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sulfo-Cyanine5 antibody labeling kit
| 貨號 | 數量 | 價格 | 交貨時間 | 購買此產品 |
|---|---|---|---|---|
| 3321-1rxn |
1 rxn
|
$69 | 1 天 | |
| 3321-10rxn |
10 rxn
|
$397 | 1 天 |
A ready-to-use kit for labeling antibodies with sulfo-Cyanine5 dye. This kit contains all necessary components (chemicals and consumables) to perform 10 labelings of antibodies (up to 100 ug antibody per each reaction). Reaction clean-up is achieved using enclosed gel filtration spin columns.
Precise quantification of the dye guarantees the reproducible outcome of the labeling and number of fluorophores per antibody molecule.
Purified labeled antibodies are available in PBS buffer after 40 min (10 min hands-on time). The kit tolerates common additives such as Tris, glycerol, and sodium azide.
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sulfo-Cyanine5 antibody labeling kit
Ready-to-use kit for labeling antibodies and other proteins with sulfo-Cyanine5 dye via NHS ester chemistry. The kit contains all necessary chemicals and consumables.sulfo-Cyanine7 antibody labeling kit
Ready-to-use kit for labeling antibodies and other proteins with sulfo-Cyanine7 dye via NHS ester chemistry. The kit contains all necessary chemicals and consumables.
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sulfo-Cyanine3 antibody labeling kit
Ready to use kit for the labeling of antibodies and other proteins with sulfo-Cyanine3 dye via NHS ester chemistry. The kit contains all necessary chemicals and consumables.
將此產品添加到購物車並立即在線獲取免費快遞服務
| 储存条件: | |
| MSDS: | 下載 |
| 储存时间(月: | 12 |
參考資料
- Hu, K.; Harman, A.; Baharlou, H. Imaging Mass Cytometry for In Situ Immune Profiling. Flow Cytometry Protocols, 2024, 2779, 407-423. doi: 10.1007/978-1-0716-3738-8_19
- Rana, H.; Truong, N.R.; Johnson, B.; Baharlou, H.; Herbert, J.J.; Kandasamy, S.; Goddard, R.; Cohen, R.C.; Wines, M.; Nasr, N.; Harman, A.N.; Bertram, K.M.; Sandgren, K.J.; Cunningham, A.L. Herpes simplex virus spreads rapidly in human foreskin, partly driven by chemokine-induced redistribution of Nectin-1 on keratinocytes. PLOS Pathogens, 2024, 20(6), e1012267. doi: 10.1371/journal.ppat.1012267
- Kirikovich, S.S.; Levites, E.V.; Proskurina, A.S.; Ritter, G.S.; Peltek, S.E.; Vasilieva, A.R.; Ruzanova, V.S.; Dolgova, E.V.; Oshihmina, S.G.; Sysoev, A.V.; Koleno, D.I.; Danilenko, E.D.; Taranov, O.S.; Ostanin, A.A.; Chernykh, E.R.; Kolchanov, N.A.; Bogachev, S.S. The Molecular Aspects of Functional Activity of Macrophage-Activating Factor GcMAF. International Journal of Molecular Sciences, 2023, 24(24), 17396. doi: 10.3390/ijms242417396
- Rhodes, J. W.; Botting, R. A.; Bertram, K. M.; Vine, E. E.; Rana, H.; Baharlou, H.; Vegh, P.; O’Neil, T. R.; Ashhurst, A. S.; Fletcher, J.; Parnell, G. P.; Graham, J. D.; Nasr, N.; Lim, J. J. K.; Barnouti, L.; Haertsch, P.; Gosselink, M. P.; Di Re, A.; Reza, F.; Ctercteko, G.; Jenkins, G. J.; Brooks, A. J.; Patrick, E.; Byrne, S. N.; Hunter, E.; Haniffa, M. A.; Cunningham, A. L.; Harman, A. N. Human Anogenital Monocyte-Derived Dendritic Cells and Langerin+cDC2 Are Major HIV Target Cells. Nat Commun, 2021, 12(1), 2147. doi: 10.1038/s41467-021-22375-x
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