Proteins are where biological intent becomes functional reality. Allabio’s Protein Analysis Portfolio is built to interrogate this reality from three tightly connected dimensions: detection, interaction, and structure. By integrating antibody-based technologies, TR-FRET interaction analysis, and protein docking computation, we provide a coherent, end-to-end framework for understanding how proteins behave, interact, and can ultimately be modulated.
Antibody-Based Protein Analysis
Antibodies are the language of specificity. They allow precise detection, quantification, and localization of proteins across diverse experimental systems. Allabio’s antibody solutions support core applications such as expression profiling, target validation, and interaction confirmation, forming the experimental foundation of reliable protein analysis.
TR-FRET Protein Interaction Analysis
Protein function rarely acts alone. Using time-resolved FRET (TR-FRET) technology, Allabio enables homogeneous, low-background analysis of protein–protein interactions and binding events. TR-FRET bridges the gap between qualitative observation and quantitative measurement, supporting pathway analysis, mechanism-of-action studies, and high-throughput screening with exceptional robustness and scalability.
Protein Docking & Structural Analysis
Structure explains why interactions happen. Allabio’s protein docking and structural analysis services translate experimental observations into three-dimensional mechanistic insight. By predicting binding modes, interaction interfaces, and key residues, docking analysis guides rational experiment design, mutation strategies, and lead optimization—reducing trial-and-error at both research and development stages.
A Unified Analytical Philosophy
What sets Allabio apart is not any single technology, but their intentional integration:
- Antibodies define what to measure
- TR-FRET quantifies how strongly and under what conditions proteins interact
- Protein docking explains how and why those interactions occur at the molecular level
Together, they form a closed analytical loop—linking experimental data with structural reasoning and predictive modeling.