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La, Saddic Le, West A, Aslanian 3rd, Yates Jr Seth Rubin O, Gozani J, Sage
Published in
Journal of Biological Chemistry
The retinoblastoma tumor suppressor (RB) is a central cell cycle regulator and tumor suppressor. RB cellular functions are known to be regulated by a diversity of post-translational modifications such as phosphorylation and acetylation, raising the possibility that RB may also be methylated in cells. Here we demonstrate that RB can be methylated by...
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Tj, Lowery Seth Rubin Ej, Ruiz A, Pines De, Wemmer
Published in
Angewandte Chemie International Edition in English
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Am, Hegnauer N, Hustedt K, Shimada Bl, Pike M, Vogel P, Amsler Seth Rubin F, Van Leeuwen A, Guénolé H, Van Attikum
...
Published in
The EMBO Journal
DNA replication fork stalling poses a major threat to genome stability. This is counteracted in part by the intra-S phase checkpoint, which stabilizes arrested replication machinery, prevents cell-cycle progression and promotes DNA repair. The checkpoint kinase Mec1/ATR and RecQ helicase Sgs1/BLM contribute synergistically to fork maintenance on hy...
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Jr, Burke Aj, Deshong Jg, Pelton Seth Rubin
Published in
Journal of Biological Chemistry
Inactivation of the retinoblastoma protein (Rb) through phosphorylation is an important step in promoting cell cycle progression, and hyperphosphorylated Rb is commonly found in tumors. Rb phosphorylation prevents its association with the E2F transcription factor; however, the molecular basis for complex inhibition has not been established. We iden...
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Cr, Pye Wm, Bray Er, Brown Jr, Burke Rs, Lokey Seth Rubin
Published in
ACS Chemical Biology
The retinoblastoma (Rb) tumor suppressor protein negatively regulates cell proliferation by binding and inhibiting E2F transcription factors. Rb inactivation occurs in cancer cells upon cyclin-dependent kinase (Cdk) phosphorylation, which induces E2F release and activation of cell cycle genes. We present a strategy for activating phosphorylated Rb ...
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Tj, Lowery Seth Rubin Ej, Ruiz Mm, Spence N, Winssinger Pg, Schultz A, Pines De, Wemmer
Published in
Magnetic Resonance Imaging
The chemical shift sensitivity and significant signal enhancement afforded by laser-polarized 129Xe have motivated the application of 129Xe NMR to biological imaging and spectroscopy. Recent research done by our group has used laser-polarized 129Xe in biomolecular assays that detect ligand-binding events and distinguish protein conformations. The s...
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Seth Rubin
Published in
Cell Cycle
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M, Kõivomägi E, Valk R, Venta A, Iofik M, Lepiku Er, Balog Seth Rubin Do, Morgan M, Loog
Published in
Nature
Multisite phosphorylation of proteins has been proposed to transform a graded protein kinase signal into an ultrasensitive switch-like response. Although many multiphosphorylated targets have been identified, the dynamics and sequence of individual phosphorylation events within the multisite phosphorylation process have never been thoroughly studie...
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Seth Rubin J, Sage
Published in
Cell Division
The retinoblastoma tumor suppressor (Rb) pathway is mutated in most, if not all human tumors. In the G0/G1 phase, Rb and its family members p107 and p130 inhibit the E2F family of transcription factors. In response to mitogenic signals, Cyclin-dependent kinases (CDKs) phosphorylate Rb family members, which results in the disruption of complexes bet...
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M, Kõivomägi M, Ord A, Iofik E, Valk R, Venta I, Faustova R, Kivi Er, Balog Seth Rubin M, Loog
...
Published in
Nature Structural & Molecular Biology
The order and timing of cell-cycle events is controlled by changing substrate specificity and different activity thresholds of cyclin-dependent kinases (CDKs). However, it is not understood how a single protein kinase can trigger hundreds of switches in a sufficiently time-resolved fashion. We show that cyclin-Cdk1-Cks1-dependent phosphorylation of...
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R, Kim De, Wemmer Seth Rubin Jg, Pelton H, Yokota
Published in
Journal of Structural and Functional Genomics
The solution structure of MPN156, a ribosome-binding factor A (RBFA) protein family member from Mycoplasma pneumoniae, is presented. The structure, solved by nuclear magnetic resonance, has a type II KH fold typical of RNA binding proteins. Despite only approximately 20% sequence identity between MPN156 and another family member from Escherichia co...
