about
Catalysis and substrate selection by histone/protein lysine acetyltransferasesStructural Insights into the Assembly and Function of the SAGA Deubiquitinating ModuleA conserved asparagine has a structural role in ubiquitin-conjugating enzymesTrans-Binding Mechanism of Ubiquitin-like Protein Activation Revealed by a UBA5-UFM1 ComplexNucleosome recognition by the Piccolo NuA4 histone acetyltransferase complex.The Vps27/Hrs/STAM (VHS) Domain of the Signal-transducing Adaptor Molecule (STAM) Directs Associated Molecule with the SH3 Domain of STAM (AMSH) Specificity to Longer Ubiquitin Chains and Dictates the Position of Cleavage.Positioning of cysteine residues within the N-terminal portion of the BST-2/tetherin ectodomain is important for functional dimerization of BST-2.Connecting common genetic polymorphisms to protein function: A modular project sequence for lecture or lab.Deregulated Ca2+ cycling underlies the development of arrhythmia and heart disease due to mutant obscurinNovel insights into the interaction of UBA5 with UFM1 via a UFM1-interacting sequence.RNF4-dependent hybrid SUMO-ubiquitin chains are signals for RAP80 and thereby mediate the recruitment of BRCA1 to sites of DNA damage.A spectrophotometric assay for conjugation of ubiquitin and ubiquitin-like proteins.Assays for mechanistic investigations of protein/histone acetyltransferases.Structure of Arabidopsis thaliana At1g77540 protein, a minimal acetyltransferase from the COG2388 family.Architectural organization of the metabolic regulatory enzyme ghrelin O-acyltransferase.New insights into ubiquitin E3 ligase mechanism.The Disulfide Bonds within BST-2 Enhance Tensile Strength during Viral Tethering.Bending of the BST-2 coiled-coil during viral budding.Histone H3-K56 acetylation is catalyzed by histone chaperone-dependent complexes.Characterization of the structure and catalytic activity of Legionella pneumophila VipF.Arabidopsis β-Amylase2 Is a K+-Requiring, Catalytic Tetramer with Sigmoidal Kinetics.Novel obscurins mediate cardiomyocyte adhesion and size via the PI3K/AKT/mTOR signaling pathway.Glutathionylation inhibits catalytic activity of Arabidopsis β-amylase3 but not paralog β-amylase1.In silico modeling of epigenetic-induced changes in photoreceptor cis-regulatory elements.Quaternary Structure, Salt Sensitivity, and Allosteric Regulation of β-AMYLASE2 FromChemical shift assignments for S. cerevisiae Ubc13Resilience of BST-2/Tetherin structure to single amino acid substitutions
P50
Q24654957-576F9A66-2856-43D4-A1C0-6916BD66523EQ27660560-8832DC13-0D06-4415-B0BA-BED8641DEC97Q27675759-15C3DC9A-3D38-4AA8-A9C4-752F51AB5D7BQ27728098-50D312CF-3795-4174-9E21-5BD7739F2A95Q27939462-1DB4B851-6048-4845-A21C-FFD6573FA7AAQ30009066-DE874B06-BDB9-49E6-89A4-436C6657CBCDQ30369981-32625363-AC94-4CC2-90A4-5EAD2E5F714CQ30389097-8164D6F3-6266-43BB-B212-71247C9CA2E9Q30855072-C3B4A223-066F-4128-A281-2643E05DF51EQ33674032-00FCFCF9-9D6C-4F5B-8ED5-131AC47ABDC7Q34040089-9F9534B9-7ACC-44E0-9F13-2B3D9D1DA9EBQ35226580-DF6B7974-0949-4B63-A4BF-7970CECD931DQ36221406-EB037B89-C0A7-4745-8024-6E7567646D30Q36870144-F9A4DB10-43CD-4631-A2DC-3F1015B50785Q37289183-735816EB-EE57-43EE-96EC-B33683F3B4D6Q38201970-3079D71D-29F4-43E3-BBA2-C290C1DA1EA4Q40084180-C04A8632-7B69-482F-AC00-DC76E004C4C0Q40093904-724C67DD-6051-44A9-9950-B03875BAD38AQ42850451-27DCEAF9-E184-4967-BCD3-C21CA96320D7Q45036370-E20BE6B3-8F4D-4744-B51D-D54E74F4E743Q45070927-24CB6FA3-CF5B-44CB-86C5-EFE174119303Q47136381-B2D22347-5B69-4CEF-AA47-3316A2FE2C15Q47225193-51DAC6B5-4B0D-4200-8345-F7E7437EE192Q55006760-222B90B0-4B37-42BC-A118-1D4F631B8E3EQ58781220-8287B7F4-28E1-4AE6-B190-B1D77D062D93Q87255152-7D395AD3-DC5F-4B2B-AFBD-3C5F18988448Q92646111-3199FFD5-4CF7-4BD6-B9DD-C44E9A898AC6
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Christopher E. Berndsen
@ast
Christopher E. Berndsen
@en
Christopher E. Berndsen
@es
Christopher E. Berndsen
@nl
Christopher E. Berndsen
@sl
type
label
Christopher E. Berndsen
@ast
Christopher E. Berndsen
@en
Christopher E. Berndsen
@es
Christopher E. Berndsen
@nl
Christopher E. Berndsen
@sl
prefLabel
Christopher E. Berndsen
@ast
Christopher E. Berndsen
@en
Christopher E. Berndsen
@es
Christopher E. Berndsen
@nl
Christopher E. Berndsen
@sl
P244
P106
P1153
8668137900
P21
P214
2906152331602403260005
P244
no2018042668
P2798
P31
P496
0000-0002-4285-4341
P735
P7859
lccn-no2018042668