光控技术具有非物理接触和时空分辨等优势.光扳机分子是一类重要的光响应分子,它具有光激活、光剪切和光释放三大基本功能,是构筑光控材料的核心元件之一.随着光控技术的应用(尤其在生命领域)不断拓展,对光响应分子特别是光扳机分子提出了新的要求和挑战.本文重点介绍了典型的光扳机分子的种类、基本工作原理以及近年来光扳机分子在生物和材料领域中的应用研究进展.
参考文献
| [1] | Clara Brieke;Falk Rohrbach;Alexander Gottschalk .Light-Controlled Tools[J].Angewandte Chemie,2012(34):8446-8476. |
| [2] | Pelliccioli A P;Wirz J .Photoremovable protecting groups:reaction mechanisms and applications[J].Photochemical &Photobiological Sciences,2002,1(07):441-458. |
| [3] | Patchornik A;Amit B;Woodward R B .Photosensitive protecting groups[J].Journal of the American Chemical Society,1970,92(21):6333-6335. |
| [4] | Walker JW;ReidGP;MccrayJ A;TrenthamDR .Photolabile 1-(2-nitrophenyl) ethyl phosphate-esters of adeninenucleotide analogs-synthesis and mechanism of photolysis[J].Journal of the American Chemical Society,1988,110(21):7170-7177. |
| [5] | Andreas Barth;John E. T. Corrie;Michael J. Gradwell .Time-Resolved Infrared Spectroscopy of Intermediates and Products from Photolysis of 1-(2-Nitrophenyl)ethyl Phosphates: Reaction of the 2-Nitrosoacetophenone Byproduct with Thiols[J].Journal of the American Chemical Society,1997(18):4149-4159. |
| [6] | Christopher P.Holmes .Model studies for new o-nitrobenzyl photolabile linkers: substituent effects on the rates of photochemical cleavage[J].The Journal of Organic Chemistry,1997(8):2370-2380. |
| [7] | Pease A C;Solas D;Sullivan E J;Cronin M T Holmes C P Fodor S P .Light-generated oligonucleotide arrays for rapid DNA sequence analysis[J].Proceedings of the National Academy of Sciences,1994,91(11):5022-5026. |
| [8] | Wieboldt R.;Ramesh D.;Jabri E.;Karplus PA.;Carpenter BK.;Hess GP. .Synthesis and characterization of photolabile o-nitrobenzyl derivatives of urea[J].The Journal of Organic Chemistry,2002(25):8827-8831. |
| [9] | Russell, A.G.;Ragoussi, M.-E.;Ramalho, R.;Wharton, C.W.;Carteau, D.;Bassani, D.M.;Snaith, J.S. .α-Carboxy-6-nitroveratryl: A photolabile protecting group for carboxylic acids[J].The Journal of Organic Chemistry,2010(13):4648-4651. |
| [10] | Klaus Schaper;S. Abdollah Madani Mobarekeh;Christof Grewer .Synthesis and Photophysical Characterization of a New, Highly Hydrophilic Caging Group[J].European journal of organic chemistry,2002(6):1037-1046. |
| [11] | Pirrung M C;Lee Y R;Park K;Springer J B .Pentadienylnitrobenzyl and pentadienylnitropiperonyl photochemically removable protecting groups[J].The Journal of Organic Chemistry,1999,64(14):5042-5047. |
| [12] | Anil K. Singh;Prashant K. Khade .7-Methoxy-3-nitro-2-naphthalenemethanol-a new phototrigger for caging applications[J].Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry,2011(38):4899-4902. |
| [13] | Momotake A;Lindegger N;Niggli E;Barsotti RJ;Ellis-Davies GCR .The nitrodibenzofuran chromophore: a new caging group for ultra-efficient photolysis in living cells[J].Nature methods,2006(1):35-40. |
| [14] | Givens RS.;Park CH. .P-HYDROXYPHENACYL ATP - A NEW PHOTOTRIGGER[J].Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry,1996(35):6259-6262. |
| [15] | Richard S. Givens;Andreas Jung;Chan-Ho Park .New Photoactivated Protecting Groups. 7. p-Hydroxyphenacyl: A Phototrigger for Excitatory Amino Acids and Peptides[J].Journal of the American Chemical Society,1997(35):8369-8370. |
| [16] | Givens RS.;Conrad PG.;Orosz G.;Donahue SL.;Thayer SA.;Weber JFW. .New phototriggers 9: p-hydroxyphenacyl as a C-terminal photoremovable protecting group for oligopeptides[J].Journal of the American Chemical Society,2000(12):2687-2697. |
