Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large-scale models of signaling networks.
M Garrido-Rodriguez, K Zirngibl, O Ivanova… - Molecular Systems …, 2022 - europepmc.org
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
[HTML][HTML] Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks
M Garrido‐Rodriguez, K Zirngibl, O Ivanova… - Molecular Systems …, 2022 - ncbi.nlm.nih.gov
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks
M Garrido‐Rodriguez, K Zirngibl, O Ivanova… - Molecular Systems …, 2022 - embopress.org
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks.
M Garrido‐Rodriguez, K Zirngibl, O Ivanova… - Molecular Systems …, 2022 - go.gale.com
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large-scale models of signaling networks
M Garrido-Rodriguez, K Zirngibl… - Molecular …, 2022 - pubmed.ncbi.nlm.nih.gov
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks
M Garrido‐Rodriguez, K Zirngibl, O Ivanova… - 2022 - agris.fao.org
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
Integrating knowledge and omics to decipher mechanisms via large-scale models of signaling networks
M Garrido-Rodriguez, K Zirngibl… - Molecular …, 2022 - researchinformation.amsterdamumc …
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …
[HTML][HTML] Integrating knowledge and omics to decipher mechanisms via large‐scale models of signaling networks
M Garrido‐Rodriguez, K Zirngibl, O Ivanova… - Molecular Systems …, 2022 - embopress.org
Signal transduction governs cellular behavior, and its dysregulation often leads to human
disease. To understand this process, we can use network models based on prior …
disease. To understand this process, we can use network models based on prior …