You searched for: iFluor®

Supplier: AAT BIOQUEST

For many immunohistochemical (IHC) applications, the traditional enzymatic amplification procedures are sufficient for achieving adequate antigen detection.

Supplier: AAT BIOQUEST

In vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

In vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

In vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

In vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

in vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

In vivo fluorescence imaging uses a sensitive camera to detect fluorescence emission from fluorophores in whole-body living small animals.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

The tetrazine-trans-cyclooctene (TCO) ligation constitutes a non-toxic biomolecule labeling method of unparalleled speed.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 - 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.

Supplier: AAT BIOQUEST

Power Styramide™ Signal Amplification (PSA™) system is one of the most sensitive methods that can detect extremely low-abundance targets in cells and tissues with improved fluorescence signal 10 to 50 times higher than the widely used tyramide (TSA) reagents.