| [17] | Zhang K;Corrie J E T;Munasinghe V R N;Wan P .Mechanism of photosolvolytic rearrangement of p-hydroxyphenacyl esters:evidence for excited-state intramolecular proton transfer as the primary photochemical step[J].Journal of the American Chemical Society,1999,121(24):5625-5632. |
| [18] | Conrad P G;Givens R S;Weber J F W;Kandler K .New phototriggers:lextending the p-hydroxyphenacyl π-π* absorption range[J].Organic Letters,2000,2(11):1545-1547. |
| [19] | Barltrop J;Schofield P .Photosensitive protecting groups[J].Tetrahedron Letters,1962,3(16):697-699. |
| [20] | Misetic A;Boyd M K .The pixyl (Px) group:a novel photocleavable protecting group for primary alcohols[J].Tetrahedron Letters,1998,39(13):1653-1656. |
| [21] | Coleman MP.;Boyd MK. .S-pixyl analogues as photocleavable protecting groups for nucleosides[J].The Journal of Organic Chemistry,2002(22):7641-7648. |
| [22] | Furuta T;Torigai H;Osawa T;Iwamura M .New photochemically labile protecting group for phosphates[J].Chemistry Letters,1993,22(07):1179-1182. |
| [23] | Toshiaki Furuta;Yuuki Hirayama;Michiko Iwamura .Anthraquinon-2-ylmethoxycarbonyl (aqmoc):a new photochemically removable protecting group for alcohols[J].Organic letters,2001(12):1809-1812. |
| [24] | Arumugam, Selvanathan;Popik, Vladimir V. .Photochemical Generation and the Reactivity of o-Naphthoquinone Methides in Aqueous Solutions[J].Journal of the American Chemical Society,2009(33):11892-11899. |
| [25] | Arumugam, S.;Popik, V.V. .Attach, remove, or replace: Reversible surface functionalization using thiol-quinone methide photoclick chemistry[J].Journal of the American Chemical Society,2012(20):8408-8411. |
| [26] | Olesya D. Fedoryak;Timothy M. Dore .Brominated Hydroxyquinoline as a Photolabile Protecting Group with Sensitivity to Multiphoton Excitation[J].Organic letters,2002(20):3419-3422. |
| [27] | Yue Zhu;Christopher M.Pavlos;John P.Toscano;Timothy M.Dore .8-Bromo-7-hydroxyquinoline as a Photoremovable Protecting Group for Physiological Use: Mechanism and Scope[J].Journal of the American Chemical Society,2006(13):4267-4276. |
| [28] | Davis MJ;Kragor CH;Reddie KG;Wilson HC;Zhu Y;Dore TM .Substituent Effects on the Sensitivity of a Quinoline Photoremovable Protecting Group to One- and Two-Photon Excitation[J].The Journal of Organic Chemistry,2009(4):1721-1729. |
| [29] | Givens R S;Matuszewski B .Photochemistry of phosphate esters:an efficient method for the generation of electrophiles[J].Journal of the American Chemical Society,1984,106(22):6860-6861. |
| [30] | Schultz C .Molecular tools for cell and systems biology[J].HFSP Journal,2007,1(04):230-248. |
| [31] | Richard S. Givens;Marina Rubina;Jakob Wirz .Applications of p-hydroxyphenacyl (pHP) and coumarin-4-ylmethyl photoremovable protecting groups[J].Photochemical & photobiological sciences: the official journal of the European Photochemistry Association and the European Society for Photobiology,2012(3):472-488. |
| [32] | Reinhard Schmidt;Daniel Geissler;Volker Hagen .Mechanism of Photocleavage of (Coumarin-4-yl)methyl Esters[J].The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory,2007(26):5768-5774. |
| [33] | Schmidt R;Geissler D;Hagen V;Bendig J .Kinetics study of the photocleavage of (coumarin-4-yl)methyl esters[J].The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory,2005(23):5000-5004. |
