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·778· 精细化工 FINE CHEMICALS 第 37 卷

polymorp-hisms: Cancer incidence and therapy[J]. Oncogene, 2006, [13] YANG X L, PU J, ZHAO H, et al. Method to screen aromatic ligands
25(11): 1639-1648. in mixtures for quantitative affinities to target using magnetic
[3] YANG M, LI Y, SHEN X, et al. CLDN6 promotes chemoresistance separation of bound ligands along with HPLC and UV photometry
through GSTP1 in human breast cancer[J]. Journal of Experimental detection[J]. Microchimica Acta, 2012, 176(1-2): 243-249.
& Clinical Cancer Research, 2017, 36(1): 157-172. [14] LIAO Fei (廖飞). Method for preparing micro-nano magnetic
[4] CRAWFORD L A, WEERAPANA E. A tyrosine-reactive irreversible material by nano-magnetic core coated with linear hydrophilic
inhibitor for glut- athione-S-transferase Pi (GSTP1)[J]. Molecular polymer with carboxyl groups at both ends and its application:
Biosystems, 2016, 12(6): 1768-1771. CN2012100463095 [P]. 2019-09-24.
[5] BAI F, NAKANISHI Y, KAWASAKI M, et al. Immunohistochemical [15] RAO J, LIAO J, Bu Y, et al. Ampholytic ion-exchange materials
expression of glutathione-S-transferase-π can predict chemotherapy coated with small zwitterions for high-efficacy purification of
response in patients with nonsmall cell lung carcinoma[J]. Cancer, ionizable soluble biomacromolecules[J]. International Journal of
1996, 78(3): 416-421. Biological Macromolecules, 2018, 120: 2234-2241.
[6] OKAMURA T, ANTOUN G, KEIR S T, et al. Phosphorylation of [16] GARCIA-GALAN C, BERENGUER-MURCIA Á, FERNANDEZ-
glutathione-S-transferase P1 (GSTP1) by epidermal growth factor LAFUENTE R, et al. Potential of different enzyme immobilization
receptor (EGFR) promotes formation of the GSTP1-c-Jun N-terminal strategies to improve enzyme performance [J]. Advanced Synthesis
kinase (JNK) complex and suppresses JNK downstream signaling & Catalysis, 2011, 353(16): 2885-2904.
and apoptosis in brain tumor cells[J]. Journal of Biological [17] YANG X, HU X, CHEN C, et al. Comparison of the immobilization
Chemistry, 2015, 290(52): 30866-30878. of 6His-tagged proteins on magnetic-submicron-particle functionalized
2+
[7] TOWNSEND D M, TEW K D. The role of glutathione-S-transferase with Ni -NTA and bis-sulfone[J]. Nanoscience and Nanotechnology
in anti-cancer drug resistance[J]. Oncogene, 2003, 22(47): 7369- Letters, 2015, 7(6):486-494.
7375. [18] YANG Xianfeng (杨宪峰), ZHANG Ling (张灵), YANG Xiaolan
[8] MAEDA D Y, MAHAJAN S S, Atkins W, et al. Bivalent inhibitors of (杨晓兰), et al. Design and screening of high-affinity ligands for
glutathione-S-transferase: The effect of spacer length on isozyme glutathione-S-transferaseas fusion tag[J]. Journal of Chongqing
selectivity[J]. Bioorganic and Medicinal Chemistry Letters, 2006, Medical University (重庆医科大学学报), 2012, 37(9): 791-795.
16(14): 3780-3783. [19] BRADFORD M. A rapid method for the quantitation of microgram
[9] MAHAJAN S S, HOU L, DONEANU C, et al. Optimization of quantities of protein utilizing the principle of protein-dye binding[J].
bivalent glutathione-S-transferase inhibitors by combinatorial linker Analytical Biochemistry, 1976, 72(S1/S2): 248-254.
design[J]. Journal of the American Chemical Society, 2006, 128(26): [20] PABST M J, HANIG W H, JAKOBY W B. Glutathione S-transferase
8615- 8625. A. A novel kinetic mechanism in which the major reaction pathway
[10] PINILLA C, APPEL J R, BORRAS E, et al. Advances in the use of depends on substrate concentration[J]. Journal of Biological Chemistry,
synthetic combinatorial chemistry: Mixture-based libraries[J]. Nature 1974, 249(22): 7140-7150.
Medicine, 2003, 9(1): 118-122. [21] MICHAELIS L, MENTEN M. Die kinetic der invertinwirkun[J].
[11] MISHRA B B, TIWARI V K. Natural products: An evolving role in biochemische zeitschrift, 1913, 49(333): 333-369.
future drug discovery[J]. European Journal of Medicinal Chemistry, [22] XU Bangtian (许榜田). Design, synthesis and characterization of
2011, 46(10): 4769-4807. glutathi- one-S-transferase mu bivalent latent inhibitors[D]. Chongq-
[12] YANG X L, XIE Y L, PU J, et al. Estimation of affinities of ligands ing : Chongqing Medical University (重庆医科大学), 2014.
in mixtures via magnetic recovery of target-ligand complexes and [23] SHISHIDO Y, TOMOIKE F, KIMURA Y, et al. A covalent G-site
chromatographic analyses: Chemometrics and an experimental inhibitor for glutathione-S-transferase Pi (GSTP1-1)[J]. Chemical
model[J]. BMC Biotechnology, 2011, 11(1): 44-62. Communications, 2017, 53(81): 11138-11141.

