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E110817-100gBrominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.
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E110817-25gBrominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.
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E110817-500gBrominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.
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E110817-5gBrominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.
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E489856-100gEosin Y is a brominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.A brominated fluoroscein dye derivative.
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E489856-25gEosin Y is a brominated fluoroscein dye derivative used as an acidic red stain for cell cytoplasm.A brominated fluoroscein dye derivative.
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E113225-10gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the
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E113225-250gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the
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E113225-50gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the
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E141405-100gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the
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E141405-25gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the
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E141405-500gEosin Y, a red xanthene dye, has been noted to reduce the affinity of Mg2+-ATPase for ATP and increase the enzyme affinity for Mg2+ at concentrations of 10-50 μM. At higher concentrations near 100 μM the affinity for Mg2+-ATPase for the