Products & Services

Ready-to-use ADME assay kits with built in quality control.

TRANSIL Plasma Protein Binding Assays

Assessing plasma protein binding is important because only the unbound fraction (fu) of a drug can penetrate cell membranes. Thus, only a drug’s ...
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TRANSIL HSA Binding Kit

The TRANSIL HSA Binding Kit estimates the binding of drugs to human serum albumin (HSA) and predicts the plasma pro...

TRANSIL AGP Binding Kit

The TRANSIL AGP Binding Kit estimates the binding of drugs to human α1 acid glycoprotein (AGP/AAG). The assay kit m...

TRANSIL PPB Binding Kit

The TRANSIL PPB Binding Kit estimates the binding of drugs to human serum albumin (HSA) and human alpha-1 glycoprot...

TRANSIL RSA Binding Kit

The TRANSIL RSA Binding Kit estimates the binding of drugs to rat serum albumin (RSA) and predicts the plasma prote...

TRANSIL MSA Binding Kit

The TRANSIL MSA Binding Kit estimates the binding of drugs to mouse serum albumin (MSA) and predicts the plasma pro...

TRANSIL High Sensitivity Binding Kit

Compounds binding strongly to plasma proteins frequently result in overly small compound concentrations that are di...

TRANSIL Membrane Binding & Permeability Assays

Drug transport can broadly be divided into transcellular and paracellular processes. Transcellular movement, which involves the passage of drugs ...
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TRANSIL Brain Absorption Kit

The TRANSIL Brain Absorption kit estimates the binding of drugs to brain tissue and predicts the disposition of dru...

TRANSIL Intestinal Absorption Kit

The TRANSIL Intestinal Absorption kit measures the affinity of drugs to phosphatidylcholine membranes. It is not on...

TRANSIL Microsomal Binding Kit

When estimating intrinsic clearance in metabolic stability incubations with microsomes or hepatocytes, the disappea...

TRANSIL Membrane Affinity Kit

The TRANSIL MA kit assesses the affinity of compounds to phosphatidylcholine membranes. Movement through membranes ...

Assay Development & Consulting

Assessing plasma protein binding is important because only the unbound fraction (fu) of a drug can penetrate cell membranes.
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