Split-ubiquitin and the split-protein sensors: chessman for the endgame.
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Techniques for the Analysis of Protein-Protein Interactions in VivoCdc48/p97 and Shp1/p47 regulate autophagosome biogenesis in concert with ubiquitin-like Atg8Sho1p connects the plasma membrane with proteins of the cytokinesis network through multiple isomeric interaction states.A Split-Ubiquitin Based Strategy Selecting for Protein Complex-Interfering MutationsA fluorescent reporter for mapping cellular protein-protein interactions in time and space.Optical control of protein activity by fluorescent protein domains.Expanding the utility of beta-galactosidase complementation: piece by piece.Split-protein systems: beyond binary protein-protein interactionsThe N-end rule pathway and regulation by proteolysisA general approach for receptor and antibody-targeted detection of native proteins utilizing split-luciferase reassembly.Diversity in genetic in vivo methods for protein-protein interaction studies: from the yeast two-hybrid system to the mammalian split-luciferase system.Development of a split SNAP-tag protein complementation assay for visualization of protein-protein interactions in living cells.Synthetic biology: advancing biological frontiers by building synthetic systemsSynthetic biology: tools to design, build, and optimize cellular processes.Synthetic biology in the analysis and engineering of signaling processes.Identification of Cell Cycle Dependent Interaction Partners of the Septins by Quantitative Mass Spectrometry.PI3P binding by Atg21 organises Atg8 lipidation.A turn-on split-luciferase sensor for the direct detection of poly(ADP-ribose) as a marker for DNA repair and cell death.A Versatile Strategy for the Semisynthetic Production of Ser65 Phosphorylated Ubiquitin and Its Biochemical and Structural CharacterisationOptimizing protein stability in vivoReevaluation of abscisic acid-binding assays shows that G-Protein-Coupled Receptor2 does not bind abscisic Acid.The cell polarity proteins Boi1p and Boi2p stimulate vesicle fusion at the plasma membrane of yeast cells.ALS Yeast Models—Past Success Stories and New Opportunities
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Split-ubiquitin and the split-protein sensors: chessman for the endgame.
description
article científic
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article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@en
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@nl
type
label
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@en
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@nl
prefLabel
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@en
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@nl
P2860
P356
P1433
P1476
Split-ubiquitin and the split-protein sensors: chessman for the endgame.
@en
P2093
Judith Müller
Nils Johnsson
P2860
P304
P356
10.1002/CBIC.200800190
P577
2008-09-01T00:00:00Z