基于整体柱的糖基化蛋白质分离富集方法的研究进展

温雪 郑海娇 张扬 贾琼

引用本文: 温雪,  郑海娇,  张扬,  贾琼. 基于整体柱的糖基化蛋白质分离富集方法的研究进展[J]. 分析化学, 2020, 48(1): 13-21. doi: 10.19756/j.issn.0253-3820.191566 shu
Citation:  WEN Xue,  ZHENG Hai-Jiao,  ZHANG Yang,  JIA Qiong. Progress in Monolithic Column-based Separation and Enrichment of Glycoproteins[J]. Chinese Journal of Analytical Chemistry, 2020, 48(1): 13-21. doi: 10.19756/j.issn.0253-3820.191566 shu

基于整体柱的糖基化蛋白质分离富集方法的研究进展

  • 基金项目:

    本文系国家自然科学基金项目(No.21575049)资助

摘要: 蛋白质糖基化作为一种重要的翻译后修饰,不仅可以反映机体的健康状况,还可以充当药物治疗的靶点。因此,阐明蛋白质糖基化的修饰规律对疾病的诊断和治疗具有重要意义。然而,生物样品中糖基化蛋白质相对丰度低,复杂程度高,动态范围宽,适宜的样品前处理步骤必不可少。近年来,整体柱因具备分离快速、灵敏、高效、生物兼容性好等优点,在糖基化蛋白质分离富集领域得到了广泛关注。本文对近年来基于整体柱的糖基化蛋白质分离富集方法的研究进展进行了评述,并对其未来发展趋势进行了展望。

English


    1. [1]

      Helenius A, Aebi M. Science,2001,291(5512):2364-2369

    2. [2]

      Spiciarich D R, Nolley R, Maund S L, Purcell S C, Herschel J, Iavarone A T, Peehl D M, Bertozzi C R. Angew. Chem. Int. Ed.,2017,56(31):8992-8997

    3. [3]

      YU Wen-Hao, QI Yan-Xia, JIN Yan. Chinese Journal of Chromatography,2019,37(5):471-476 于文皓, 祁艳霞, 靳艳.色谱,2019,37(5):471-476

    4. [4]

      Dube D H, Bertozzi C R. Nat. Rev. Drug. Discov.,2005,4(6):477-488

    5. [5]

      Xiao H, Chen W, Smeekens J M, Wu R. Nat. Commun.,2018,9(1):1692

    6. [6]

      Wang J Z, Grundke Iqbal I, Iqbal K. Nat. Med.,1996,2(8):871-875

    7. [7]

      Woo C M, Iavarone A T, Spiciarich D R, Palaniappan K K, Bertozzi C R. Nat. Methods,2015,12(6):561-567

    8. [8]

      ZHOU Yuan, SHAN Yi-Chu, ZHANG Li-Hua, ZHANG Yu-Kui. Chinese Journal of Chromatography,2013,31(06):496-502 周愿, 单亦初, 张丽华, 张玉奎.色谱,2013,31(06):496-502

    9. [9]

      Xiao H, Suttapitugsakul S, Sun F, Wu R. Acc. Chem. Res,2018,51(8):1796-1806

    10. [10]

      Kolli V, Schumacher K N, Dodds E D. Bioanalysis,2015,7(1):113-131

    11. [11]

      CAO Jing, NIE Ai-Ying, CHEN Yao-Han, WANG Sheng, LU Hao-Jie, YANG Peng-Yuan. Prog. Chem.,2009,21(9):1888-1894 曹晶, 聂爱英, 陈瑶函, 王胜, 陆豪杰, 杨芃原.化学进展,2009,21(9):1888-1894

    12. [12]

      McDonald C A, Yang J Y, Marathe V, Yen T Y, Macher B A. Mol. Cell. Proteomics,2009,8(2):287-301

    13. [13]

      Zielinska D F, Gnad F, Wisniewski J R, Mann M. Cell,2010,141(5):897-907

    14. [14]

      Kaji H, Shikanai T, Sasaki-Sawa A, Wen H, Fujita M, Suzuki Y, Sugahara D, Sawaki H, Yamauchi Y, Shinkawa T, Taoka M, Takahashi N, Isobe T, Narimatsu H. J. Proteome Res.,2012,11(9):4553-4566

    15. [15]

      Du K, Dan S. J. Chromatogr. A,2018,1548:37-43

    16. [16]

      Wang S, Ye J, Bie Z, Liu Z. Chem. Sci.,2014,5(3):1135-1140

    17. [17]

      Li D, Chen Y, Liu Z. Chem. Soc. Rev.,2015,44(22):8097-8123

    18. [18]

      Zhang X, Wang J, He X, Chen L, Zhang Y. ACS Appl. Mater. Interfaces,2015,7(44):24576-24584

    19. [19]

      Yao J, Wang J, Sun N, Deng C. Nanoscale,2017,9(41):16024-16029

    20. [20]

      Horak D, Balonova L, Mann B F, Plichta Z, Hernychova L, Novotny M V, Stulik J. Soft Mat.,2012,8(9):2775-2786

    21. [21]

