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產(chǎn)品名稱：RFP-Booster(Atto594)
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產(chǎn)品廠商：ChromoTek
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RFP-Booster(Atto594)

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Product details
Product details
Purpose	With our Booster you reactivate, boost, stabilizate the signals of your fusion proteins.
Specificity	RFP-Booster efficiently highlights, enhancesand stabilizes monomeric red fluorescentproteins such as mRFP1, mCherry or mPlum but also mRuby
Characteristics	Enhance, stabilize and reactivate your fl uorescent proteins RFP-Booster high specifi city for various monomeric red fl uorescent proteins derived from DsRed Coupled to bright and photostable chemical dyes from ATTO-TEC
Components	RFP-Trap? coupled to fluorescent dye ATTO 594

Target details
Target details
Alternative Name	RFP
Background	Red fluorescent proteins (RFP) and variants thereof are widely used to study protein localization and dynamics in living cells. However, photo stability and quantum efficiency of RFP are not sufficient for Super-Resolution Microscopy (e.g. 3D-SIM or STED) of fixed samples. In addition, many cell biological methods such as BrdU-staining, EdU-Click-iT? treatment or Fluorescent In Situ Hybridization result in disruption of the RFP signal.The RFP-Booster_Atto594, a specific RFP-binding protein coupled to the fluorescent dye ATTO 594, reactivates, boosts and stabilizes your RFP signal.
Research Area	Tags/Labels

Application Details
Application Details
Application Notes	For the immunofluorescence staining of RFP-fusion proteins in fixed cells
Comment	Booster are very small, highly specific GFP- or RFP-binding proteins covalently coupled to the superior fluorescent dyes from ATTO-TEC.
Assay Procedure	1. Fixation: 4% paraformaldehyde (PFA) or 1:10 formalin (37% formaldehyde, 10-15% MetOH) in PBS, 10 min., RT. 2. Wash 3x with PBS containing 0.1% Tween 20 (PBST). Critical: do not let coverslips “dry”. 3. Permeabilisation: PBS containing 0.5% Triton X-100, 5 min., RT. Alternatively, permeabilise by incubating in 100% methanol for 5 min at -20°C. 4. Wash 2x with PBST. 5. Blocking: 4% BSA in PBST, 10 min, RT. 6. RFP-Booster incubation: dilute RFP-Booster 1:200 – 1:400 in blocking buffer and incubate 1 h, RT. Note: For multiplexing protocols you can combine RFP-Booster with any other antibody. 7. Wash 3x 5-10 min in PBST. 8. If required, counterstain with DNA fluorescent dyes, e.g. DAPI. 9. Before mounting, coverslips can be very briefly rinsed in water to prevent salt crystals to form. 10. Mount in VectaShield (Vector Labs) or other mounting media with anti-fading agents and seal mounted coverslips with clear nail polish.
Restrictions	For Research Use only

Handling
Handling
Format	Liquid
Concentration	0.2 mg/ml
Buffer	PBS, 0.01% Sodium azide
Preservative	Sodium azide
Precaution of Use	This product contains sodium azide: a POISONOUS AND HAZARDOUS SUBSTANCE which should be handled by trained staff only.
Handling Advice	Do not freeze. Protect from light.
Storage	4 °C
Expiry Date	6 months

Images
Images
Supplier Images	RFP-Booster specifically labels RFP-fusion proteins. HeLa cells expressing mRFP-PCNA,... Enhancement of RFP signal with RFP-Booster_Atto594. Comparison of signal intensity of... Improvement of RFP signal stability with RFP-Booster_Atto594. RFP fluorescence bleach... Images for product: RFP-Booster (Atto 594) RFP-Booster specifically labels RFP-fusion proteins. HeLa cells expressing mRFP-PCNA, fixed and permeabilized. Specific staining of early, mid and late replication foci with RFP-Booster_Atto594 (dilution 1/200, 1 h at RT). Enhancement of RFP signal with RFP-Booster_Atto594. Comparison of signal intensity of a HeLa cell line stably expressing a nuclear RFP-fusion protein before and after RFP-Booster treatment (1/200 dilution). Improvement of RFP signal stability with RFP-Booster_Atto594. RFP fluorescence bleaches very quickly upon irradiation with high laser intensity. In contrast, fluorescent signal remains stable when enhanced with RFP-Booster_Atto594.

