Protein degrader is a chemical molecule that harnesses the intracellular protein degradation system to achieve targeted protein degradation, serving as both a powerful research tool and an emerging therapeutic strategy.
Protein Degrader is a heterobifunctional molecule composed of three core components: (1) a ligand that specifically binds the target protein (TP); (2) a ligand that recruits an E3 ubiquitin ligase; and (3) a chemical linker that connects these two ligands.
Fig1. Overview steps of entire target protein degradation by protein degraders [1].
Protein Degrader's mechanism of action is based on the cell's ubiquitin-proteasome system. Under physiological conditions, E3 ubiquitin ligases catalyze the polyubiquitination of specific substrate proteins. These tagged proteins are subsequently recognized and degraded by the proteasome, which constitutes the primary pathway for protein degradation in cells.
Protein Degrader molecules act as a bridge, simultaneously binding both the target protein and the E3 ligase, bringing them into nanometer proximity to form a "ternary complex." This proximity effect enables the E3 ligase to ubiquitinate the target protein, ultimately leading to its degradation by the proteasome. Importantly, the protein degrader molecule itself is not degraded during this process; instead, it dissociates from the target protein and enters the next catalytic cycle, giving it a recyclable nature.
This mechanism confers unique advantages upon protein degraders: they represent a fast and reversible chemical knockdown strategy that operates through a catalytic cycle, enabling efficient degradation of target proteins at sub-stoichiometric concentrations. Compared to traditional small-molecule inhibitors, protein degraders directly eliminate disease-causing proteins rather than merely blocking their function, offering a new paradigm for studying disease-associated proteins and developing novel therapeutics.
Specifically, protein degrader technology demonstrates:
This transformative modality has catalyzed intensive investment across academia and the biopharmaceutical sector. Our platform has supported the development of degraders targeting oncogenic drivers, immune checkpoints, viral capsid proteins, and neurodegenerative aggregates. protein degrader technology represents not merely an incremental improvement, but a fundamental redefinition of pharmacological intervention.
| Service Modules | Deliverables & Technical Specifications | Platform Differentiators |
| E3 Ligase & Target Protein Development |
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Full-spectrum E3 toolbox enables context-specific recruitment strategies |
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| Ligand Discovery & Medicinal Chemistry |
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Dual chemistry paradigm accelerates hit-to-lead progression |
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| Protein Degrader Custom Synthesis |
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Rapid turnaround with 2-4 week iterative cycles |
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| Structural & Mechanistic Biology |
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Deep biophysical validation ensures mechanistic clarity |
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| Comprehensive In Vitro Profiling |
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5-dimensional dataset accelerates candidate triage |
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| In Vivo Pharmacology |
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Integrated multi-omics validates on-target degradation |
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Beyond conventional protein degraders, our platform pioneers four next-generation modalities to overcome biological limitations:
Next Steps
Contact our business development team for a confidential consultation. We deliver:
Profacgen is positioned as your strategically in pioneering targeted protein degradation therapeutics—transforming scientific vision into clinical reality.
[1] Hongying Gao, Yu Rao. PROTAC Technology: Opportunities and Challenges. ACS Medicinal Chemistry Letters 2020 11 (3), 237-240. DOI: 10.1021/acsmedchemlett.9b00597
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