| [34] | Naoko Senda;Atsuya Momotake;Yoshinobu Nishimura .Synthesis and Photochemical Properties of a New Water-Soluble Coumarin,Designed as a Chromophore for Highly Water-Soluble and Photolabile Protecting Group[J].Bulletin of the Chemical Society of Japan,2006(11):1753-1757. |
| [35] | Schade B;Hagen V;Schmidt R;Herbrich R,Krause E,Eckardt T,Bendig J .Deactivation behavior and excitedstate properties of (coumarin-4-yl) methyl derivatives.1.Photocleavage of (7-methoxycoumarin-4-yl) methyl-caged acids with fluorescence enhancement[J].The Journal of Organic Chemistry,1999,64(25):9109-9117. |
| [36] | Toshiaki Furuta;Takayoshi Watanabe;Satoshi Tanabe .Phototriggers for Nucleobases with Improved Photochemical Properties[J].Organic letters,2007(23):4717-4720. |
| [37] | Kotzur, N;Briand, B;Beyermann, M;Hagen, V .Wavelength-Selective Photoactivatable Protecting Groups for Thiols[J].Journal of the American Chemical Society,2009(46):16927-16931. |
| [38] | Fonseca ASC;Goncalves MST;Costa SPG .Photocleavage studies of fluorescent amino acid conjugates bearing different types of linkages[J].Tetrahedron,2007(6):1353-1359. |
| [39] | Akinobu Z. Suzuki;Takayoshi Watanabe;Mika Kawamoto;Keiko Nishiyama;Hirotaka Yamashita;Megumi Ishii;Michiko Iwamura;Toshiaki Furuta .Coumarin-4-ylmethoxycarbonyls as Phototriggers for Alcohols and Phenols[J].Organic letters,2003(25):4867-4870. |
| [40] | Hagen, V.;Kilic, F.;Schaal, J.;Dekowski, B.;Schmidt, R.;Kotzur, N. .[8-[Bis(carboxymethyl)aminomethyl]-6-bromo-7-hydroxycoumarin-4-yl]methyl Moieties as photoremovable protecting groups for compounds with COOH, NH _2, OH, and C-O functions[J].The Journal of Organic Chemistry,2010(9):2790-2797. |
| [41] | Rajesh Subramaniam;Ying Xiao;Yunjing Li .Light-mediated and H-bond facilitated liposomal release: the role of lipid head groups in release efficiency[J].Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry,2010(3):529-532. |
| [42] | Ryan G.Wylie;Molly S.Shoichet;Molly S.Shoichet .Two-photon micropatterning of amines within an agarose hydrogel[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2008(23):2716-2721. |
| [43] | Klán, P.;?olomek, T.;Bochet, C.G.;Blanc, A.;Givens, R.;Rubina, M.;Popik, V.;Kostikov, A.;Wirz, J. .Photoremovable protecting groups in chemistry and biology: Reaction mechanisms and efficacy[J].Chemical Reviews,2013(1):119-191. |
| [44] | Eckardt T.;Hagen V.;Schade B.;Schmidt R.;Schweitzer C.;Bendig J. .Deactivation Behavior and excited-state properties of (coumarin-4-yl)methyl derivatives. 2. Photocleavage of selected (coumarin-4-yl)methyl-Caged adenosine cyclic 3 ',5 '-monophosphates with fluorescence enhancement[J].The Journal of Organic Chemistry,2002(3):703-710. |
| [45] | Daniel Geibler;Wolfgang Kresse;Burkhard Wiesner;Jurgen Bendig;Helmut Kettenmann;Volker Hagen .DMACM-Caged Adenosine Nucleotides: Ultrafast Phototriggers for ATP, ADP, and AMP Activated by Long-Wavelength Irradiation[J].Chembiochem: A European journal of chemical biology,2003(2/3):162-170. |
| [46] | Curten B;Kullmann PHM;Bier ME;Kandler K;Schmidt BF .Synthesis, photophysical, photochemical and biological properties of caged GABA, 4-[[(2H-1-benzopyran-2-one-7-amino-4-methoxy)carbonyl] amino] butanoic acid[J].Photochemistry and Photobiology: An International Journal,2005(3):641-648. |
