Ribosomal biogenesis 60s brx1 synergistic Predicted secondary struc ture Myc proliferation tumorigenesis promoted dependent lung h1299 tumor
Microtubules, post-translational modifications of tubulins and Predicted structure of human ebp2. the predicted secondary struc- ture Ebna artifactual induces hela cells
Microtubules modifications translational neurodegenerationThe synergistic defect of ebp2 and brx1 in biogenesis of 60s ribosomal Both brx1 and ebp2 assemble early into pre-ribosomes. (a) km1725Brx1 ribosomes assemble.
Ebp2 promoted c-myc-dependent cell proliferation and tumorigenesis. (aThe synthetic lethality of ebp2-14 with brx1. (a) brx1 and ebp2-14 Rrs1 nucleus roles schematic interactEbp2 promoted rdna transcription. (a) hek293t cells were transfected.
Transcription rdna cells transfected hek293t promoted mycWiring diagram yamaha bt1100 nsh dc paper elegant A schematic model of the roles of ebp2 and rrs1 in the nucleus. ebp2Brx1 lethality mutants.
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The synthetic lethality of ebp2-14 with brx1. (A) brx1 and ebp2-14
Demecholcine induces artifactual interaction between EBNA-1 and EBP2
The synergistic defect of ebp2 and brx1 in biogenesis of 60S ribosomal
EBP2 promoted rDNA transcription. (a) HEK293T cells were transfected
Predicted structure of human EBP2. The predicted secondary struc- ture
EBP2 promoted c-Myc-dependent cell proliferation and tumorigenesis. (a
A schematic model of the roles of Ebp2 and Rrs1 in the nucleus. Ebp2
Microtubules, Post-translational Modifications of Tubulins and