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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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仿病毒衣壳自组装体及其生物医学应用
DOI: 10.3724/SP.J.1105.2012.12151, PP. 1128-1135
Keywords: 生物启发型自组装,仿病毒衣壳,药物/基因传递系统,肽类自组装体
Abstract:
仿病毒衣壳结构自组装体具有重要的基础研究和应用价值,是化学、材料、生物医学等多学科前沿交叉领域.本文从天然病毒衣壳的基本结构和特征出发,立足于从结构仿生到功能仿生的角度,综述了以天然病毒衣壳蛋白质和人工合成材料为组装基元构建仿病毒衣壳自组装体的策略,及其形态结构的调控和功能优化等.重点论述了近年来合成肽类分子在仿病毒衣壳自组装体结构和功能方面的进展.同时,就仿病毒衣壳自组装体在药物控释、基因传递等生物医学领域的应用也做了论述.
| [1] | 3 Whitesides GM,Grzybowski B.Science,2002,295:2418~2421
|
| [2] | 4 Mann S.Angew Chem Int Ed,2008,47:5306~5320
|
| [3] | 5 Meierhenrich U J,Filippi J J,Meinert C,Vierling P,Dworkin J P.Angew Chem Int Ed,2010,49:3738~3750
|
| [4] | 11 Hou X,Zhang H,Jiang L.Angew Chem Int Ed,2012,51:5296~5307
|
| [5] | 12 Liu K,Yao X,Jiang L.Chem Soc Rev,2010,39:3240~3255
|
| [6] | 13 Liu K,Jiang L.ACS Nano,2011,5:6786~6790
|
| [7] | 14 Yoo J-W,Irvine D J,Discher D E,Mitragotri S.Nat Rev Drug Discov,2011,10:521~535
|
| [8] | 15 Mann S.Nat Mater,2009,8:781~792
|
| [9] | 16 Zuber G,Dauty E,Nothisen M,Belguise P,Behr J P.Adv Drug Delivery Rev,2001,52:245~253
|
| [10] | 17 Fischlechner M,Donath E.Angew Chem Int Ed,2007,46:3184~3193
|
| [11] | 18 Nguyen H D,Reddy V S,Brooks Iii C L.J Am Chem Soc,2009,131:2606~2614
|
| [12] | 21 Su Z,Wang Q.Angew Chem Int Ed,2010,49:10048~10050
|
| [13] | 23 Grigoryan G,Kim Y H,Acharya R,Axelrod K,Jain R M,Willis L,Drndic M,Kikkawa J M,DeGrado W F.Science,2011,332:1071~1076
|
| [14] | 24 Ahmed F,Photos P J,Discher D E.Drug Develop Res,2006,67:4~14
|
| [15] | 26 LoPresti C,Lomas H,Massignani M,Smart T,Battaglia G.J Mater Chem,2009,19:3576~3590
|
| [16] | 28 Pokorski J K,Breitenkamp K,Liepold L O,Qazi S,Finn M G.J Am Chem Soc,2011,133:9242~9245
|
| [17] | 29 Kostiainen M A,Kasyutich O,Cornelissen J J L M,Nolte R J M.Nat Chem,2010,2:394~399
|
| [18] | 30 Kwak M,Minten I J,Anaya D M,Musser A J,Brasch M,Nolte R J M,Müllen K,Cornelissen J J L M,Herrmann A.J Am Chem Soc,2010,132:7834~7835
|
| [19] | 31 Liu Xiaoxia(刘晓霞),Jiang Ming(江明).Acta Polymerica Sinica(高分子学报),2011,(9):1007~1019
|
| [20] | 36 Hartgerink J D,Beniash E,Stupp S I.Science,2001,294:1684~1688
|
| [21] | 37 Hadjichristidis N,Iatrou H,Pitsikalis M,Sakellariou G.Chem Rev,2009,109:5528~5578
|
| [22] | 38 Sun H,Meng F,Dias A A,Hendriks M,Feijen J,Zhong Z.Biomacromolecules,2011,12:1937~1955
|
| [23] | 39 Gabrielson NP,Lu H,Yin L,Li D,Wang F,Cheng J.Angew Chem Int Ed,2012,51:1143~1147
|
| [24] | 42 Xu X,Yuan H,Chang J,He B,Gu Z.Angew Chem Int Ed,2012,51:3130~3133
|
| [25] | 43 Boato F,Thomas R M,Ghasparian A,Freund-Renard A,Moehle K,Robinson J A.Angew Chem Int Ed,2007,46:9015~9018
