900nm 光选择性双光子谷氨酸光解。
Optically selective two-photon uncaging of glutamate at 900 nm.
机构信息
Department of Neuroscience, Mount Sinai School of Medicine, New York, New York 10029, USA.
出版信息
J Am Chem Soc. 2013 Apr 24;135(16):5954-7. doi: 10.1021/ja4019379. Epub 2013 Apr 11.
Abstract
We have synthesized a 7-diethylaminocoumarin (DEAC) derivative that allows wavelength-selective two-photon uncaging at 900 nm versus 720 nm. This new caging chromophore, called DEAC450, has an extended π-electron moiety at the 3-position that shifts the absorption spectrum maximum of DEAC from 375 to 450 nm. Two-photon excitation at 900 nm was more than 60-fold greater than at 720 nm. Two-photon uncaging of DEAC450-Glu at 900 nm at spine heads on pyramidal neurons in acutely isolated brain slices generated postsynaptic responses that were similar to spontaneous postsynaptic excitatory miniature currents, whereas significantly higher energies at 720 nm evoked no currents. Since many nitroaromatic caged compounds are two-photon active at 720 nm, optically selective uncaging of DEAC450-caged biomolecules at 900 nm may allow facile two-color optical interrogation of bimodal signaling pathways in living tissue with high resolution for the first time.
摘要
我们合成了一种 7-二乙氨基香豆素(DEAC)衍生物,它可以在 900nm 波长下选择性地进行双光子光解笼,而在 720nm 波长下则不行。这种新的光解笼色团称为 DEAC450,其在 3 位上具有扩展的π电子部分,使 DEAC 的吸收光谱最大值从 375nm 移动到 450nm。900nm 的双光子激发比 720nm 强 60 多倍。在急性分离脑片中的锥体神经元的棘头处,用 900nm 的双光子激发 DEAC450-Glu,产生的突触后反应类似于自发的突触后兴奋性微小电流,而在 720nm 时,即使能量显著增加,也不会产生电流。由于许多硝基芳香族光解笼化合物在 720nm 处具有双光子活性,因此 DEAC450 光解笼生物分子在 900nm 处的光选择性解笼可能首次允许以高分辨率对活组织中双模态信号通路进行简便的双色光学检测。
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