iFluor 790酸
英文名称:iFluor® 790 acid
产品参数
| Ex (nm) | 787 | Em (nm) | 812 |
| 分子量 | 1347.45 | 溶剂 | DMSO |
| 存储条件 | 在零下15度以下保存, 避免光照 |
产品概述
产品基本信息
产品名称:iFluor 790酸
储存条件:-15℃避光防潮
保质期:24个月
产品物理化学光谱特性
分子量:1279.29
溶剂:DMSO
激发波长(nm):787
发射波长(nm):812
产品介绍
我们的iFluor 790旨在通过近红外荧光标记蛋白质和其他生物分子。用iFluor 790制备的缀合物具有与吲哚菁绿(ICG)和IRDye®800染料相似的激发和发射光谱,大激发/发射光谱为783/814 nm。 iFluor 790染料的发射与常用的远红色荧光团(例如Cy5,Cy7或别藻蓝蛋白(APC))分离良好,从而促进了多色分析。该荧光团还可用于小型动物体内成像应用或需要近红外检测的其他成像应用,例如使用LI-COR®Odyssey®红外成像系统的双色应用。
适用仪器
| 荧光酶标仪 | |
| Ex: | 782nm |
| Em: | 811nm |
| cutoff: | 790nm |
| 推荐孔板: | 纯黑色孔板 |
试剂应用文献
Lipid nanoparticulate drug delivery system for the treatment of hepatic fibrosis
Authors: Mukherjee, Swarupananda and Dutta, Ayon and Ash, Dipanjana
Journal: Archives of Hepatitis Research (2021): 001--003
Authors: Mukherjee, Swarupananda and Dutta, Ayon and Ash, Dipanjana
Journal: Archives of Hepatitis Research (2021): 001--003
Lipid-based nanoparticle technologies for liver targeting
Authors: B{\"o}ttger, Roland and Pauli, Griffin and Chao, Po-Han and Fayez, Nojoud AL and Hohenwarter, Lukas and Li, Shyh-Dar
Journal: Advanced drug delivery reviews (2020): 79--101
Authors: B{\"o}ttger, Roland and Pauli, Griffin and Chao, Po-Han and Fayez, Nojoud AL and Hohenwarter, Lukas and Li, Shyh-Dar
Journal: Advanced drug delivery reviews (2020): 79--101
Self-assembly and directed assembly of lipid nanocarriers for prevention of liver fibrosis in obese rats: a comparison with the therapy of bariatric surgery
Authors: Chen, Chun-Han and Chen, Chih-Jung and Elzoghby, Ahmed O and Yeh, Ta-Sen and Fang, Jia-You
Journal: Nanomedicine (2018)
Authors: Chen, Chun-Han and Chen, Chih-Jung and Elzoghby, Ahmed O and Yeh, Ta-Sen and Fang, Jia-You
Journal: Nanomedicine (2018)
Nanovesicle delivery to the liver via retinol binding protein and platelet-derived growth factor receptors: how targeting ligands affect biodistribution
Authors: Hsu, Ching-Yun and Chen, Chun-Han and Aljuffali, Ibrahim A and Dai, You-Shan and Fang, Jia-You
Journal: Nanomedicine (2017)
Authors: Hsu, Ching-Yun and Chen, Chun-Han and Aljuffali, Ibrahim A and Dai, You-Shan and Fang, Jia-You
Journal: Nanomedicine (2017)
Oleic acid-based nanosystems for mitigating acute respiratory distress syndrome in mice through neutrophil suppression: how the particulate size affects therapeutic efficiency
Authors: Yu, Huang-Ping and Liu, Fu-Chao and Umoro, Ani and Lin, Zih-Chan
Authors: Yu, Huang-Ping and Liu, Fu-Chao and Umoro, Ani and Lin, Zih-Chan
参考文献
A target cell-specific activatable fluorescence probe for in vivo molecular imaging of cancer based on a self-quenched avidin-rhodamine conjugate
Authors: Hama Y, Urano Y, Koyama Y, Kamiya M, Bernardo M, Paik RS, Shin IS, Paik CH, Choyke PL, Kobayashi H.