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Seth Rubin Sy, Lee Ej, Ruiz A, Pines De, Wemmer
Published in
Journal of Molecular Biology
Xenon-binding sites in proteins have led to a number of applications of xenon in biochemical and structural studies. Here we further develop the utility of 129Xe NMR in characterizing specific xenon-protein interactions. The sensitivity of the 129Xe chemical shift to its local environment and the intense signals attainable by optical pumping make x...
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Seth Rubin Al, Gall N, Zheng Np, Pavletich
Published in
Cell
The retinoblastoma (Rb) protein negatively regulates the G1-S transition by binding to the E2F transcription factors, until cyclin-dependent kinases phosphorylate Rb, causing E2F release. The Rb pocket domain is necessary for E2F binding, but the Rb C-terminal domain (RbC) is also required for growth suppression. Here we demonstrate a high-affinity...
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Mm, Schachter Ka, Merrick S, Larochelle A, Hirschi C, Zhang Km, Shokat Seth Rubin Rp, Fisher
Published in
Molecular Cell
Eukaryotic cell division is controlled by cyclin-dependent kinases (CDKs), which require phosphorylation by a CDK-activating kinase (CAK) for full activity. Chemical genetics uncovered requirements for the metazoan CAK Cdk7 in determining cyclin specificity and activation order of Cdk2 and Cdk1 during S and G2 phases. It was unknown if Cdk7 also ac...
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Kz, Guiley Tj, Liban Jg, Felthousen P, Ramanan L, Litovchick Seth Rubin
Published in
Genes & Development
The DREAM complex represses cell cycle genes during quiescence through scaffolding MuvB proteins with E2F4/5 and the Rb tumor suppressor paralog p107 or p130. Upon cell cycle entry, MuvB dissociates from p107/p130 and recruits B-Myb and FoxM1 for up-regulating mitotic gene expression. To understand the biochemical mechanisms underpinning DREAM func...
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Li, Jansson Bm, Akiyama A, Ooms C, Lu Seth Rubin Michael Stone
Published in
Nature Structural & Molecular Biology
Telomerase is required to maintain repetitive G-rich telomeric DNA sequences at chromosome ends. To do so, the telomerase reverse transcriptase (TERT) subunit reiteratively uses a small region of the integral telomerase RNA (TER) as a template. An essential feature of telomerase catalysis is the strict definition of the template boundary to determi...
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Da, Mcgrath Er, Balog M, Kõivomägi R, Lucena Mv, Mai A, Hirschi Doug Kellogg M, Loog Seth Rubin
Published in
Nature Structural & Molecular Biology
Cks is an evolutionarily conserved protein that regulates cyclin-dependent kinase (CDK) activity. Clarifying the underlying mechanisms and cellular contexts of Cks function is critical because Cks is essential for proper cell growth, and its overexpression has been linked to cancer. We observe that budding-yeast Cks associates with select phosphory...
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Tj, Lowery M, Doucleff Ej, Ruiz Seth Rubin A, Pines De, Wemmer
Published in
Protein Science
The chemical shift of the (129)Xe NMR signal has been shown to be extremely sensitive to the local environment around the atom and has been used to follow processes such as ligand binding by bacterial periplasmic binding proteins. Here we show that the (129)Xe shift can sense more subtle changes: magnesium binding, BeF(3)(-) activation, and peptide...
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Jr, Burke Tj, Liban T, Restrepo Hw, Lee Seth Rubin
Published in
Journal of Molecular Biology
The retinoblastoma protein C-terminal domain (RbC) is necessary for the tumor suppressor protein s activities in growth suppression and E2F transcription factor inhibition. Cyclin-dependent kinase phosphorylation of RbC contributes to Rb inactivation and weakens the Rb-E2F inhibitory complex. Here we demonstrate two mechanisms for how RbC phosphory...
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T, Shi Rd, Bunker S, Mattarocci C, Ribeyre M, Faty H, Gut A, Scrima U, Rass Seth Rubin D, Shore
...
Published in
Cell
Yeast telomeres comprise irregular TG₁₋₃ DNA repeats bound by the general transcription factor Rap1. Rif1 and Rif2, along with Rap1, form the telosome, a protective cap that inhibits telomerase, counteracts SIR-mediated transcriptional silencing, and prevents inadvertent recognition of telomeres as DNA double-strand breaks. We provide a molecular, ...