| [47] | Fernandes MJG;Goncalves MST;Costa SPG .Comparative study of polyaromatic and polyheteroaromatic fluorescent photocleavable protecting groups[J].Tetrahedron,2008(13):3032-3038. |
| [48] | Takaoka K;Yumoto N;Shimamoto K .Synthesis of carbamate-type caged derivatives of a novel glutamate transporter blocker.[J].Bioorganic and medicinal chemistry,2004(13):3687-3694. |
| [49] | Volker Hagen;Stephan Frings;Jurgen Bending;Dorothea Lorenz;Burkhard Wiesner;U. Benjamin Kaupp .Fluorescence Spectroscopic Quantification of the Release of Cyclic Nucleotides from Photocleavable [Bis(carboxymethoxy)coumarin-4-yl]methyl Esters inside Cells[J].Angewandte Chemie International Edition,2002(19):3625-3628. |
| [50] | Piloto AM;Rovira D;Costa SPG;Goncalves MST .Oxobenzo[f]benzopyrans as new fluorescent photolabile protecting groups for the carboxylic function[J].Tetrahedron,2006(51):11955-11962. |
| [51] | Fernandes MJG;Goncalves MST;Costa SPG .Neurotransmitter amino acid-oxobenzo [f]benzopyran conjugates: synthesis and photorelease studies[J].Tetrahedron,2008(49):11175-11179. |
| [52] | Fernandes, M.J.G.;Costa, S.P.G.;Gonalves, M.S.T. .Phototriggering of neuroactive amino acids from 5,6-benzocoumarinyl conjugates[J].Tetrahedron,2011(13):2422-2426. |
| [53] | Qiuning Lin;Chunyan Bao;Guanshui Fan .7-Amino coumarin based fluorescent phototriggers coupled with nano/bio-conjugated bonds: Synthesis, labeling and photorelease[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2012(14):6680-6688. |
| [54] | Alfred Vogel;Vasan Venugopalan .Mechanisms of Pulsed Laser Ablation of Biological Tissues[J].Chemical Reviews,2003(2):577-644. |
| [55] | Dougherty T J .Photochemistry in the treatment of cancer[J].Advances in Photochemistry,1992,17:275-311. |
| [56] | Weissleder R;Ntziachristos V .Shedding light onto live molecular targets[J].Nature Medicine,2003,9(01):123-128. |
| [57] | Juzenas P;Juzeniene A;Kaalhus O;Iani V Moan J .Noninvasive fluorescence excitation spectroscopy during application of 5-aminolevulinic acid in vivo[J].Photochemical & Photobiological Sciences,2002,1(10):745-748. |
| [58] | Furuta T;Wang SS;Dantzker JL;Dore TM;Bybee WJ;Callaway EM;Denk W;Tsien RY .Brominated 7-hydroxycoumarin-4-ylmethyls: photolabile protecting groups with biologically useful cross-sections for two photon photolysis.[J].Proceedings of the National Academy of Sciences of the United States of America,1999(4):1193-1200. |
| [59] | Denk W.Two-photon Molecular Excitation in Laser-scanning Microscopy[M].Handbook of Biological Confocal Microscopy,1995:445-458. |
| [60] | Christopher N.LaFratta;John T.Fourkas;Tommaso Baldacchini .Multiphoton Fabrication[J].Angewandte Chemie,2007(33):6238-6258. |
| [61] | Specht A;Thomann JS;Alarcon K;Wittayanan W;Ogden D;Furuta T;Kurakawa Y;Goeldner M .New photoremovable protecting groups for carboxylic acids with high photolytic efficiencies at near-UV irradiation. Application to the photocontrolled release of L-glutamate[J].Chembiochem: A European journal of chemical biology,2006(11):1690-1695. |
| [62] | Gug S;Charon S;Specht A;Alarcon K;Ogden D;Zietz B;Leonard J;Haacke S;Bolze F;Nicoud JF .Photolabile glutamate protecting group with high one- and two-photon uncaging efficiencies[J].Chembiochem: A European journal of chemical biology,2008(8):1303-1307. |
| [63] | Gug S;Bolze F;Specht A;Bourgogne C Goeldner M Nicoud J F .Molecular engineering of photoremovable protecting groups for two-photon uncaging[J].Angewandte Chemie,2008,120(49):9667-9671. |
