RT @TaliLev123: Diana Hargreaves talks about SWI/SNF complexes in development and disease today at @AACRepigen22. See related paper, publis…
RT @TaliLev123: Diana Hargreaves talks about SWI/SNF complexes in development and disease today at @AACRepigen22. See related paper, publis…
Diana Hargreaves talks about SWI/SNF complexes in development and disease today at @AACRepigen22. See related paper, published in @CD_AACR by @LabJacks: Smarca4 Inactivation Promotes Lineage-Specific Transformation and Early Metastatic Features in the Lung
RT @RobotRrid: The authors of "Smarca4 inactivation promotes lineage-specific tra…" (https://t.co/tF6GU3jn5i) included RRIDs in their paper…
The authors of "Smarca4 inactivation promotes lineage-specific tra…" (https://t.co/tF6GU3jn5i) included RRIDs in their paper! Thank you for making your #methodsmatter. #reproducibility
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
RT @CD_AACR: #ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepc…
#ICYMI: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepcion, @LabJacks et al. https://t.co/ZX0xDr1GeI @kochinstitute @MITBiology https://t.co/CTwi1cLrGE
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
More high impact publications on the functions of SMARCA proteins!
#SMARCA4 is known to be mutated in number of cancers lacking targetable oncogenes, with SMARCA4-mutant patient population representing 10%-20% of NSCLC, 100% small cell ovarian cancer (hypercalcemic type), 28% skin cancer, 16% glioma and 14% colon cancer.
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
RT @CD_AACR: From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lu…
From the February issue: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung by @cp_concepcion, @LabJacks et al. https://t.co/9k1JWWSLKe @kochinstitute @MITBiology https://t.co/vP8HQdkquf
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉 https://t.co…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
Smarca4 Inactivation Promotes Lineage-Specific Transformation and Early Metastatic Features in the Lung https://t.co/f74SaRHU9l
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @cp_concepcion: Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
Thank you @MITBiology for highlighting our work! Very happy to see it out in this month’s @CD_AACR issue! 🎉
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
RT @MITBiology: SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @L…
Interesting at the first glance
SMARCA4, a component of the SWI/SNF chromatin remodeling complex, is among the top mutated genes in lung adenocarcinoma. @LabJacks recently probed the role it plays in tumor initiation and progression, chromatin state, and SWI/SNF function in lung cancer:
RT @seiichi_mori: “loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion t…
“loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion to malignant transformation and tumor progression, resulting in highly advanced dedifferentiated tumors and increased metastatic inciden
RT @isciverse: Online Now | Cancer Discovery Smarca4 Inactivation Promotes Lineage-Specific Transformation and Early #Metastatic Features…
Online Now | Cancer Discovery Smarca4 Inactivation Promotes Lineage-Specific Transformation and Early #Metastatic Features in the #Lung. #Cancers #lungcancer #metastasis @CD_AACR @isciverse https://t.co/axiAc1dAfs
SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung https://t.co/557UfQu16E
RT @NatRevClinOncol: Mechanistic study shows that SMARCA4 loss sensitizes CCSP+ lung progenitor cells to lineage-specific transformation, p…
Mechanistic study shows that SMARCA4 loss sensitizes CCSP+ lung progenitor cells to lineage-specific transformation, progression to highly dedifferentiated tumours & early metastatic features via SWI/SNF disruption & decreased chromatin accessibili
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
RT @EllisLab_: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery h…
RT @EllisLab_: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery h…
RT @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF…
RT @EllisLab_: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery h…
RT @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF…
RT @EllisLab_: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery h…
RT @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF…
RT @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF…
RT @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF…
SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery https://t.co/8dxO1bPsCu
SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung. https://t.co/bhPsapIF7V. @cp_concepcion @LabJacks @kochinstitute @MITBiology https://t.co/saea4WZvtw
RT @ElizSMcKenna: Now online in @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in th…
RT @swisnf: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung https://t.co/xwE54qOHl5…
RT @ElizSMcKenna: Now online in @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in th…
SMARCA4 (SWI/SNF complex) https://t.co/SGZdedbzSe
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
RT @ElizSMcKenna: Now online in @CD_AACR: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in th…
SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung https://t.co/xwE54qOHl5 https://t.co/k6FBGGHxQi
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
Pubmed: SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung https://t.co/H9Gra8NAwD
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
RT @cp_concepcion: Excited to share our work @LabJacks out @CD_AACR today that identifies the cell-of-origin as a critical determinant of S…
SMARCA4 inactivation promotes lineage-specific transformation and early metastatic features in the lung | Cancer Discovery https://t.co/Pw5D4n8ePx