QB3 Webinar: Anshul Kundaje, Stanford. "Deep Learning for Genomic Discovery"
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- čas přidán 24. 04. 2022
- The human genome contains the fundamental code that defines the identity and function of all the cell types and tissues in the human body. Genes are functional sequence units that encode for proteins. But they account for just about 2% of the 3 billion long human genome sequence. What does the rest of the genome encode? How is gene activity controlled in each cell type? Where do the regulatory control elements lie and what is their sequence composition? How do variants and mutations in the genome sequence affect cellular function and disease?
These are fundamental questions that remain largely unanswered. The regulatory code that controls gene activity is encoded in the DNA sequence of millions of cell type specific regulatory DNA elements in the form of functional DNA words and grammars. This regulatory code has remained largely elusive despite tremendous developments in experimental techniques to profile molecular properties of regulatory DNA.
Deep learning has revolutionized our understanding of natural language, speech and vision. We strongly believe it has the potential to revolutionize our understanding of the regulatory language of the genome. We have developed deep learning frameworks to learn how genomic sequence encodes millions of experimentally measured regulatory genomic events across 100s of cell types and tissues. We have developed novel methods to interpret our models and extract local and global predictive patterns revealing many insights into the syntax and grammar of the regulatory code.
Our models also serve as in-silico oracles to predict the effects of natural and disease-associated genetic variation i.e. how differences in DNA sequence across healthy and diseased individuals are likely to affect molecular mechanisms associated with common and rare diseases. These models enable optimized design of genome perturbation approaches to decipher functional properties of DNA and variants and serve as a powerful lens for genomic discovery. - Věda a technologie
so cool, would love to work with Dr. Kundaje one day :)
How does BPNET compare to Enformer and DNABERT? Are they complimentary?