Focused On-demand Library for Exopolyphosphatase PRUNE1

Details

Focused On-demand Libraries - Receptor.AI Collaboration


Explore the Potential with AI-Driven Innovation

The specialised, focused library is developed on demand with the most recent virtual screening and parameter assessment technology, guided by the Receptor.AI drug discovery platform. This approach exceeds the capabilities of traditional methods and offers compounds with higher 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.


We use our state-of-the-art dedicated workflow for designing focused libraries for enzymes.


 

Fig. 1. The screening workflow of Receptor.AI

The procedure entails thorough molecular simulations of the catalytic and allosteric binding pockets, accompanied by ensemble virtual screening that factors in their conformational flexibility. When developing modulators, the structural modifications brought about by reaction intermediates are factored in to optimize activity and selectivity.


Several key aspects differentiate our library:


  • Receptor.AI compiles an all-encompassing dataset on the target protein, including historical experiments, literature data, known ligands, and structural insights, maximising the chances of prioritising the most pertinent compounds.

  • The platform employs state-of-the-art molecular simulations to identify potential binding sites, ensuring the focused library is primed for discovering allosteric inhibitors and binders of concealed pockets.

  • Over 50 customisable AI models, thoroughly evaluated in various drug discovery endeavours and research projects, make Receptor.AI both efficient and accurate. This technology is integral to the development of our focused libraries.

  • In addition to generating focused libraries, Receptor.AI offers a full range of services and solutions for every step of preclinical drug discovery, with a pricing model based on success, thereby reducing risk and promoting joint project success.

PARTNER
Receptor.AI
 
UPACC
Q86TP1

UPID:
PRUN1_HUMAN

ALTERNATIVE NAMES:
Drosophila-related expressed sequence 17; HTcD37; Protein prune homolog 1

ALTERNATIVE UPACC:
Q86TP1; B2RCH8; B4DFL7; Q5SZF9; Q659E5; Q6P4E0; Q8N654; Q96JU5; Q9C071; Q9C072; Q9UIV0

BACKGROUND:
The Exopolyphosphatase PRUNE1 enzyme, known alternatively as Drosophila-related expressed sequence 17, HTcD37, and Protein prune homolog 1, exhibits preferential activity towards cAMP over cGMP. It is crucial for various cellular processes including proliferation, migration, and differentiation, and negatively regulates NME1. PRUNE1 also plays a significant role in neurogenesis and the regulation of microtubule polymerization.

THERAPEUTIC SIGNIFICANCE:
Mutations affecting PRUNE1 are responsible for a neurodevelopmental disorder marked by microcephaly, hypotonia, and brain anomalies. The enzyme's involvement in this condition highlights its potential as a target for therapeutic intervention, offering hope for treatments that could ameliorate or even prevent the debilitating effects of the disease.

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