Mylene C. Ferrolino
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View article: Figure 7 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Figure 7 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Additional leukemia-associated NUP98 FOs form nuclear puncta and transform lin− HSPCs. A, Schematic of NHA9 and three additional NUP98 FOs (NUP98–PRRX1, NUP98–KDM5A, and NUP98–LNP1). Numbers indicate the amino acid residu…
View article: Figure 3 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Figure 3 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Mutation of multiple F and FG residues in the FG-rich IDR of NHA9 alters puncta formation in cells. A, Schematic of NHA9 and mutant constructs used in this study. FG motif valence is shown on the left. B, Representative image…
View article: Figure 2 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Figure 2 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
DNA binding by the HOXA9 homeodomain of NHA9 influences puncta morphology and behavior. A, Representative confocal microscopy image of live HEK293T cells expressing G-NHA9–ΔDNA (green). DNA is stained with Hoechst dye (blue). An ove…
View article: Figure 5 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Figure 5 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
The NHA9 constructs form puncta in lin− HSPCs. A–G, Representative images of live lin− HSPCs expressing EGFP empty vector as a control (A), G-NHA9 (B), G-NHA9–ΔDNA (C), G-NHA9–8FA (D…
View article: Figure 4 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Figure 4 from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Mutation of F and FG residues in the FG-rich IDR of NHA9 alters LLPS behavior in vitro. A–C, Confocal fluorescence micrographs of Alexa 488–labeled NHA9–8FA (A), NHA9–21FGAA (B), and NHA9Midi (C
View article: Granular component sub-phases direct ribosome biogenesis in the nucleolus
Granular component sub-phases direct ribosome biogenesis in the nucleolus Open
The hierarchical, multiphase organization of the nucleolus underlies ribosome biogenesis. Ribonucleoprotein particles that regulate ribosomal subunit assembly are heterogeneously disposed in the granular component (GC) of the nucleolus. Ho…
View article: p14ARF forms meso-scale assemblies upon phase separation with NPM1
p14ARF forms meso-scale assemblies upon phase separation with NPM1 Open
View article: p14ARF forms meso-scale assemblies upon phase separation with NPM1
p14ARF forms meso-scale assemblies upon phase separation with NPM1 Open
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
NUP98 fusion oncoproteins (FO) are drivers in pediatric leukemias and many transform hematopoietic cells. Most NUP98 FOs harbor an intrinsically disordered region from NUP98 that is prone to liquid–liquid phase separation (LLPS) in vitr…
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Table from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
NUP98 fusion oncoproteins (FO) are drivers in pediatric leukemias and many transform hematopoietic cells. Most NUP98 FOs harbor an intrinsically disordered region from NUP98 that is prone to liquid–liquid phase separation (LLPS) in vitr…
View article: Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation Open
Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation
View article: Phase separation underlies interactions of the SARS-CoV-2 nucleocapsid protein with nucleoli
Phase separation underlies interactions of the SARS-CoV-2 nucleocapsid protein with nucleoli Open
View article: Chromatin localization of nucleophosmin organizes ribosome biogenesis
Chromatin localization of nucleophosmin organizes ribosome biogenesis Open
Ribosome biogenesis takes place in the nucleolus, a nuclear membrane-less organelle. Although well studied, it remains unknown how nascent ribosomal subunits separate from the central chromatin compartment and move to the outer granular co…
View article: Composition-dependent thermodynamics of intracellular phase separation
Composition-dependent thermodynamics of intracellular phase separation Open
View article: Composition dependent phase separation underlies directional flux through the nucleolus
Composition dependent phase separation underlies directional flux through the nucleolus Open
Intracellular bodies such as nucleoli, Cajal bodies, and various signaling assemblies, represent membraneless organelles, or condensates, that form via liquid-liquid phase separation (LLPS) 1,2 . Biomolecular interactions, particularly hom…