Flamma® 648 Protein Labeling Kit is designed to effective label antibody or protein. Flamma® Fluor dyes display strong absorption, high fluorescence quantum yield and high photostability, and they maintain good fluorescence activity and stability after conjugated to biomolecules. The maxima of Ex/Em values are at 648/663 nm. Vinylsulfone reactive group is selectively bind to the primary amines of proteins to create efficient dye-protein conjugates. Flamma® Fluors Protein Labeling Kits enable to perform the entire step from labeling to purification and contain all necessary chemicals and consumable materials. We offer Flamma® 648 protein labeling kit as a convenient method to label large amount of protein and antibody.
1. Lim, Chang-Keun. Phthalocyanine-aggregated polymeric nanoparticles as tumor-homing near-infrared absorbers for photothermal therapy of cancer. Theranostics 2.9, 2012, 871-879.
2. Park, Jin Woo. Novel cyanine dyes with vinylsulfone group for labeling biomolecules. Bioconjugate chemistry 23.3, 2012, 350-362.
3. Lim, Chang-Keun. Gadolinium-coordinated elastic nanogels for in vivo tumor targeting and imaging. Biomaterials 34.28, 2013, 6846-6852.
4. Keunsoo Jeong. Poly (oxyethylene sugaramide) s: unprecedented multihydroxyl building blocks for tumor-homing nanoassembly. Journal of Materials Chemistry B 1.28, 2013, 3437-344
5. Lee, So Jin. TNF-α gene silencing using polymerized siRNA/thiolated glycol chitosan nanoparticles for rheumatoid arthritis. Molecular Therapy 22.2, 2014, 397-40
6. Yoon, Hong Yeol. Photo-crosslinked hyaluronic acid nanoparticles with improved stability for in vivo tumor-targeted drug delivery. Biomaterials 34.21, 2013 5273-5280.
7. Park, Solji. Amphiphilized poly (ethyleneimine) nanoparticles: a versatile multi-cargo carrier with enhanced tumor-homing efficiency and biocompatibility. Journal of Materials Chemistry B 3.2, 2015, 198-206.
8. Lee, Eunjung. Co-delivery of chemosensitizing siRNA and an anticancer agent via multiple monocomplexation-induced hydrophobic association. Journal of Controlled Release 210, 2015, 105-114.
9. Xu, Peisheng. Zwitterionic chitosan derivatives for pH-sensitive stealth coating. Biomacromolecules 11.9, 2010, 2352-2358.
10. Ibrahim, Basma M. A strategy to deliver genes to cystic fibrosis lungs: a battle with environment. Journal of controlled release 155.2, 2011, 289-295.
11. Oh, Keun Sang. Accurate sequential detection of primary tumor and metastatic lymphatics using a temperature-induced phase transition nanoparticulate system. International journal of nanomedicine 9, 2014, 2955
12. Yhee, Ji Young. Tumor-targeting transferrin nanoparticles for systemic polymerized siRNA delivery in tumor-bearing mice. Bioconjugate chemistry 24.11, 2013, 1850-1860.
13. Yoon, Hong Yeol. Glycol chitosan nanoparticles as specialized cancer therapeutic vehicles: Sequential delivery of doxorubicin and Bcl-2 siRNA. Scientific reports 4, 2014.
14. Ryu, Ju Hee. Early diagnosis of arthritis in mice with collagen‐induced arthritis, using a fluorogenic matrix metalloproteinase 3–specific polymeric probe. Arthritis & Rheumatism 63.12, 2011, 3824-3832.
15. Hollis, Christin P. In vivo investigation of hybrid paclitaxel nanocrystals with dual fluorescent probes for cancer theranostics. Pharmaceutical research 31.6, 2014, 1450-1459.
16. Koo, Heebeom. The movement of self-assembled amphiphilic polymeric nanoparticles in the vitreous and retina after intravitreal injection. Biomaterials 33.12, 2012, 3485-3493.
17. Zhu, Lei. Real-time monitoring of caspase cascade activation in living cells. Journal of controlled release 163.1, 2012, 55-62.
18. Yoon, Hong Yeol. Bioreducible hyaluronic acid conjugates as siRNA carrier for tumor targeting. Journal of Controlled Release 172.3, 2013, 653-661.
19. Yhee, Ji Young. Cancer-targeted MDR-1 siRNA delivery using self-cross-linked glycol chitosan nanoparticles to overcome drug resistance. Journal of Controlled Release 198, 2015, 1-9.
20. Park, Jin Woo. Wide-Ranged Fluorescent Molecular Weight Size Markers for Electrophoresis. Bulletin of the Korean Chemical Society 34.1, 2013, 29-30.
21. Huang, Xinglu. Multiplex Imaging of an Intracellular Proteolytic Cascade by using a Broad‐Spectrum Nanoquencher. Angewandte Chemie International Edition 51.7, 2012, 1625-1630