Focused On-demand Libraries - Receptor.AI Collaboration


Explore the Potential with AI-Driven Innovation

Our detailed focused library is generated on demand with advanced virtual screening and parameter assessment technology powered by the Receptor.AI drug discovery platform. This method surpasses traditional approaches, delivering compounds of better quality with enhanced activity, selectivity, and safety.


Our selection of compounds is from a large virtual library of over 60 billion molecules. The production and distribution of these compounds are managed by Reaxense.


The library features a range of promising modulators, each detailed with 38 ADME-Tox and 32 physicochemical and drug-likeness parameters. Plus, each compound is presented with its ideal docking poses, affinity scores, and activity scores, ensuring a thorough insight.


Our high-tech, dedicated method is applied to construct targeted libraries.


 

Fig. 1. The screening workflow of Receptor.AI

Our methodology employs molecular simulations to explore a wide array of proteins, capturing their dynamic states both individually and within complexes. Through ensemble virtual screening, we address conformational mobility, uncovering binding sites within functional regions and remote allosteric locations. This thorough exploration ensures no potential mechanism of action is overlooked, aiming to discover novel therapeutic targets and lead compounds across an extensive spectrum of biological functions.


Our library stands out due to several important features:


  • The Receptor.AI platform compiles comprehensive data on the target protein, encompassing previous experiments, literature, known ligands, structural details, and more, leading to a higher chance of selecting the most relevant compounds.

  • Advanced molecular simulations on the platform help pinpoint potential binding sites, making the compounds in our focused library ideal for finding allosteric inhibitors and targeting cryptic pockets.

  • Receptor.AI boasts over 50 tailor-made AI models, rigorously tested and proven in various drug discovery projects and research initiatives. They are crafted for efficacy, dependability, and precision, all of which are key in creating our focused libraries.

  • Beyond creating focused libraries, Receptor.AI offers comprehensive services and complete solutions throughout the preclinical drug discovery phase. Our success-based pricing model minimises risk and maximises the mutual benefits of the project's success.


PARTNER
Receptor.AI
 
UPACC
Q9UJY1

UPID:
HSPB8_HUMAN

ALTERNATIVE NAMES:
Alpha-crystallin C chain; E2-induced gene 1 protein; Protein kinase H11; Small stress protein-like protein HSP22

ALTERNATIVE UPACC:
Q9UJY1; B2R6A6; Q6FIH3; Q9UKS3

BACKGROUND:
The Heat shock protein beta-8, known under various names such as Alpha-crystallin C chain and Protein kinase H11, exhibits crucial temperature-dependent chaperone activity. This activity is vital for maintaining cellular protein homeostasis, especially under stress conditions, by assisting in the proper folding of proteins and preventing their aggregation.

THERAPEUTIC SIGNIFICANCE:
Linked to the pathogenesis of Neuronopathy, distal hereditary motor, 2A, and Charcot-Marie-Tooth disease, axonal, 2L, Heat shock protein beta-8's involvement in these neuromuscular disorders underscores its therapeutic significance. The protein's role in these diseases highlights the potential for developing novel therapeutic approaches that target the underlying molecular mechanisms, paving the way for innovative treatments.

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