, Buentello G, Tibshirani R, Suliburk J, Eberlin L S. Cancer Res., 2016,76(22):6588-6597

    67. [67]

      Sun C L, Li T G, Song X W, Huang L J, Zang Q C, Xu J, Bi N, Jiao G G, Hao Y Z, Chen Y H, Zhang R P, Luo Z G, Li X, Wang L H, Wang Z H, Song Y M, He J M, Abliz Z. Proc. Natl. Acad. Sci. USA,2019,116(1):52-57

    68. [68]

      Banerjee S, Zare R N, Tibshirani R J, Kunder C A, Nolley R, Fan R, Brooks J D, Sonn G A. Proc. Natl. Acad. Sci. USA,2017,114(13):3334-3339

    69. [69]

      Garza K Y, Feider C L, Klein D R, Rosenberg J A, Brodbelt J S, Eberlin L S. Anal. Chem.,2018,90(13):7785-7789

    70. [70]

      Inglese P, McKenzie J S, Mroz A, Kinross J, Veselkov K, Holmes E, Takats Z, Nicholson J K, Glen R C. Chem. Sci., 2017,8(5):3500-3511

    71. [71]

      Schaefer K C, Denes J, Albrecht K, Szaniszlo T, Balog J, Skoumal R, Katona M, Toth M, Balogh L, Takats Z. Angew. Chem. Int. Edit.,2009,48(44):8240-8242

    72. [72]

      John E R, Balog J, McKenzie J S, Rossi M, Covington A, Muirhead L, Bodai Z, Rosini F, Speller A V M, Shousha S, Ramakrishnan R, Darzi A, Takats Z, Leff D R. Breast Cancer Res., 2017,19:59

    73. [73]

      Alexander J, Gildea L, Balog J, Spelle A, McKenzie J, Muirhead L, Scott A, Kontovounisios C, Rasheed S, Teare J, Hoare J, Veselkov K, Goldin R, Tekkis P, Darzi A, Nicholson J, Kinross J, Takats Z. Surg. Endosc.,2017,31(3):1361-1370

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  • 收稿日期:  2019-11-30
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