AlphaGenome System

An AlphaGenome System is a genomic AI system that is a gene regulation prediction system that can support DNA sequence analysis tasks (by predicting how genetic variants affect molecular processes regulating genes).

• AKA: AlphaGenome, AlphaGenome AI, DeepMind AlphaGenome.
• Context:
  • It can typically predict Gene Expression Patterns from DNA sequences with base-pair resolution.
  • It can typically analyze DNA Sequence Lengths up to one million base pairs for long-range regulatory interactions.
  • It can typically generate Molecular Property Predictions including splicing patterns, chromatin accessibility, and transcription factor binding.
  • It can typically process Single Nucleotide Variants to determine variant effects on gene regulation mechanisms.
  • It can typically produce Multi-Modal Predictions across different tissue types and cell types.
  • ...
  • It can often outperform Specialized Genomic Models like SpliceAI and ChromBPNet at domain-specific tasks.
  • It can often identify Disease-Causing Variants through regulatory mechanism prediction.
  • It can often simulate Virtual Genetic Experiments for hypothesis testing.
  • It can often generate Variant Scores in sub-second timeframes on H100 GPUs.
  • ...
  • It can range from being a Simple AlphaGenome System to being a Complex AlphaGenome System, depending on its alphagenome prediction scope.
  • It can range from being a Research AlphaGenome System to being a Clinical AlphaGenome System, depending on its alphagenome application domain.
  • ...
  • It can integrate with Genomic Research Platforms through AlphaGenome APIs.
  • It can leverage Transformer Architectures combined with convolutional neural networks.
  • It can utilize TPU Infrastructures for distributed training.
  • It can build upon Enformer Models for enhanced prediction capability.
  • It can complement AlphaMissense Systems for comprehensive variant analysis.
  • ...
• Example(s):
  • AlphaGenome Implementations, such as:
    • DeepMind AlphaGenome (2025), achieving state-of-the-art performance on 26 genomic benchmarks.
    • AlphaGenome API Service, providing non-commercial research access to genomic predictions.
    • AlphaGenome Colab Notebook, enabling custom prediction generation for research projects.
  • AlphaGenome Applications, such as:
    • Cancer Mutation AlphaGenome Analysis for leukemia-associated variants predicting TAL1 gene activation.
    • Rare Disease AlphaGenome Investigation for pathogenic variant identification in ultra-rare cancers.
    • Drug Target AlphaGenome Discovery for therapeutic target identification through regulatory network analysis.
  • AlphaGenome Prediction Types, such as:
    • Gene Expression AlphaGenome Prediction for transcriptional activity levels.
    • Splice Site AlphaGenome Prediction for RNA processing patterns.
    • Chromatin State AlphaGenome Prediction for epigenetic modifications.
    • 3D Genome AlphaGenome Prediction for chromosomal contact maps.
  • ...
• Counter-Example(s):
  • Protein Structure Prediction Systems, which predict 3D protein conformations rather than gene regulation effects.
  • DNA Sequencing Systems, which determine nucleotide sequences rather than predict regulatory consequences.
  • Gene Expression Measurement Systems, which experimentally measure rather than computationally predict expression levels.
• See: Genomic AI System, Gene Regulation Prediction, DNA Sequence Analysis, Enformer Model, AlphaMissense System, Variant Effect Prediction, Regulatory Genomics, DeepMind AI System.