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Andrea Quintanilla

Showing results (1-10 of 13) with videos related to

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Science Signaling|July 18, 2023
ERK2 stimulates <i>MYC</i> transcription by anchoring CDK9 to the <i>MYC</i> promoter in a kinase activity-independent mannerLorena Agudo-Ibáñez, Marta Morante, Lucía García-Gutiérrez, et al.
Elife|December 3, 2024
TPR is required for cytoplasmic chromatin fragment formation during senescenceBethany M Bartlett, Yatendra Kumar, Shelagh Boyle, et al.
Aging Cell|June 1, 2019
Inhibition of the 60S ribosome biogenesis GTPase LSG1 causes endoplasmic reticular disruption and cellular senescenceAsimina Pantazi, Andrea Quintanilla, Priya Hari, et al.
Cell Reports|August 2, 2018
PHD3 Regulates p53 Protein Stability by Hydroxylating Proline 359Javier Rodriguez, Ana Herrero, Shuijie Li, et al.
EMBO Reports|December 9, 2024
Selective cargo and membrane recognition by SNX17 regulates its interaction with RetrieverAurora Martín-González, Iván Méndez-Guzmán, Maialen Zabala-Zearreta, et al.
The Journal of Biological Chemistry|June 22, 2014
Sin3b interacts with Myc and decreases Myc levelsPablo Garcia-Sanz, Andrea Quintanilla, M Carmen Lafita, et al.
Cell Death and Differentiation|December 17, 2021
Cytoplasmic innate immune sensing by the caspase-4 non-canonical inflammasome promotes cellular senescenceIrene Fernández-Duran, Andrea Quintanilla, Núria Tarrats, et al.
Nature Communications|June 10, 2023
Discovery of senolytics using machine learningVanessa Smer-Barreto, Andrea Quintanilla, Richard J R Elliott, et al.
Cell Reports|April 25, 2019
Notch Signaling Mediates Secondary SenescenceYee Voan Teo, Nattaphong Rattanavirotkul, Nelly Olova, et al.
Science Advances|June 12, 2019
The innate immune sensor Toll-like receptor 2 controls the senescence-associated secretory phenotypePriya Hari, Fraser R Millar, Nuria Tarrats, et al.
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Science Signaling|July 18, 2023
ERK2 stimulates <i>MYC</i> transcription by anchoring CDK9 to the <i>MYC</i> promoter in a kinase activity-independent mannerLorena Agudo-Ibáñez, Marta Morante, Lucía García-Gutiérrez, et al.
Elife|December 3, 2024
TPR is required for cytoplasmic chromatin fragment formation during senescenceBethany M Bartlett, Yatendra Kumar, Shelagh Boyle, et al.
Aging Cell|June 1, 2019
Inhibition of the 60S ribosome biogenesis GTPase LSG1 causes endoplasmic reticular disruption and cellular senescenceAsimina Pantazi, Andrea Quintanilla, Priya Hari, et al.
Cell Reports|August 2, 2018
PHD3 Regulates p53 Protein Stability by Hydroxylating Proline 359Javier Rodriguez, Ana Herrero, Shuijie Li, et al.
EMBO Reports|December 9, 2024
Selective cargo and membrane recognition by SNX17 regulates its interaction with RetrieverAurora Martín-González, Iván Méndez-Guzmán, Maialen Zabala-Zearreta, et al.
The Journal of Biological Chemistry|June 22, 2014
Sin3b interacts with Myc and decreases Myc levelsPablo Garcia-Sanz, Andrea Quintanilla, M Carmen Lafita, et al.
Cell Death and Differentiation|December 17, 2021
Cytoplasmic innate immune sensing by the caspase-4 non-canonical inflammasome promotes cellular senescenceIrene Fernández-Duran, Andrea Quintanilla, Núria Tarrats, et al.
Nature Communications|June 10, 2023
Discovery of senolytics using machine learningVanessa Smer-Barreto, Andrea Quintanilla, Richard J R Elliott, et al.
Cell Reports|April 25, 2019
Notch Signaling Mediates Secondary SenescenceYee Voan Teo, Nattaphong Rattanavirotkul, Nelly Olova, et al.
Science Advances|June 12, 2019
The innate immune sensor Toll-like receptor 2 controls the senescence-associated secretory phenotypePriya Hari, Fraser R Millar, Nuria Tarrats, et al.
Pageof 2