| [64] | Warther, D;Bolze, F;Leonard, J;Gug, S;Specht, A;Puliti, D;Sun, XH;Kessler, P;Lutz, Y;Vonesch, JL;Winsor, B;Nicoud, JF;Goeldner, M .Live-Cell One- and Two-Photon Uncaging of a Far-Red Emitting Acridinone Fluorophore[J].Journal of the American Chemical Society,2010(8):2585-2590. |
| [65] | Min Lu;Olesya D. Fedoryak;Brent R. Moister;Timothy M. Dore .Bhc-diol as a Photolabile Protecting Group for Aldehydes and Ketones[J].Organic letters,2003(12):2119-2122. |
| [66] | Bao, C.;Fan, G.;Lin, Q.;Li, B.;Cheng, S.;Huang, Q.;Zhu, L. .Styryl conjugated coumarin caged alcohol: Efficient photorelease by either one-photon long wavelength or two-photon NIR excitation[J].Organic letters,2012(2):572-575. |
| [67] | Gagey N;Neveu P;Benbrahim C;Goetz B;Aujard I;Baudin JB;Jullien L .Two-photon uncaging with fluorescence reporting: Evaluation of the o-hydroxycinnamic platform[J].Journal of the American Chemical Society,2007(32):9986-9998. |
| [68] | Lin, Q.;Huang, Q.;Li, C.;Bao, C.;Liu, Z.;Li, F.;Zhu, L. .Anticancer drug release from a mesoporous silica based nanophotocage regulated by either a one- or two-photon process[J].Journal of the American Chemical Society,2010(31):10645-10647. |
| [69] | Zhao Y;Zheng Q;Dakin K;Xu K,Martinez M L,Li W H .New caged coumarin fluorophores with extraordinary uncaging cross sections suitable for biological imaging applications[J[[J].Journal of the American Chemical Society,2004,126(14):4653-4663. |
| [70] | Genhua Zheng;Yan-Ming Guo;Wen-Hong Li .Photoactivatable and Water Soluble FRET Dyes with High Uncaging Cross Section[J].Journal of the American Chemical Society,2007(35):10616-10617. |
| [71] | Kobayashi, T;Urano, Y;Kamiya, M;Ueno, T;Kojima, H;Nagano, T .Highly activatable and rapidly releasable caged fluorescein derivatives[J].Journal of the American Chemical Society,2007(21):6696-6697. |
| [72] | Mitchison T;Sawin K;Theriot J;Gee K Mallavarapu A .Caged fluorescent probes[J].Methods in Enzymology,1998,291:63-78. |
| [73] | Ottl J;Gabriel D;Marriott G .Preparation and photoactivation of caged fluorophores and caged proteins using a new class of heterobifunctional,photocleavable cross-linking reagents[J].BIOCONJUGATE CHEMISTRY,1998,9(02):143-151. |
| [74] | Tang XJ;Dmochowski IJ .Phototriggering of caged fluorescent oligodeoxynucleotides[J].Organic letters,2005(2):279-282. |
| [75] | Jean-Philippe Pellois;Michael E.Hahn;Tom W.Muir .Simultaneous Triggering of Protein Activity and Fluorescence[J].Journal of the American Chemical Society,2004(23):7170-7171. |
| [76] | Maurel, D.;Banala, S.;Laroche, T.;Johnsson, K. .Photoactivatable and photoconvertible fluorescent probes for protein labeling[J].ACS Chemical Biology,2010(5):507-516. |
| [77] | Dakin K;Zhao Y;Li W-H .LAMP,a new imaging assay of gap junctional communication unveils that Ca2+ influx inhibits cell coupling[J].Nature Methods,2004,2(01):55-62. |
| [78] | Yan-Ming Guo;Shiuhwei Chen;Premnath Shetty;Genhua Zheng;Rueyling Lin;Wen-hong Li .Imaging dynamic cell-cell junctional coupling in vivo using Trojan-LAMP[J].Nature methods,2008(9):835-841. |
| [79] | Rust MJ;Bates M;Zhuang XW .Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM)[J].Nature methods,2006(10):793-795. |
| [80] | Zhang, M.;Chang, H.;Zhang, Y.;Yu, J.;Wu, L.;Ji, W.;Chen, J.;Liu, B.;Lu, J.;Liu, Y.;Zhang, J.;Xu, P.;Xu, T. .Rational design of true monomeric and bright photoactivatable fluorescent proteins[J].Nature methods,2012(7):727-729. |