|
| [26] | 47 Gu Zhongwei(顾忠伟),Luo Kui(罗奎),She Wenchuan(佘汶川),Wu Yao(吴尧),He Bin(何斌).Science China Chemistry(中国科学.化学),2010,53:458~478
|
| [27] | 49 Brasch M,de la Escosura As,Ma Y,Uetrecht C,Heck A J R,Torres T,Cornelissen J J L M.J Am Chem Soc,2011,133:6878~6881
|
| [28] | 51 Xu Xianghui(徐翔晖),Li Caixia(李彩侠),Li Haiping(李海平),Liu Rong(刘荣),Jiang Chao(江超),Wu Yao(吴尧),He Bin(何斌),Gu Zhongwei(顾忠伟).Science China Chemistry(中国科学,化学),2011,54:326~333
|
| [29] | 52 Nam Y S,Shin T,Park H,Magyar A P,Choi K,Fantner G,Nelson K A,Belcher A M.J Am Chem Soc,2010,132:1462~1463
|
| [30] | 1 Philp D, Stoddart J F.Angew Chem Int Ed,1996,35:1155~1196
|
| [31] | 2 Percec V,Ungar G,Peterca M.Science,2006,313:55~56
|
| [32] | 6 Service R F.Science,2005,309:95
|
| [33] | 7 Budin I,Bruckner R J,Szostak J W.J Am Chem Soc,2009,131:9628~9629
|
| [34] | 8 Szostak J W.Angew Chem Int Ed,2010,49:7386~7404
|
| [35] | 9 Szostak J W,Bartel D P,Luisi P L.Nature,2001,409:387~390
|
| [36] | 10 Hou X,Jiang L.ACS Nano,2009,3:3339~3342
|
| [37] | 19 Bourne C R,Katen S P,Fulz M R,Packianathan C,Zlotnick A.Biochemistry,2009,48:1736~1742
|
| [38] | 20 Olson A J,Hu YHE,Keinan E.Proceedings of the National Academy of Sciences,2007,104:20731~20736
|
| [39] | 22 Ma Y,Nolte R J M,Cornelissen J J L M.Adv Drug Delivery Rev,2012,64:811~825
|
| [40] | 25 Discher D E,Eisenberg A.Science,2002,297:967~973
|
| [41] | 27 Bromley EHC,Channon K,Moutevelis E,Woolfson D N.ACS Chemical Biology,2008,3:38~50
|
| [42] | 32 Bunzen J,Iwasa J,Bonakdarzadeh P,Numata E,Rissanen K,Sato S,Fujita M.Angew Chem Int Ed,2012,51:3161~3163
|
| [43] | 33 Stefankiewicz A R,Sanders J K M.Science,2010,328:1115~1116
|
| [44] | 34 Deechongkit S,Powers E T,You S L,Kelly J W.J Am Chem Soc,2005,127:8562~8570
|
| [45] | 35 Dreher M R,Simnick A J,Fischer K,Smith R J,Patel A,Schmidt M,Chilkoti A.J Am Chem Soc,2007,130:687~694
|
| [46] | 40 Garanger E,Lecommandoux S.Angew Chem Int Ed,2012,51:3060~3062
|
| [47] | 41 Lim Y B,Lee E,Yoon Y R,Lee M S,Lee M.Angew Chem Int Ed,2008,120:4601~4604
|
| [48] | 44 Schatz C,Louguet S,Le Meins J F,Lecommandoux S.Angew Chem Int Ed,2009,48:2572~2575
|
| [49] | 45 Liu R,Li D,He B,Xu X,Sheng M,Lai Y,Wang G,Gu Z.J Controlled Release,2011,152:49~56
|
| [50] | 46 Lee E S,Gao Z,Bae Y H.J Controlled Release,2008,132:164~170
|
| [51] | 48 Luo K,Li C,Wang G,Nie Y,He B,Wu Y,Gu Z W.J Controlled Release,2011,155:77~87
|
| [52] | 50 Cadena-Nava R D,Hu Y,Garmann R F,Ng B,Zelikin A N,Knobler C M,Gelbart W M.The Journal of Physical Chemistry B,2011,115:2386~2391
|
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