References
References
Product cited in:	Vietri, Schink, Campsteijn, Wegner, Schultz, Christ, Thoresen, Brech, Raiborg, Stenmark: "Spastin and ESCRT-III coordinate mitotic spindle disassembly and nuclear envelope sealing." in: Nature, Vol. 522, Issue 7555, pp. 231-5, 2015 (PubMed). Osterfield, Schüpbach, Wieschaus, Shvartsman: "Diversity of epithelial morphogenesis during eggshell formation in drosophilids." in: Development (Cambridge, England), Vol. 142, Issue 11, pp. 1971-7, 2015 (PubMed). Platonova, Winterflood, Junemann, Albrecht, Faix, Ewers: "Single-molecule microscopy of molecules tagged with GFP or RFP derivatives in mammalian cells using nanobody binders." in: Methods (San Diego, Calif.), 2015 (PubMed). Biermann, Sokoll, Klueva, Missler, Wiegert, Sibarita, Heine: "Imaging of molecular surface dynamics in brain slices using single-particle tracking." in: Nature communications, Vol. 5, pp. 3024, 2014 (PubMed). Bleck, Itano, Johnson, Thomas, North, Bieniasz, Simon: "Temporal and spatial organization of ESCRT protein recruitment during HIV-1 budding." in: Proceedings of the National Academy of Sciences of the United States of America, Vol. 111, Issue 33, pp. 12211-6, 2014 (PubMed). Winterflood, Ewers: "Single-Molecule Localization Microscopy using mCherry." in: Chemphyschem : a European journal of chemical physics and physical chemistry, Vol. 15, Issue 16, pp. 3447-51, 2014 (PubMed). Hasegawa, Ryu, Kaláb: "Chromosomal gain promotes formation of a steep RanGTP gradient that drives mitosis in aneuploid cells." in: The Journal of cell biology, Vol. 200, Issue 2, pp. 151-61, 2013 (PubMed). Franz, Roque, Saurya, Dobbelaere, Raff: "CP110 exhibits novel regulatory activities during centriole assembly in Drosophila." in: The Journal of cell biology, Vol. 203, Issue 5, pp. 785-99, 2013 (PubMed). Ridzuan, Moon, Knuepfer, Black, Holder, Green: "Subcellular location, phosphorylation and assembly into the motor complex of GAP45 during Plasmodium falciparum schizont development." in: PLoS ONE, Vol. 7, Issue 3, pp. e33845, 2012 (PubMed). Mikeladze-Dvali, von Tobel, Strnad, Knott, Leonhardt, Schermelleh, G?nczy: "Analysis of centriole elimination during C. elegans oogenesis." in: Development (Cambridge, England), Vol. 139, Issue 9, pp. 1670-9, 2012 (PubMed). Ries, Kaplan, Platonova, Eghlidi, Ewers: "A simple, versatile method for GFP-based super-resolution microscopy via nanobodies." in: Nature methods, Vol. 9, Issue 6, pp. 582-4, 2012 (PubMed). Weil, Parton, Herpers, Soetaert, Veenendaal, Xanthakis, Dobbie, Halstead, Hayashi, Rabouille, Davis: "Drosophila patterning is established by differential association of mRNAs with P bodies." in: Nature cell biology, Vol. 14, Issue 12, pp. 1305-13, 2012 (PubMed). Cordes, Maiser, Steinhauer, Schermelleh, Tinnefeld: "Mechanisms and advancement of antifading agents for fluorescence microscopy and single-molecule spectroscopy." in: Physical chemistry chemical physics : PCCP, Vol. 13, Issue 14, pp. 6699-709, 2011 (PubMed). Guizetti, Schermelleh, M?ntler, Maar, Poser, Leonhardt, Müller-Reichert, Gerlich: "Cortical constriction during abscission involves helices of ESCRT-III-dependent filaments." in: Science (New York, N.Y.), Vol. 331, Issue 6024, pp. 1616-20, 2011 (PubMed).