（上接第 771 页）许召),et al. Synthesis and properties of dicationic ionic liquids[J].
Chemical Reagents (化学试剂), 2009, 31(9): 719-722.
[23] CHABAN, VITALY. Polarizability versus mobility: Atomistic force [30] ESTAGER J, NOCKEMANN P, SEDDON K R, et al. Validation of
field for ionic liquids[J]. Physical Chemistry Chemical Physics, speciation techniques: A study of chlorozincate(Ⅱ) ionic liquids[J].
2011, 13(35): 16055-16062. Inorganic Chemistry, 2011, 50(11): 5258-5271.
[24] YANG Xuzhao (杨许召),WANG Jun (王军), FANG Yun (方云). [31] SONG Zhaoyang (宋兆阳), ZHOU Wenbo (周文博), ZHANG
Synthesis, properties and applications of dicationic ionic liquids [J]. Zhengtai (张征太), et al. Reaction performance of isomerization of
Progress in Chemistry (化学进展), 2016, 28(2/3): 269-283. n-pentane catalyzed by [BMIM]Cl-AlCl 3 ionic liquid[J]. Petroleum
[25] SHIIROTA H, MANDAI T, FUKAZAWA H, et al. Comparison Processing and Petrochemicals (石油炼制与化工), 2017, 48(2):
between dicationic and monocationic ionic liquids: liquid density,
thermal properties, surface tension, and shear viscosity[J]. Journal of 81-85.
Chemical & Engineering Data, 2011, 56(5): 2453-2459. [32] FERRARA C, DALL’ASTA, VALENTINA, BERBENNI V, et al.
[26] ANDERSON J L, DING R, ELLERN A, et al. Structure and Physicochemical characterization of AlCl 3-1-ethyl-3-methylimidazolium
properties of high stability geminaldicationic ionic liquids[J]. Journal chloride ionic liquid electrolytes for aluminum rechargeable
of the American Chemical Society, 2005, 127(2): 593-604. batteries[J]. Journal of Physical Chemistry C, 2017, 121(48): 26607-
[27] SABBAGHAN M, BEHESHTIAN J, MIRSAEIDI S A M. 26614.
Preparation of uniform 2D ZnO nanostructures by the ionic liquid- [33] ZHU X, FU Y, YIN H, et al. Catalytic chlorination of 2-chlorotoluene
assisted sonochemical method and their optical properties[J]. with gaseous chlorine to 2,6-dichlorotoluene over AlCl 3, FeCl 3,
Ceramics International, 2014, 40(6): 7769-7774. ZnCl 2, and [BMIM]Cl-nAlCl 3(-2FeCl 3and -2ZnCl 2) catalysts[J]. Reaction
[28] WEI Fuxiang (魏福祥), LIU Baoyou (刘宝友), HAN Jü (韩菊), et Kinetics, Mechanisms and Catalysis, 2016, 118(2): 523-536.
al. The application of ionic liquid anchored catalyst in synthesis of [34] WU Li (吴丽), LI Zhen (李臻), WANG Fang (王芳), et al. Research
pharmaceutical intermediate 2,3-cyclopentanopyridine[J]. Journal of progress on quantitative calculation and molecular dynamics
Functional Materials (功能材料), 2007, 38(Z1): 2556-2558. simulation of ionic liquids[J]. Journal of Molecular Catalysis (分子
[29] WANG Jun (王军), ZHANG Zhenzhen (张真真), YANG Xuzhao (杨催化), 2012, 26(5): 456-468.

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