      Zhang L, Jiang H, Yao J, Wang Y, Fang C, Yang P, Lu H. Chem. Commun.,2014,50(8):1027-1029

    22. [22]

      Bai H, Pan Y, Qi L, Liu L, Zhao X, Dong H, Cheng X, Qin W, Wang X. Talanta,2018,186:513-520

    23. [23]

      He X, Liang X, Chen X, Yuan B, Zhou P, Zhang L, Feng Y. Anal. Chem.,2017,89(18):9712-9721

    24. [24]

      CHEN Cheng, WANG Hong-Xi, KANG Hong-Jian, YAO Yao, QING Guang-Yan, LI Xiu-Ling, LIANG Xin-Miao. Chinese J. Anal. Chem.,2017,45(8):1149-1154 陈成, 王宏喜, 康虹健, 姚要, 卿光焱, 李秀玲, 梁鑫淼.分析化学,2017,45(8):1149-1154

    25. [25]

      Xia C, Jiao F, Gao F, Wang H, Lv Y, Shen Y, Zhang Y, Qian X. Anal. Chem.,2018,90(11):6651-6659

    26. [26]

      Hong Y, Zhao H, Pu C, Zhan Q, Sheng Q, Lan M. Anal. Chem.,2018,90(18):11008-11015

    27. [27]

      Chen H, Li Y, Wu H, Sun N, Deng C. ACS Sustainable Chem. Eng.,2019,7(2):2844-2851

    28. [28]

      Chen Y, Sheng Q, Hong Y, Lan M. Anal. Chem.,2019,91(6):4047-4054

    29. [29]

      PANG Ji-Lei, LIN Zi-An, LIN Yao, HUANG Hui, ZHANG Lan, CHEN Guo-Nan. Journal of Instrumental Analysis,2011,30(5):582-587 庞纪磊, 林子俺, 林瑶, 黄慧, 张兰, 陈国南.分析测试学报,2011,30(5):582-587

    30. [30]

      LU Yan, GUO Jian-Yu, ZHANG Xiang-Min. Chinese J. Anal. Chem.,2006,(10):1463-1466 鲁彦, 郭建宇, 张祥民.分析化学,2006,(10):1463-1466

    31. [31]

      Zhang H, Huang J, Wang H, Feng Y. Anal. Chim. Acta,2006, 565(2):129-135

    32. [32]

      LIU Jing, WANG Fang-Jun, ZHANG Zhen-Bin, ZOU Han-Fa. Chinese J. Anal. Chem.,2013,41(1):10-14 刘静, 王方军, 张振宾, 邹汉法.分析化学,2013,41(1):10-14

    33. [33]

      Cai J, Zhu G, He X, Zhang Z, Wang R, Feng Y. Talanta,2017,170:252-259

    34. [34]

      Zajickova Z. J. Sep. Sci.,2017,40(1):25-48

    35. [35]

      Fang W, Xia L, Huang X, Guo X, Ding J, Wang H, Feng Y. Chromatographia,2018,81(10):1381-1389

    36. [36]

      Pirozzi D, Abagnale M, Minieri L, Pernice P, Aronne A. Chem. Eng. J.,2016,306:1010-1016

    37. [37]

      Seto H, Matsumoto H, Shibuya M, Akiyoshi T, Hoshino Y, Miura Y. J. Appl. Polym. Sci.,2017,134(4):44385

    38. [38]

      Zhang M, Wei F, Zhang Y, Nie J, Feng Y. J. Chromatogr. A,2006,1102(1-2):294-301

    39. [39]

      Zhang H, Huang J, Lin B, Feng Y. J. Chromatogr. A,2007,1160(1-2):114-119

    40. [40]

      Ou J, Lin H, Zhang Z, Huang G, Dong J, Zou H. Electrophoresis,2013,34(1):126-140

    41. [41]

      Yan L, Zhang Q, Zhang W, Feng Y, Zhang L, Li T, Zhang Y. Electrophoresis,2005,26(15):2935-2941

    42. [42]

      Wu M, Wu R, Wang F, Ren L, Dong J, Liu Z, Zou H. Anal. Chem.,2009,81(9):3529-3536

    43. [43]

      Wu M, Wu R, Li R, Qin H, Dong J, Zhang Z, Zou H. Anal. Chem.,2010,82(13):5447-5454

    44. [44]

      Tong S, Liu Q, Li Y, Zhou W, Jia Q, Duan T. J. Chromatogr. A,2012,1253:22-31

    45. [45]

      Wang H, Wei S, Zhang H, Jia Q. RSC Adv.,2016,6(43):36256-36263

    46. [46]

      Tong S, Zhou X, Zhou C, Li Y, Li W, Zhou W, Jia Q. Analyst,2013,138(5):1549-1557

    47. [47]

      Wang R, Chen Z. J. Sep. Sci.,2018,41(13):2767-2773

    48. [48]

      Zhou C, Chen X, Du Z, Li G, Xiao X, Cai Z. J. Chromatogr. A,2017,1498:90-98

    49. [49]

      Daniel M C, Astruc D. Chem. Rev.,2004,104(1):293-346

    50. [50]

