[HTML][HTML] Sparse dictionary learning recovers pleiotropy from human cell fitness screens
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
[HTML][HTML] Sparse dictionary learning recovers pleiotropy from human cell fitness screens
J Pan, JJ Kwon, JA Talamas, AA Borah, F Vazquez… - Cell Systems, 2022 - Elsevier
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
Sparse dictionary learning recovers pleiotropy from human cell fitness screens
J Pan, JJ Kwon, JA Talamas, AA Borah… - arXiv preprint arXiv …, 2021 - arxiv.org
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
Sparse dictionary learning recovers pleiotropy from human cell fitness screens
J Pan, JJ Kwon, JA Talamas, AA Borah… - Cell …, 2022 - pubmed.ncbi.nlm.nih.gov
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
Sparse dictionary learning recovers pleiotropy from human cell fitness screens.
J Pan, JJ Kwon, JA Talamas, AA Borah, F Vazquez… - Cell …, 2022 - europepmc.org
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
Sparse dictionary learning recovers pleiotropy from human cell fitness screens
J Pan, JJ Kwon, JA Talamas, AA Borah… - arXiv e …, 2021 - ui.adsabs.harvard.edu
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …
[HTML][HTML] Sparse dictionary learning recovers pleiotropy from human cell fitness screens
J Pan, JJ Kwon, JA Talamas, AA Borah, F Vazquez… - Cell systems, 2022 - ncbi.nlm.nih.gov
In high-throughput functional genomic screens, each gene product is commonly assumed to
exhibit a singular biological function within a defined protein complex or pathway. In …
exhibit a singular biological function within a defined protein complex or pathway. In …