Page 96 - 《精细化工》2020年第6期

P. 96

·1162· 精细化工 FINE CHEMICALS 第 37 卷

子上的孤对电子向共轭体系芳环及氰基上转移）的 [16] WILLIAMS R M, ZIPFEL W R, WEBB W W. Multiphoton microscopy
探针，只能显示离子浓度的大小，但难以确定离子 in biological research[J]. Current Opinion in Chemical Biology, 2001,
5(5): 603-608.
有无；而 PET（光诱导电子迁移机制）机制的探针
[17] KIM M K, LIM C S, HONG J T, et al. Sodium-ion-selective two-
恰能弥补这一不足，但 PET 探针的 δ TPA 较小。因此，
photon fluorescent probe for in vivo imaging[J]. Angewandte Chemie
是开发 ICT 还是 PET 探针，应根据实际情况选择。 International Edition, 2010, 49(2): 364-367.
[18] PORONIK Y M, CLERMONT G, BLANCHARD-DESCE M, et al.
参考文献：
Nonlinear optical chemosensor for sodium ion based on rhodol
[1] BURNIER M. Sodium in health disease[M]. New York: Informa chromophore[J]. The Journal of Organic Chemistry, 2013, 78(23):
Healthcare Press, 2008: 317-332. 11721-11732.
+
+
[2] SKOU J C, NORBY J G, MAUNSBACH A B, et al. The Na , K [19] HUANG C B, QU J L, QI J, et al. Dicyanostilbene-derived
Pump, Part B: Cellular aspects[M]. New York: Wiley Press, 1998: two-photon fluorescence probe for free zinc ions in live cells and
195-206. tissues with a large two-photon action cross section[J]. Organic
[3] MURPHY E, EISNER D A. Regulation of intracellular and Letters, 2011, 13(6): 1462-1465.
mitochondrial sodium in health and disease[J]. Circulation Research, [20] HUANG C B, DING C R. Dicyanostilbene-derived two-photon
2009, 104(3): 292-303. fluorescence probe for lead ions in live cells and living tissues[J].
[4] BERS D M, BARRY W H, DESPA S. Role of the reverse mode of Analytica Chimica Acta, 2011, 699(2): 198-205.
the Na/Ca exchanger in reoxygenationinduced cardiomyocyte injury [21] HUANG C B, PENG X, YI D S. et al. Dicyanostilbene-based
[J]. Cardiovascular Research, 2003, 57(4): 897-912. two-photon thermo-solvatochromic fluorescence probes with large
[5] MINTA A, TSIEN R Y. Fluorescent indicators for cytosolic sodium[J].
two-photon absorption cross sections: detection of solvent polarities,
The Journal of Biological Chemistry, 1989, 264(32): 19449-19457.
viscosities, and temperature[J]. Sensors and Actuators B: Chemical,
[6] DE SILVA A P, GUNARATNE H Q, GUNNLAUGSSON T, et al.
2013, 182(1): 521-529.
Signaling recognition events with fluorescent sensors and switches
[22] HUANG C B, REN A X, FENG C H. et al. Two-photon fluorescent
[J]. Chemical Reviews, 1997, 97(5): 1515-1566.
probe for silver ion derived from twin-cyano stilbene with large
[7] GUNNLAUGSSON T, NIEUWENHUYZEN M, RICHARD L, et al.
two-photon absorption cross section[J]. Sensors and Actuators B:
Novel sodium-selective fluorescent PET and optically based chemos-
Chemical, 2010, 151(1): 236-242.
+
ensors: Towards Na determination in serum[J]. Journal of the
[23] HUANG C B, FAN J L, PENG X J, et al. Highly selective and
Chemical Society-Perkin Transactions 2, 2002, (1): 141-150.
sensitive twin-cyano-stilbene-based two-photon fluorescent probe for
[8] MARTIN V V, ROTHE A, DIWU Z, et al. Fluorescent sodium ion
mercury (Ⅱ) in aqueous solution with large two-photon absorption
indicators based on the 1,7-diaza-15-crown-5 system[J]. Bioorganic
cross-section[J]. Journal of Photochemistry and Photobiology A:
& Medicinal Chemistry Letters, 2004, 14(21): 5313-5316.
Chemistry, 2008, 199(2/3): 144-149.
[9] MARTIN V V, ROTHE A, GEE K R. Fluorescent metal ion indicators
[24] EATON D F. International union of pure and applied chemistry
based on benzoannelated crown systems: A green fluorescent indicator
organic chemistry division commission on photochemistry:
for intracellular sodium ions[J]. Bioorganic & Medicinal Chemistry
Reference materials for fluorescence measurement[J]. Journal of
Letters, 2005, 15(7): 1851-1855.
Photochemistry and Photobiology B:Biology,1988,2(4):523-531.
[10] KENMOKU S, URANO Y, KANDA K, et al. Rational design of novel
[25] HUANG C B (黄池宝), LIANG X (梁兴), ZENG Q H (曾启华), et
photoinduced electron transfer type fluorescent probes for sodium
al. A dicyanostilbene-derived two-photon fluorescence probe for free
cation[J]. Tetrahedron, 2004, 60(49): 11067-11073.
zinc ions in live cells and living tissues[J]. Chemical Journal of
[11] HAUGLAND R P. The handbook: A guide to fluorescent probes and
Chinese Universities (高等学校化学学报), 2015, 36(4): 646-653.
labeling technologies[M]. Carlsbad CA: Molecular Probes (Invitrogen),
[26] HUANG C B (黄池宝), PAN Q (潘淇), CHEN X Y (陈晓远), et al.
2005: 1126.
+
[12] AMORINO G P, FOX M H. Intracellular Na measurements using Dicyanostilbene-derived two-photon fluorescence probe for mercury
sodium green tetraacetate with flow cytometry[J]. Cytometry Part A, ions[J]. Chemical Journal of Chinese Universities (高等学校化学学
报), 2017, 38(10): 1751-1756
1995, 21(3): 248-256.
[13] DOMAILLE D W, QUE E L, CHANG C J, et al. Synthetic [27] HUANG C B (黄池宝), PAN Q (潘淇), CHEN H S (陈华仕), et al.
fluorescent sensors for studying the cell biology of metals[J]. Nature Triphenylamine-based dicyanostilbene type two-photon fluorescence
Chemical Biology, 2008, 4(2): 168-175. solvatochromic probe[J]. Chemical Journal of Chinese Universities
[14] ZIPFEL W R, WILLIAMS R M, WEBB W W. Nonlinear magic: (高等学校化学学报), 2018, 39(8): 1676-1682.
multiphoton microscopy in the biosciences[J]. Nature Biotechnology, [28] HUANG C B (黄池宝), CHEN H S (陈华仕), ZENG B P (曾伯平),
2003, 21(10): 1369-1377. et al. A dicyanostilbene-derived two-photon fluorescence probe for
[15] HELMCHEN F, DENK W. Deep tissue two-photon microscopy[J]. free silver ions used in live-imaging[J]. Chinese Journal of Analytical
Nature Methods, 2005, 2(11): 932-940. Chemistry (分析化学), 2015, 43(4): 507-511.

91 92 93 94 95 96 97 98 99 100 101