| [81] | Subach, FV;Patterson, GH;Manley, S;Gillette, JM;Lippincott-Schwartz, J;Verkhusha, VV .Photoactivatable mCherry for high-resolution two-color fluorescence microscopy[J].Nature methods,2009(2):153-159. |
| [82] | Biteen JS;Thompson MA;Tselentis NK;Bowman GR;Shapiro L;Moerner WE .Super-resolution imaging in live Caulobacter crescentus cells using photoswitchable EYFP[J].Nature methods,2008(11):947-949. |
| [83] | Gurskaya NG;Verkhusha VV;Shcheglov AS;Staroverov DB;Chepurnykh TV;Fradkov AF;Lukyanov S;Lukyanov KA .Engineering of a monomeric green-to-red photoactivatable fluorescent protein induced by blue light[J].Nature biotechnology,2006(4):461-465. |
| [84] | Bates M;Huang B;Dempsey G T;Zhuang X .Multicolor super-resolution imaging with photo-switchable fluorescent probes[J].SCIENCE,2007,317(5845):1749-1753. |
| [85] | Bates M;Blosser TR;Zhuang XW .Short-range spectroscopic ruler based on a single-molecule optical switch[J].Physical review letters,2005(10):8101-1-8101-4-0. |
| [86] | J.Foiling;V.Belov;R.Kunetsky .Photochromic Rhodamines Provide Nanoscopy with Optical Sectioning[J].Angewandte Chemie,2007(33):6266-6270. |
| [87] | Kaplan J H;Forbush Ⅲ B;Hoffman J F .Rapid photolytic release of adenosine 5'-triphosphate from a protected analog:utilization by the sodium:potassium pump of human red blood cell ghosts[J].Biochemistry,1978,17(10):1929-1935. |
| [88] | Strunker T;Weyand I;Bonigk W;Van Q;Loogen A;Brown JE;Kashikar N;Hagen V;Krause E;Kaupp UB .A K+-selective cGMP-gated ion channel controls chemosensation of sperm[J].Nature cell biology,2006(10):1149-1154. |
| [89] | Graham C. R. Ellis-Davies .Neurobiology with Caged Calcium[J].Chemical Reviews,2008(5):1603-1613. |
| [90] | Matsuzaki M;Hayama T;Kasai H;Ellis-Davies G C .Two-photon uncaging of 7-aminobutyric acid in intact brain tissue[J].Nature Chemical Biology,2010,6(04):255-257. |
| [91] | Kantevari S;Matsuzaki M;Kanemoto Y;Kasai H EllisDavies G C .Two-color,two-photon uncaging of glutamate and GABA[J].Nature Methods,2009,7(02):123-125. |
| [92] | Srinivas Kantevari;Yossi Buskila;Graham C. R. Ellis-Davies .Synthesis and characterization of cell-permeant 6-nitrodibenzofuranyl-caged IP3[J].Photochemical & photobiological sciences: the official journal of the European Photochemistry Association and the European Society for Photobiology,2012(3):508-513. |
| [93] | Subramanian, D;Laketa, V;Muller, R;Tischer, C;Zarbakhsh, S;Pepperkok, R;Schultz, C .Activation of membrane-permeant caged PtdIns(3)P induces endosomal fusion in cells[J].Nature chemical biology,2010(5):324-326. |
| [94] | Matthias Mentel;Vibor Laketa;Devaraj Subramanian .Photoactivatable and Cell-Membrane-Permeable Phosphatidylinositol 3,4,5-Trisphosphate[J].Angewandte Chemie,2011(16):3811-3814. |
| [95] | Hishikawa, K;Nakagawa, H;Furuta, T;Fukuhara, K;Tsumoto, H;Suzuki, T;Miyata, N .Photoinduced Nitric Oxide Release from a Hindered Nitrobenzene Derivative by Two-Photon Excitation[J].Journal of the American Chemical Society,2009(22):7488-7489. |
| [96] | Zhao J;Gover TD;Muralidharan S;Auston DA;Weinreich D;Kao JPY .Caged vanilloid ligands for activation of TRPV1 receptors by 1-and 2-photon excitation[J].Biochemistry,2006(15):4915-4926. |
