Leveraging breakthrough technologies to map linear, conformational and discontinuous epitopes with amino acid level resolution
A revolutionary technology that generates free radicals from a
plasma for Protein Footprinting. PLIMB is used for analyzing
protein structure and interactions with unprecedented degree of
speed, resolution and accuracy.
High Resolution Epitope Mapping
Antibody Aggregation Analysis
Epitope-Based Screening
Epitope Target Identification
High Resolution Epitope Mapping
Antibody Aggregation Analysis
Epitope-Based Screening
Epitope Target Identification
PLIMB is a revolutionary technique that provides high resolution data on the native, in-solution structure of the therapeutic and target antigen in a rapid analysis that is applicable to a wide range of proteins.
Developed in 2002, Hydroxyl Radical Protein Footprinting (HRF) has a long track record of success in academic labs for protein structural studies. At Immuto Scientific, we are leveraging this powerful, highly validated technique to analyze protein-protein interactions and map epitopes with an unprecedented degree of speed, resolution and accuracy.
“The service provided by Immuto was exceptional.
The sample prep optimization and analysis from
Immuto was high quality and the final project report
clearly explained the study design and
experimental outcomes."
Rational Design. Supercharged.
© Copyright 2024 Immuto Therapeutics. All rights reserved.
Leveraging breakthrough technologies to map linear, conformational and discontinuous epitopes with amino acid level resolution
A revolutionary technology that generates free radicals from a
plasma for Protein Footprinting. PLIMB is used for analyzing
protein structure and interactions with unprecedented degree of
speed, resolution and accuracy.
High Resolution Epitope Mapping
Antibody Aggregation Analysis
Epitope-Based Screening
Epitope Target Identification
High Resolution Epitope Mapping
Antibody Aggregation Analysis
Epitope-Based Screening
Epitope Target Identification
PLIMB is a revolutionary technique that provides high resolution data on the native, in-solution structure of the therapeutic and target antigen in a rapid analysis that is applicable to a wide range of proteins.
Developed in 2002, Hydroxyl Radical Protein Footprinting (HRF) has a long track record of success in academic labs for protein structural studies. At Immuto Scientific, we are leveraging this powerful, highly validated technique to analyze protein-protein interactions and map epitopes with an unprecedented degree of speed, resolution and accuracy.
The service provided by Immuto was exceptional.
The sample prep optimization and analysis from
Immuto was high quality and the final project report
clearly explained the study design and
experimental outcomes.
-Senior Scientist at a top 5 US-based
pharmaceutical company
We are leveraging breakthrough technologies to transform drug discovery.
Acquiring detailed knowledge of epitope interactions is critical in the lead validation stage of drug discovery, as it provides insight into the binding mechanism, enabling the optimization of various properties of a drug candidate such as specificity and binding affinity.
Furthermore, a detailed epitope map can provide stronger intellectual property (IP) protection. Epitope claims included in drug patents protect against binders to a specific epitope of the given target, allowing for much broader IP protection.
PLIMB is a revolutionary technique that provides high resolution data on the native, in-solution structure of the therapeutic and target antigen in a rapid analysis that is applicable to a wide range of proteins.
Acquiring detailed knowledge of epitope interactions is critical in the lead validation stage of drug discovery, as it provides insight into the binding mechanism, enabling the optimization of various properties of a drug candidate such as specificity and binding affinity.
Furthermore, a detailed epitope map can provide stronger intellectual property (IP) protection. Epitope claims included in drug patents protect against binders to a specific epitope of the given target, allowing for much broader IP protection.
PLIMB is a revolutionary technique that provides high resolution data on the native, in-solution structure of the therapeutic and target antigen in a rapid analysis that is applicable to a wide range of proteins.
