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化学进展 2011

糖芯片最新研究进展

, PP. 1719-1727

郭佳效,侯信

Keywords: 糖芯片,糖生物学,固定化技术,虚拟筛选

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Abstract:

糖芯片是一种快速、高效、高通量获取糖-生物大分子相互作用信息的生物检测技术,对后基因组时代糖生物学的发展具有重大影响。本文主要论述了糖芯片固定化技术的最新进展,包括未经化学修饰的糖的化学固定,天然糖库及其固定,复杂寡糖的合成及其固定,糖基的密度差异固定化技术以及间隔基的引入技术。这些新的固定化技术保持了糖的化学结构,扩大了糖芯片的来源和应用范围,进一步提高了糖芯片的检测效率。此外,本文还介绍了虚拟筛选技术在这一领域的应用潜力以及糖芯片在医疗诊断等方面的应用,最后对糖芯片技术遇到的挑战和发展做了展望。

References

[1]	Uchiyama N, Kuno A, Tateno H, Kubo Y, Mizuno M, Noguchi M, Hirabayashi J. Proteomics, 2008, 8(15): 3042-3050
[2]	Hirabayashi J. J. Biochem., 2008, 144(2): 139-147
[3]	甘甜甜(Gan T T), 黄河(Huang H), 贾红英(Jia H Y), 侯信(Hou X). 化学进展(Progress in Chemistry), 2009, 21(4): 747-754
[4]	Wendeln C, Heile A, Arlinghaus H F, Ravoo B J. Langmuir, 2010, 26(7): 4933-4940
[5]	Ravoo B J. J. Mater. Chem., 2009, 19(47): 8902-8906
[6]	Ratner D M, Adams E W, Disney M D, Seeberger P H. Chembiochem, 2004, 5(10): 1375-1383
[7]	Blixt O, Hoffmann J, Svenson S, Norberg T. Glycoconjugate J., 2008, 25(1): 27-36
[8]	Parthasarathy N, Deshazer D, Peacock S J, Wuthiekanun V, England M J, Norris S L, Waag D M. J. Carbohydr. Chem., 2008, 27(1): 32-40
[9]	Moller I, Marcus S E, Haeger A, Verhertbruggen Y, Verhoef R, Schols H, Ulvskov P, Mikkelsen J D, Knox J P, Willats W. Glycoconjugate J., 2008, 25(1): 37-48
[10]	孔繁祚(Kong F Z). 糖化学(glycochemistry). 北京: 科学出版社(Beijing: Science Press), 2005. 613-615
[11]	Wang D N, Carroll G T, Turro N J, Koberstein J T, Kovac P, Saksena R, Adamo R, Herzenberg L A, Steinman L. Proteomics, 2007, 7(2): 180-184
[12]	Sharma P, Basir S F, Nahar P. J. Colloid Interface Sci., 2010, 342(1): 202-204
[13]	Song X Z, Lasanajak Y, Xia B Y, Smith D F, Cummings R D. ACS Chemical Biology, 2009, 4(9): 741-750
[14]	Tarentino A L, Plummer T H. Guide to Techniques in Glycobiology, 1994, 230: 44-57
[15]	Deng Y, Wang Y, Holtz B, Li J Y, Traaseth N, Veglia G, Stottrup B J, Elde R, Pei D Q, Guo A, Zhu X Y. J. Am. Chem. Soc., 2008, 130(19): 6267-6271
[16]	Ananthula R S, Ravikumar M, Pramod A B, Madala K K, Mahmood S K. J. Mol. Graph. Model., 2008, 27(4): 546-557
[17]	Stevens J, Blixt O, Paulson J C, Wilson I A. Nature Reviews Microbiology, 2006, 4(11): 857-864
[18]	Li Q, Anver M R, Butcher D O, Gildersleeve J C. Molecular Cancer Therapeutics, 2009, 8(4): 971-979
[19]	Sahabuddin S, Chang T C, Lin C C, Jan F D, Hsiao H Y, Huang K T, Chen J H, Horng J C, Ho J A, Lin C C. Tetrahedron, 2010, 66(38): 7510-7519
[20]	Wang C C, Huang Y L, Ren C T, Lin C W, Hung J T, Yu J C, Yu A L, Wu C Y, Wong C H. Proc. Natl. Acad. Sci., 2008, 105(33): 11661-11666
[21]	Hsu K L, Mahal L K. Curr. Opin. Chem. Biol., 2009, 13(4): 427-432
[22]	Oberli M A, Tamborrini M, Tsai Y H, Werz D B, Horlacher T, Adibekian A, Gauss D, Moller H M, Pluschke G, Seeberger P H. J. Am. Chem. Soc., 2010, 132(30): 10239-10241
[23]	黄河(Huang H), 贾红英(Jia H Y), 侯信(Hou X). 化学通报(Chemistry), 2009, (5): 401-406
[24]	薛彦峰(Xue Y F), 王秀奎(Wang X K), 侯信(Hou X), 姚康德(Yao K D). 化学进展(Progress in Chemistry), 2008, 20(1): 149-154