Journal: Cancer Res (2007): 2791
Authors: Hama Y, Urano Y, Koyama Y, Kamiya M, Bernardo M, Paik RS, Shin IS, Paik CH, Choyke PL, Kobayashi H.
Journal: Cancer Res (2007): 2791
Fluorescence imaging in vivo: recent advances
Authors: Rao J, Dragulescu-Andrasi A, Yao H.
Journal: Curr Opin Biotechnol (2007): 17
Authors: Rao J, Dragulescu-Andrasi A, Yao H.
Journal: Curr Opin Biotechnol (2007): 17
Ex vivo fluorescence imaging of normal and malignant urothelial cells to enhance early diagnosis
Authors: Steenkeste K, Lecart S, Deniset A, Pernot P, Eschwege P, Ferlicot S, Leveque-Fort S, Bri and et R, Fontaine-Aupart MP.
Journal: Photochem Photobiol (2007): 1157
Authors: Steenkeste K, Lecart S, Deniset A, Pernot P, Eschwege P, Ferlicot S, Leveque-Fort S, Bri and et R, Fontaine-Aupart MP.
Journal: Photochem Photobiol (2007): 1157
In vivo monitoring the fate of Cy5.5-Tat labeled T lymphocytes by quantitative near-infrared fluorescence imaging during acute brain inflammation in a rat model of experimental autoimmune encephalomyelitis
Authors: Berger C, Gremlich HU, Schmidt P, Cannet C, Kneuer R, Hiest and P, Rausch M, Rudin M.
Journal: J Immunol Methods (2007): 65
Authors: Berger C, Gremlich HU, Schmidt P, Cannet C, Kneuer R, Hiest and P, Rausch M, Rudin M.
Journal: J Immunol Methods (2007): 65
A protocol for imaging alternative splicing regulation in vivo using fluorescence reporters in transgenic mice
Authors: Bonano VI, Oltean S, Garcia-Blanco MA.
Journal: Nat Protoc (2007): 2166
Authors: Bonano VI, Oltean S, Garcia-Blanco MA.
Journal: Nat Protoc (2007): 2166
In vivo imaging of the bronchial wall microstructure using fibered confocal fluorescence microscopy
Authors: Thiberville L, Moreno-Swirc S, Vercauteren T, Peltier E, Cave C, Bourg Heckly G.
Journal: Am J Respir Crit Care Med (2007): 22
Authors: Thiberville L, Moreno-Swirc S, Vercauteren T, Peltier E, Cave C, Bourg Heckly G.
Journal: Am J Respir Crit Care Med (2007): 22
In Vivo Fluorescence Microscopic Imaging for Dynamic Quantitative Assessment of Intestinal Mucosa Permeability in Mice
Authors: Szabo A, Vollmar B, Boros M, Menger MD.
Journal: J Surg Res. (2007)
Authors: Szabo A, Vollmar B, Boros M, Menger MD.
Journal: J Surg Res. (2007)
In vivo spectral fluorescence imaging of submillimeter peritoneal cancer implants using a lectin-targeted optical agent
Authors: Hama Y, Urano Y, Koyama Y, Kamiya M, Bernardo M, Paik RS, Krishna MC, Choyke PL, Kobayashi H.
Journal: Neoplasia (2006): 607
Authors: Hama Y, Urano Y, Koyama Y, Kamiya M, Bernardo M, Paik RS, Krishna MC, Choyke PL, Kobayashi H.
Journal: Neoplasia (2006): 607
In vivo imaging of green fluorescent protein-expressing cells in transgenic animals using fibred confocal fluorescence microscopy
Authors: Al-Gubory KH, Houdebine LM.
Journal: Eur J Cell Biol (2006): 837
Authors: Al-Gubory KH, Houdebine LM.
Journal: Eur J Cell Biol (2006): 837
In vivo near-infrared fluorescence imaging of integrin alphavbeta3 in an orthotopic glioblastoma model
Authors: Hsu AR, Hou LC, Veeravagu A, Greve JM, Vogel H, Tse V, Chen X.
Journal: Mol Imaging Biol (2006): 315
Authors: Hsu AR, Hou LC, Veeravagu A, Greve JM, Vogel H, Tse V, Chen X.
Journal: Mol Imaging Biol (2006): 315