| [97] | Karginov, A.V.;Zou, Y.;Shirvanyants, D.;Kota, P.;Dokholyan, N.V.;Young, D.D.;Hahn, K.M.;Deiters, A. .Light regulation of protein dimerization and kinase activity in living cells using photocaged rapamycin and engineered FKBP[J].Journal of the American Chemical Society,2011(3):420-423. |
| [98] | Cruz FG.;Link KH.;Koh JT. .Light-activated gene expression[J].Journal of the American Chemical Society,2000(36):8777-8778. |
| [99] | Kristian H.Link;Youheng Shi;John T.Koh .Light Activated Recombination[J].Journal of the American Chemical Society,2005(38):13088-13089. |
| [100] | Daniel J. Sauers;Murali K. Tembumi;John B. Biggins;Luke M. Ceo;Deni S. Galileo;John T. Koh .Light-Activated Gene Expression Directs Segregation of Co-cultured Cells in Vitro[J].ACS Chemical Biology,2010(3):313-320. |
| [101] | Lin WY.;Albanese C.;Pestell RG.;Lawrence DS. .Spatially discrete, light-driven protein expression[J].Chemistry & biology,2002(12):1347-1353. |
| [102] | Douglas D.Young;Alexander Deiters .Photochemical Activation of Protein Expression in Bacterial Cells[J].Angewandte Chemie,2007(23):4290-4292. |
| [103] | Sidney B. Cambridge;Daniel Geissler;Sandro Keller;Beate Cürten .A Caged Doxycycline Analogue for Photoactivated Gene Expression[J].Angewandte Chemie,2006(14):2229-2231. |
| [104] | Sidney B Cambridge;Daniel Geissler;Federico Calegari;Konstantinos Anastassiadis;Mazahir T Hasan;A Francis Stewart;Wieland B Huttner;Volker Hagen2;Tobias Bonhoeffer1 .Doxycycline-dependent photoactivated gene expression in eukaryotic systems[J].Nature methods,2009(7):527-533. |
| [105] | Agasti, SS;Chompoosor, A;You, CC;Ghosh, P;Kim, CK;Rotello, VM .Photoregulated Release of Caged Anticancer Drugs from Gold Nanoparticles[J].Journal of the American Chemical Society,2009(16):5728-5729. |
| [106] | Angelos, S;Yang, YW;Khashab, NM;Stoddart, JF;Zink, JI .Dual-Controlled Nanoparticles Exhibiting AND Logic[J].Journal of the American Chemical Society,2009(32):11344-11346. |
| [107] | Lin, Q.;Bao, C.;Cheng, S.;Yang, Y.;Ji, W.;Zhu, L. .Target-activated coumarin phototriggers specifically switch on fluorescence and photocleavage upon bonding to thiol-bearing protein[J].Journal of the American Chemical Society,2012(11):5052-5055. |
| [108] | Qiuning Lin;Chunyan Bao;Yunlong Yang;Qiannan Liang;Dasheng Zhang;Shuiyu Cheng;Linyong Zhu .Highly Discriminating Photorelease of Anticancer Drugs Based on Hypoxia Activatable Phototrigger Conjugated Chitosan Nanoparticles[J].Advanced Materials,2013(14):1981-1986. |
| [109] | Dai ZH;Dulyaninova NG;Kumar S;Bresnick AR;Lawrence DS .Visual snapshots of intracellular kinase activity at the onset of mitosis[J].Chemistry & biology,2007(11):1254-1260. |
| [110] | Lee, H.-M.;Xu, W.;Lawrence, D.S. .Construction of a photoactivatable profluorescent enzyme via propinquity labeling[J].Journal of the American Chemical Society,2011(8):2331-2333. |
| [111] | Takahiro Muraoka;Chung-Yan Koh;Honggang Cui .Light-Triggered Bioactivity in Three Dimensions[J].Angewandte Chemie,2009(32):5946-5949. |
| [112] | Parker LL;KurutzJW;KentSBH;KronSJ .Control of the yeast cell cycle with a photocleavable α-factor analogue[J].Angew Chem Int Ed,2006,45(38):6322-6325. |
| [113] | Chang CY.;Panchal R.;Bayley H.;Fernandez T. .Caged catalytic subunit of cAMP-dependent protein kinase[J].Journal of the American Chemical Society,1998(30):7661-7662. |
| [114] | Jean-Philippe Pellois;Tom W.Muir .A Ligation and Photorelease Strategy for the Temporal and Spatial Control of Protein Function in Living Cells[J].Angewandte Chemie,2005(35):5713-5717. |