      Wu C, Liang Y, Zhao Q, Qu Y, Zhang S, Wu Q, Liang Z, Zhang L, Zhang Y. Chem. Eur. J.,2014,20(28):8737-8743

    51. [51]

      Yang Q, Huang D, Zhou P. Analyst,2014,139(5):987-991

    52. [52]

      Liu C, Deng Q, Fang G, Huang X, Wang S, He J. ACS Appl. Mater. Interfaces,2015,7(36):20430-20437

    53. [53]

      Zheng H, Ma J, Feng W, Jia Q. J. Chromatogr. A,2017,1512:88-97

    54. [54]

      Zheng H, Li X, Jia Q. ACS Appl. Mater. Interfaces,2018,10(23):19914-19921

    55. [55]

      Zheng H, Zhu T, Li X, Ma J, Jia Q. Anal. Chim. Acta,2017,983:141-148

    56. [56]

      Zheng H, Song N, Li X, Jia Q. Analyst,2017,142(24):4773-4781

    57. [57]

      Zheng H, Li X, Jia Q. ACS Appl. Mater. Interfaces,2018,10(6):5909-5917

    58. [58]

      Sun Z, Qin H, Wang F, Cheng K, Dong M, Ye M, Zou H. Anal. Chem.,2012,84(20):8452-8456

    59. [59]

      Yang S J, Zhang H. Anal. Chem.,2012,84(5):2232-2238

    60. [60]

      Bai J, Liu Z, Wang H, You X, Ou J, Shen Y, Ye M. J. Chromatogr. A,2017,1498:37-45

    61. [61]

      Li H, Zhang X, Zhang L, Cheng W, Kong F, Fan D, Li L, Wang W. Anal. Chim. Acta,2017,985:91-100

    62. [62]

      Ren L, Liu Y, Dong M, Liu Z. J. Chromatogr. A,2009,1216(47):8421-8425

    63. [63]

      Liu Z, He H. Acc. Chem. Res.,2017,50(9):2185-2193

    64. [64]

      Li Q, Lu C, Liu Z. J. Chromatogr. A,2013,1305:123-130

    65. [65]

      Li H, Wang H, Liu Y, Liu Z. Chem. Commun.,2012, 48(34):4115-4117

    66. [66]

      Bie Z, Chen Y, Li H, Wu R, Liu Z. Anal. Chim. Acta, 2014,834:1-8

    67. [67]

      Li D, Li Y, Li X, Bie Z, Pan X, Zhang Q, Liu Z. J. Chromatogr. A,2015,1384:88-96

    68. [68]

      Dong Q, Chi S, Deng X, Lan Y, Peng C, Dong L, Wang X. Eur. Polym. J.,2018,100:270-277

    69. [69]

      Lin Z, Wang J, Tan X, Sun L, Yu R, Yang H, Chen G. J. Chromatogr. A,2013,1319:141-147

    70. [70]

      Zhou X, Mo C, Chen M, Huang Y, Liu Z. J. Chromatogr. A,2018,1581:8-15

    71. [71]

      Alpert A J. J. Chromatogr. A,1990,499:177-196

    72. [72]

      Xiong X, He H, Shu Y, Li Y, Yang Z, Chen Y, Ma M, Chen B. Talanta,2016,161:721-729

    73. [73]

      Ma S, Zhang L, Wang S, Zhang H, You X, Ou J, Ye M, Wei Y. Anal. Chim. Acta,2019,1058:97-106

    74. [74]

      Kohn M, Benito J M, Mellet C O, Lindhorst T K, Fernandez J M G. Chembiochem,2004,5(6):771-777

    75. [75]

      Zhong H, El Rassi Z. J. Sep. Sci.,2009,32(10):1642-1653

    76. [76]

      Zhang M, Wu P, Dou W T, Han H, He X, Tan C, Jiang Y. Chem. Commun.,2017, 53(41):5625-5628

    77. [77]

      Fujihashi M, Peapus D H, Kamiya N, Nagata Y, Miki K. Biochemistry,2003,42(38):11093-11099

    78. [78]

      Selvaraju S, El Rassi Z. J. Sep. Sci.,2012,35(14):1785-1795

    79. [79]

      ZHANG Li-Xia, DU Xiu-Fang, ZENG Ying. Acta Chimica Sinica,2016,74(2):149-154 张丽霞, 杜秀芳, 曾盈.化学学报,2016,74(2):149-154

    80. [80]

      Vidic U, Trbojevic Akmacic I, Cernigoj U, Albers M, Gaspersic J, Pucic-Bakovic M, Vidic J, Strancar A, Lauc G. Electrophoresis,2017,38(22-23):2922-2930

    81. [81]

      Tang Z, Liu X, Luan Y, Liu W, Wu Z, Li D, Chen H. Polym. Chem.,2013,4(22):5597-5602

  • 加载中
计量
  • PDF下载量:  3
  • 文章访问数:  35
  • HTML全文浏览量:  1
文章相关
  • 收稿日期:  2019-09-21
  • 修回日期:  2019-10-23
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

/

返回文章