Forskningsradar
← Life Sciences
Life Sciences 4.4

AI Still Struggles to Predict Where RNA Does Its Job

A major benchmark test reveals that artificial intelligence can now predict the overall shape of RNA molecules—a breakthrough for drug design—but fails consistently in the precise regions where RNA performs critical biological functions. For biotech companies developing RNA therapeutics and diagnostics, this gap means computational predictions alone won't replace experimental validation anytime soon.

Originaltitel: Functional Relevance of CASP16 Nucleic Acid Predictions as Evaluated by Structure Providers

Abstrakt

<p>Accurate biomolecular structure prediction enables the prediction of mutational effects, the speculation of function based on predicted structural homology, the analysis of ligand binding modes, experimental model building, and many other applications. Such algorithms to predict essential functional and structural features remain out of reach for biomolecular complexes containing nucleic acids. Here, we report a quantitative and qualitative evaluation of nucleic acid structures for the CASP16 blind prediction challenge by 12 of the experimental groups who provided nucleic acid targets. Blind predictions accurately model secondary structure and some aspects of tertiary structure, including reasonable global folds for some complex RNAs; however, predictions often lack accuracy in the regions of highest functional importance. All models have inaccuracies in non-canonical regions where, for example, the nucleic-acid backbone bends, deviating from an A-form helix geometry, or a base forms a non-standard hydrogen bond (not a Watson-Crick base pair). These bends and non-canonical interactions are integral to forming functionally important regions such as RNA enzymatic active sites. Additionally, the modeling of conserved and functional interfaces between nucleic acids and ligands, proteins, or other nucleic acids remains poor. For some targets, the experimental structures may not represent the only structure the biomolecular complex occupies in solution or in its functional life cycle, posing a future challenge for the community.</p>

Generera ett redaktionellt utkast på svenska