"Concurrent Disruption of the Ras/MAPK and NF-κB Pathways Induces Circadian Deregulation and Hepatocarcinogenesis" https://t.co/XrI1gIxRqX
RT @MCR_AACR: Genomics of #CancerRisk and prognosis are hot topics at #AACR22. Learn more at session MS.PS01.02 and read the article, Concu…
Genomics of #CancerRisk and prognosis are hot topics at #AACR22. Learn more at session MS.PS01.02 and read the article, Concurrent Disruption of the Ras/MAPK and NF-κB Pathways Induces Circadian Deregulation and #Hepatocarcinogenesis. https://t.co/gIoAcR1K
RRIDs were included in the Molecular Cancer Research paper "Concurrent Disruption of the Ras/MAPK and NF-κB Pa…" (https://t.co/slNNRlHJ2p). Thank you for making your #methodsmatter. #reproducibility
#ICYMI: Basal levels of the Ras/MAPK and NF-κB pathways, while promoting tumorigenesis if overactivated, are required to maintain physiological homeostasis and regulate #CircadianRhythm in the liver, which are anti-tumorigenic. https://t.co/awLhsYAyRc http
Basal levels of the Ras/MAPK and NF-κB pathways, while promoting tumorigenesis if overactivated, are required to maintain physiological homeostasis and regulate #CircadianRhythm in the liver, which are anti-tumorigenic. https://t.co/nhkgjgfZYX https://t.co
RT @hepaticcellnews: New in @MCR_AACR: Dr. Gen-Sheng Feng's team at @UCSanDiego reports a gatekeeper 🚧 function of the Ras/Erk and NF-κB p…
New in @MCR_AACR: Dr. Gen-Sheng Feng's team at @UCSanDiego reports a gatekeeper 🚧 function of the Ras/Erk and NF-κB pathways by working in synergy to suppress #LiverTumorigenesis. Full article: 📌 https://t.co/0N07kOaxTZ https://t.co/bEZf7Fra6F
While basal levels of the Ras/MAPK and NF-κB pathways promote tumorigenesis if overactivated, they are also required to maintain physiological homeostasis and regulate circadian rhythm in the liver, which are anti-tumorigenic. https://t.co/8EeGShuBKF https
While basal levels of the Ras/MAPK and NF-κB pathways promoting tumorigenesis if overactivated they are also required to maintain physiological homeostasis and regulate circadian rhythm in the liver, which are anti-tumorigenic. https://t.co/MecRmUvnIg
While basal levels of the Ras/MAPK and NF-κB pathways promoting tumorigenesis if overactivated they are also required to maintain physiological homeostasis and regulate circadian rhythm in the liver, which are anti-tumorigenic. https://t.co/CZLAI5BQpS
Paper alert: Featuring two members of our Research Groups - Dr. Michael Karin and Dr. Gen-Sheng Feng. Link to paper: https://t.co/yvbeWJYCom https://t.co/QRwjZlL1Pp
Congrats to grad program alumna Kaisa Hanley and current student Yan Liang for publishing their study - Disruption of Ras/MAPK and NF-κB Pathways Induces Circadian Deregulation and Hepatocarcinogenesis https://t.co/CWaRVGM0sJ
New article: Concurrent Disruption of Ras/MAPK and NF-κB Pathways Induces Circadian Deregulation and Hepatocarcinogenesis https://t.co/8sFpRxY1I3 #livercancer #oncology https://t.co/h7mBpZErg5