Add to ORKGFunctional genomics approaches such as gain- and loss-of-function screening can efficiently reveal genes that control cancer cell growth, survival, signal transduction, and drug resistance, but distilling the results of large-scale screens into actionable therapeutic strategies is challenging given our incomplete understanding of the functions of many genes. Research over several decades, including the results of large-scale cancer sequencing projects, has made it clear that many oncogenic properties are controlled by a common set of core oncogenic signaling pathways. By directly screening this core set of pathways, rather than much larger numbers of individual genes, it may be possible to more directly and efficiently connect functional ge...
Identifying key somatic alterations in cancer is a critical step in understanding the mechanisms tha...
The past decade has brought together substantial advances in human genome analysis and a maturation ...
Signal transduction pathways commonly go awry in cancer. Recent advances in understanding how these ...
Currently, genomic databases offer a vast amount of information on mutational profiles and records o...
Background: Cancer cells are characterized by massive dysegulation of physiological cell functions w...
The complexity of genomic alterations in cancer has made it difficult to identify oncogenic drivers ...
Background: Cancer cells are characterized by massive dysegulation of physiological cell functions ...
Precision medicine aims to tailor cancer therapies to target specific tumor-promoting aberrations. F...
Abstract Advances in sequencing technology have enabled the genomic and transcriptomic characterizat...
Since response to therapy can differ greatly between cancer patients, a precision medicine approach ...
Technological advances in next-generation sequencing have uncovered a wide spectrum of aberrations i...
The majority of new drug approvals for cancer are based on existing therapeutic targets. One approac...
© 2018 Genetic alterations in signaling pathways that control cell-cycle progression, apoptosis, and...
Cancer is a deadly genetic disease with diverse aspects of complexity, including cancer immune evasi...
The characterization of cancer genomes has provided insight into somatically altered genes across tu...
Identifying key somatic alterations in cancer is a critical step in understanding the mechanisms tha...
The past decade has brought together substantial advances in human genome analysis and a maturation ...
Signal transduction pathways commonly go awry in cancer. Recent advances in understanding how these ...
Currently, genomic databases offer a vast amount of information on mutational profiles and records o...
Background: Cancer cells are characterized by massive dysegulation of physiological cell functions w...
The complexity of genomic alterations in cancer has made it difficult to identify oncogenic drivers ...
Background: Cancer cells are characterized by massive dysegulation of physiological cell functions ...
Precision medicine aims to tailor cancer therapies to target specific tumor-promoting aberrations. F...
Abstract Advances in sequencing technology have enabled the genomic and transcriptomic characterizat...
Since response to therapy can differ greatly between cancer patients, a precision medicine approach ...
Technological advances in next-generation sequencing have uncovered a wide spectrum of aberrations i...
The majority of new drug approvals for cancer are based on existing therapeutic targets. One approac...
© 2018 Genetic alterations in signaling pathways that control cell-cycle progression, apoptosis, and...
Cancer is a deadly genetic disease with diverse aspects of complexity, including cancer immune evasi...
The characterization of cancer genomes has provided insight into somatically altered genes across tu...
Identifying key somatic alterations in cancer is a critical step in understanding the mechanisms tha...
The past decade has brought together substantial advances in human genome analysis and a maturation ...
Signal transduction pathways commonly go awry in cancer. Recent advances in understanding how these ...