| [115] | Alexander Deiters;Dan Groff;Youngha Ryu;Jianming Xie;Peter G.Schultz .A Genetically Encoded Photocaged Tyrosine[J].Angewandte Chemie,2006(17):2728-2731. |
| [116] | Ning Wu;Alexander Deiters;T. Ashton Cropp;David King;Peter G. Schultz .A Genetically Encoded Photocaged Amino Acid[J].Journal of the American Chemical Society,2004(44):14306-14307. |
| [117] | Lemke EA;Summerer D;Geierstanger BH;Brittain SM;Schultz PG .Control of protein phosphorylation with a genetically encoded photocaged amino acid[J].Nature chemical biology,2007(12):769-772. |
| [118] | Peng R. Chen;Dan Groff;Jiantao Guo .A Facile System for Encoding Unnatural Amino Acids in Mammalian Cells[J].Angewandte Chemie,2009(22):4052-4055. |
| [119] | Young D D;Lusic H;Lively M O;Yoder J A Deiters A .Gene silencing in mammalian cells with light-activated antisense agents[J].Chem Bio Chem,2008,9(18):2937-2940. |
| [120] | Ilya A Shestopalov;Surajit Sinha;James K Chen .Light-controlled gene silencing in zebrafish embryos[J].Nature chemical biology,2007(10):650-651. |
| [121] | XinJing Tang;Shingo Maegawa;Eric S.Weinberg .Regulating Gene Expression in Zebrafish Embryos Using Light-Activated,Negatively Charged Peptide Nucleic Acids[J].Journal of the American Chemical Society,2007(36):11000-11001. |
| [122] | Alexander Heckel;Gunter Mayer .Light Regulation of Aptamer Activity: An Anti-Thrombin Aptamer with Caged Thymidine Nucleobases[J].Journal of the American Chemical Society,2005(3):822-823. |
| [123] | Johnson JA;Finn MG;Koberstein JT;Turro NJ .Synthesis of photocleavable linear macromonomers by ATRP and star macromonomers by a tandem ATRP-click reaction: Precursors to photodegradable model networks[J].Macromolecules,2007(10):3589-3598. |
| [124] | Photodegradable Hydrogels for Dynamic Tuning of Physical and Chemical Properties[J].Science,2009(Apr.3 TN.5923):59. |
| [125] | Peng, K.;Tomatsu, I.;Van Den Broek, B.;Cui, C.;Korobko, A.V.;Van Noort, J.;Meijer, A.H.;Spaink, H.P.;Kros, A. .Dextran based photodegradable hydrogels formed via a Michael addition[J].Soft matter,2011(10):4881-4887. |
| [126] | Klinger, D.;Landfester, K. .Photo-sensitive PMMA microgels: Light-triggered swelling and degradation[J].Soft matter,2011(4):1426-1440. |
| [127] | Yue Zhao .Photocontrollable block copolymer micelles: what can we control?[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2009(28):4887-4895. |
| [128] | Kang M;Moon B .Synthesis of photocleavable poly(styrene-block-ethylene oxide) and its self-assembly into nanoporous thin films[J].MACROMOLECULES,2008,42(01):455-458. |
| [129] | Junsang Doh;Darrell J.Irvine .Photogenerated Polyelectrolyte Bilayers from an Aqueous-Processible Photoresist for Multicomponent Protein Patterning[J].Journal of the American Chemical Society,2004(30):9170-9171. |
| [130] | Zhao B;Moore J S;Beebe D J .Surface-directed liquid flow inside microchannels[J].SCIENCE,2001,291(5506):1023-1026. |
| [131] | Ryan G. Wylie;Shoeb Ahsan;Yukie Aizawa .Spatially controlled simultaneous patterning of multiple growth factors in three-dimensional hydrogels[J].Nature materials,2011(10):799-806. |
| [132] | Lai, J.;Xu, Y.;Mu, X.;Wu, X.;Li, C.;Zheng, J.;Wu, C.;Chen, J.;Zhao, Y. .Light-triggered covalent assembly of gold nanoparticles in aqueous solution[J].Chemical communications,2011(13):3822-3824. |
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