CoraLite®594-Phalloidin (red)

Excitation Laser

593 nm

Emission

614 nm

Application

IF

Cat no : PF00003



Product Information

Phalloidin is a toxin isolated from mushrooms that binds F-Actin in the cytoskeleton. This product is conjugated to our fluorescent CoraLite(R) dye to stain F-actin for labeling, identifying and quantifying actin filaments in immunostaining studies. Compared to many fluorescent dyes, CoraLite(R) dyes have advantages in brightness, light stability and water solubility. Excitation/Emission maxima wavelengths are 593 nm/614 nm

Conjugated

CoraLite®594-Phalloidin(red).

Ex/Em: 593/614 nm

Storage

Store at -20°C. Avoid exposure to light. Stable for 2 years after shipment. 

Protocol

Stock preparation: Prepare a 200T/mL stock solution by dissolving lyophilized phalloidin (300T) in 1.5 mL sterile water and protect solution from light.

Fluorescence Microscopy Protocol

Cautions

This product is in the form of freeze-dried powder. Please centrifuge it immediately before use and dissolve it in a suitable solvent before use. Phalloidin is highly toxic, please take protective measures .

Stock preparation

Prepare a 200T/mL stock solution by dissolving lyophilized phalloidin (300T) in 1.5 mL sterile water and protect solution from light.

Cited in Article as

pf00003, CoraLite®594-Phalloidin (red), Proteintech, IL, USA

Publications

ApplicationTitle
IF

Adv Sci (Weinh)

Regulating Type H Vessel Formation and Bone Metabolism via Bone-Targeting Oral Micro/Nano-Hydrogel Microspheres to Prevent Bone Loss

Authors - Junjie Li

Adv Sci (Weinh)

IFITM2 Modulates Endocytosis Maintaining Neural Stem Cells in Developing Neocortex

Authors - Yuqing Lv

J Control Release

3D mesenchymal stem cell exosome-functionalized hydrogels for corneal wound healing

Authors - Yuehe Xu
IF

Biofabrication

Pulsed electromagnetic field-assisted reduced graphene oxide composite 3D printed nerve scaffold promotes sciatic nerve regeneration in rats

Authors - Zichao Wang

Environ Pollut

Chronic exposure to polystyrene microplastics induced LHR reduction and decreased testosterone levels through NF-κB pathway

Authors - Haibo Jin
IF

Antiviral Res

Host factor DUSP5 potently inhibits dengue virus infection by modulating cytoskeleton rearrangement

Authors - Minqi Liang