[25]	陈忠斌(Chen Z B). 糖芯片技术(Glycochip Technology). 北京: 化学工业出版社(Beijing: Chemical Industry Press), 2005. 178-179
[26]	Houseman B T, Mrksich M. Chem. Biol., 2002, 9(4): 443-454
[27]	Mamidyala S K, Ko K S, Jaipuri F A, Park G, Pohl N L. J. Fluorine Chem., 2006, 127(4/5): 571-579
[28]	Zhou X C, Zhou J H. Biosens. Bioelectron., 2006, 21(8): 1451-1458
[29]	Park S, Lee M R, Shin I. Bioconjugate Chem., 2009, 20(1): 155-162
[30]	Oyelaran O, Gildersleeve J C. Curr. Opin. Chem. Biol., 2009, 13(4): 406-413
[31]	Patel T P, Parekh R B. Guide to Techniques in Glycobiology, 1994, 230: 57-66
[32]	Song X Z, Lasanajak Y, Rivera-Marrero C, Luyai A, Willard M, Smith D F, Cummings R D. Anal. Biochem., 2009, 395(2): 151-160
[33]	Feizi T, Fazio F, Chai W C, Wong C H. Curr. Opin. Struc. Biol., 2003, 13(5): 637-645
[34]	Bernardes G J L, Castagner B, Seeberger P H. ACS Chemical Biology, 2009, 4(9): 703-713
[35]	Werz D B, Castagner B, Seeberger P H. J. Am. Chem. Soc., 2007, 129(10): 2770-2771
[36]	Codee J D C, Krock L, Castagner B, Seeberger P H. Chem. A Eur. J., 2008, 14(13): 3987-3994
[37]	Serna S, Etxebarria J, Ruiz N, Martin-Lonmas M, Reichardt N C. Chem. Eur. J., 2010, 16: 13163-13175
[38]	Ban L, Mrksich M. Angew. Chem. Int. Ed., 2008, 47(18): 3396-3399
[39]	Matsushita T, Nagashima I, Fumoto M, Ohta T, Yamada K, Shimizu H, Hinou H, Naruchi K, Ito T, Kondo H, Nishimura S I. J. Am. Chem. Soc., 2010, 132(46): 16651-16656
[40]	Jaipuri F A, Pohl N L. Organic & Biomolecular Chemistry, 2008, 6(15): 2686-2691
[41]	Mammen M, Choi S K, Whitesides G M. Angew. Chem. Int. Ed., 1998, 37(20): 2755-2794
[42]	Fukuda T, Onogi S, Miura Y. Thin Solid Films, 2009, 518(2): 880-888
[43]	Oyelaran O, Li Q, Farnsworth D, Gildersleeve J C. Journal of Proteome Research, 2009, 8(7): 3529-3538
[44]	Zhu X Y, Holtz B, Wang Y N, Wang L X, Orndorff P E, Guo A. J. Am. Chem. Soc., 2009, 131(38): 13646-13650
[45]	Linman M J, Yu H, Chen X, Cheng Q. ACS Appl. Mater. Interfaces, 2009, 1(8): 1755-1762
[46]	Katrlik J, Svitel J, Gemeiner P, Kozar T, Tkac J. Med. Res. Rev., 2010, 30(2): 394-418
[47]	Alvarez J C. Curr. Opin. Chem. Biol., 2004, 8(4): 365-370
[48]	Liu Z, Li X, Ding X, Yang Y. Appl. Biochem. Biotech., 2010, 162(1): 134-145
[49]	Schallus T, Jaeckh C, Feher K, Palma A S, Liu Y, Simpson J C, Mackeen M, Stier G, Gibson T J, Feizi T, Pieler T, Muhle-Goll C. Mol. Biol. Cell, 2008, 19(8): 3404-3414
[50]	Blixt O, Head S, Mondala T, Scanlan C, Huflejt M E, Alvarez R, Bryan M C, Fazio F, Calarese D, Stevens J, Razi N, Stevens D J, Skehel J J, Van Die I, Burton D R, Wilson I A, Cummings R, Bovin N, Wong C H, Paulson J C. Proc. Natl. Acad. Sci., 2004, 101(49): 17033-17038
[51]	Kamena F, Tamborrini M, Liu X Y, Kwon Y U, Thompson F, Pluschke G, Seeberger P H. Nature Chemical Biology, 2008, 4(4): 238-240
[52]	Blixt O, Kumagai-Braesch M, Tibell A, Groth C G, Holgersson J. Am. J. Transplant, 2009, 9(1): 83-90

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