[HTML][HTML] Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead, I Sach, C Ni, N LeMeur, M Kruger… - BMC Systems …, 2009 - Springer
Background A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
Knowledge based identification of essential signaling from genome-scale siRNA experiments.
A Bankhead 3rd, I Sach, C Ni, N LeMeur… - BMC Systems …, 2009 - europepmc.org
Background A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
[PDF][PDF] Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead III, I Sach, C Ni, N LeMeur, M Kruger… - BMC Systems …, 2009 - core.ac.uk
Background: A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead 3rd, I Sach, C Ni… - BMC systems …, 2009 - pubmed.ncbi.nlm.nih.gov
Background A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead III, I Sach, C Ni, N LeMeur… - BMC Systems …, 2009 - search.proquest.com
Background: A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
Knowledge based identification of essential signaling from genome-scale siRNA experiments.
A Bankhead, I Sach, C Ni, N Lemeur, M Kruger… - BMC Systems …, 2009 - hal.science
BACKGROUND: A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
[PDF][PDF] Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead III, I Sach, C Ni, N LeMeur… - BMC Systems …, 2009 - cyberleninka.org
Background: A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
[HTML][HTML] Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead III, I Sach, C Ni, N LeMeur… - BMC Systems …, 2009 - ncbi.nlm.nih.gov
Background A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …
[HTML][HTML] Knowledge based identification of essential signaling from genome-scale siRNA experiments
A Bankhead, I Sach, C Ni… - BMC Systems …, 2009 - bmcsystbiol.biomedcentral.com
A systems biology interpretation of genome-scale RNA interference (RNAi) experiments is
complicated by scope, experimental variability and network signaling robustness. Over …
complicated by scope, experimental variability and network signaling robustness. Over …
Knowledge based identification of essential signaling from genome-scale siRNA experiments.
A Bankhead, I Sach, C Ni, N Lemeur… - BMC Systems …, 2009 - inria.hal.science
BACKGROUND: A systems biology interpretation of genome-scale RNA interference (RNAi)
experiments is complicated by scope, experimental variability and network signaling …
experiments is complicated by scope, experimental variability and network signaling …