Flamma® 552 TUNEL assay kit Reference: XTN1201_50 tests Flamma® 552 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 552 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 552 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
Flamma® 552 TUNEL assay kit Reference: XTN1201_100 tests Flamma® 552 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 552 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 552 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
Flamma® 552 TUNEL assay kit Reference: XTN1201_200 tests Flamma® 552 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 552 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 552 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
Flamma® 648 TUNEL assay kit Reference: XTN1301_50 tests Flamma® 648 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 648 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 648 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
Flamma® 648 TUNEL assay kit Reference: XTN1301_100 tests Flamma® 648 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 648 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 648 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
Flamma® 648 TUNEL assay kit Reference: XTN1301_200 tests Flamma® 648 TUNEL assay kit was developed for quantitative analysis of apoptotic cells in the mixed cell populations. The kit employs dUTP conjugated Flamma® 648 dye for labeling of fixed cells or tissues. Flamma® Fluor dyes display excellent fluorescence activity and photostability after conjugated to biomolecules, allowing detection of low-abundance biological structures with great sensitivity. This assay kit is reliable and effective method to detect and quantify a wide levels of apoptotic cells by fluorescence microscopy and flow cytometry. BioActs offers Flamma® 648 TUNEL assay kit for the detection apoptotic cells in frozen and formalin-fixed tissue sections, determination of the sensitivity of malignant cells to drug-induced apoptosis, discrimination of apoptotic and necrotic cells in the cell death environment, etc.
FSD Fluor™ 488 Phalloidin Reference: RCS2114_300 tests FSD Fluor™ 488 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 488. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 488 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.
FSD Fluor™ 555 Phalloidin Reference: RCS2214_300 tests FSD Fluor™ 488 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 488. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 488 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.
FSD Fluor™ 594 Phalloidin Reference: RCS2314_300 tests FSD Fluor™ 594 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 594. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 594 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.
FSD Fluor™ 647 Phalloidin Reference: RCS2414_300 tests FSD Fluor™ 647 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 647. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 647 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.
FSD Fluor™ 680 Phalloidin Reference: RCS2514_300 tests FSD Fluor™ 680 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 680. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 680 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.
FSD Fluor™ 750 Phalloidin Reference: RCS2614_300 tests FSD Fluor™ 750 Phalloidin is a filamentous actin (F-actin) labeling probe that phalloidin is conjugated with our bright, photostable FSD 750. Phalloidin is a rigid bicyclic peptide toxin isolated from Amanita phalloides mushroom that commonly used in imaging applications to selective label F-actin. Phalloidin binds stoichiometrically with actin. Fluorescent phalloidin conjugates are not permeable to most live cells, thus they should be used to detect cells with compromised membranes. However, fluorescent labeled phalloidins may penetrate the membranes of certain hypoxic cells. We offer FSD Fluor™ 750 Phalloidin for the labeling and quantitative analysis of F-actin in formaldehyde-fixed and permeabilized tissue sections, cell cultures, and cell-free experiments.