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Structural determinants in GABARAP required for the selective binding and recruitment of ALFY to LC3B-positive structuresA non-canonical UBA-UBL interaction forms the linear-ubiquitin-chain assembly complexBacterial effectors and their functions in the ubiquitin-proteasome system: insight from the modes of substrate recognitionStructures and physiological roles of 13 integral lipids of bovine heart cytochrome c oxidaseStructural basis for the selection of glycosylated substrates by SCFFbs1 ubiquitin ligasep62/Sqstm1 promotes malignancy of HCV-positive hepatocellular carcinoma through Nrf2-dependent metabolic reprogrammingStructures of D-amino-acid amidase complexed with L-phenylalanine and with L-phenylalanine amide: insight into the D-stereospecificity of D-amino-acid amidase from Ochrobactrum anthropi SV3Structural basis for the cooperative interplay between the two causative gene products of combined factor V and factor VIII deficiencyStructure of ST0929, a putative glycosyl transferase fromSulfolobus tokodaiiConformational Dynamics of Wild-type Lys-48-linked Diubiquitin in SolutionAn Archaeal Homolog of Proteasome Assembly Factor Functions as a Proteasome ActivatorKinetic, Thermodynamic, and Structural Characterizations of the Association between Nrf2-DLGex Degron and Keap1New crystal structure of the proteasome-dedicated chaperone Rpn14 at 1.6 Å resolutionStructural basis for proteasome formation controlled by an assembly chaperone nas2FYCO1 Contains a C-terminally Extended, LC3A/B-preferring LC3-interacting Region (LIR) Motif Required for Efficient Maturation of Autophagosomes during Basal AutophagyProteasome assembly defect due to a proteasome subunit beta type 8 (PSMB8) mutation causes the autoinflammatory disorder, Nakajo-Nishimura syndrome.The Structural Differences between a Glycoprotein Specific F-Box Protein Fbs1 and Its Homologous Protein FBG3.Crystallization and preliminary X-ray characterization of the Skp1-Fbg3 complex.A conserved island of BAG6/Scythe is related to ubiquitin domains and participates in short hydrophobicity recognition.Crystal structure of the substrate-recognition domain of the Shigella E3 ligase IpaH9.8.Conserved Mode of Interaction between Yeast Bro1 Family V Domains and YP(X)nL Motif-Containing Target Proteins.A bacterial effector targets the TRAF6-NFκB pathway to modulate the acute inflammatory response to bacterial invasion of epithelial cells.Parkinson's disease-related DJ-1 functions in thiol quality control against aldehyde attack in vitro.N-terminal α7 deletion of the proteasome 20S core particle substitutes for yeast PI31 function.Structure determination of the constitutive 20S proteasome from bovine liver at 2.75 A resolution.Backbone ¹H, ¹³C and ¹⁵N assignments of yeast Ump1, an intrinsically disordered protein that functions as a proteasome assembly chaperone.Shigella hijacks the glomulin-cIAPs-inflammasome axis to promote inflammation.Structural analysis of a function-associated loop mutant of the substrate-recognition domain of Fbs1 ubiquitin ligase.Cooperative Domain Formation by Homologous Motifs in HOIL-1L and SHARPIN Plays A Crucial Role in LUBAC Stabilization.Pba3-Pba4 heterodimer acts as a molecular matchmaker in proteasome α-ring formation.Biallelic UFM1 and UFC1 mutations expand the essential role of ufmylation in brain development.Structure of glyoxysomal malate dehydrogenase (MDH3) from Saccharomyces cerevisiaeSugar-Recognizing Ubiquitin Ligases: Action Mechanisms and PhysiologyStructural and biochemical characterization of mitochondrial citrate synthase 4 from Arabidopsis thalianaCrystallographic snapshots of the EF-hand protein MCFD2 complexed with the intracellular lectin ERGIC-53 involved in glycoprotein transport
P50
Q24292981-342A086A-EFE5-4978-BD38-B84E6B719DF0Q24307922-8615087D-BCB4-4EAC-A614-F1E375978B8DQ26863733-1BC9CC16-B613-4C60-9429-4C79860E6785Q27643964-68A4278B-4BAB-4302-89CD-4C9F2390A5F2Q27644251-B622602B-B9A4-4A54-BDD9-3A660FF18780Q27644656-440EF390-D057-40F5-A903-D74CE118DD96Q27650012-4F28B02E-C600-413A-84C8-86CE4842C23DQ27659667-ED40453D-F749-426C-91AE-7B6B67F29A90Q27660490-EA7E502D-0A76-4BA9-B619-24CFC43687CFQ27673407-BA5464AD-DDDD-4E22-99F3-21D158CD7717Q27677216-AD1D0533-BA16-48A0-94C7-B3F62C88AFE6Q27681060-0D0EE7B8-F3E3-4A30-BE86-284C76E10E13Q27681133-9548FD2C-ADEF-4DD4-BA39-DD738E1C6236Q27689676-059E8E13-DAD5-4C20-94FC-08DB55DA4379Q28116582-5C479888-A5B3-457B-AEE4-917E7A748946Q35202606-51AFA67A-D49B-4B4C-B70F-59EF1DD1E749Q35804479-1C1F97D2-AA3B-4D5D-A437-78336E6ABDD2Q38347390-BF1637C9-B6E5-4DD3-B990-14D347797BDAQ40215164-84AF887F-C5D7-49C1-89B1-5E9E92D42E31Q40726419-45DFF621-D230-4723-A84A-2DC3EF24D48EQ41594439-D1584F26-A45F-41D9-826F-5A2379DF2859Q42050705-E5D72A50-E674-4820-BD5D-E1910BDD7AB9Q42373911-A5362F99-D412-4DE9-A09D-5E8B05AD8ED7Q43107129-E9AE03A9-ECCB-4025-A541-B9B52B2E0E6EQ43872307-81120449-0BA2-4AED-B592-C74EED0A08B3Q44540667-D85C16E7-12A0-4D39-825C-9F785DBF7B1DQ47344864-CACA93E0-079C-4F8D-84FB-30C1EA931E6EQ51596676-2C13ABB3-1D19-4C77-BBF0-207F9EF992CDQ52309813-0E64B7FD-77B7-4F6B-AC6C-4679CD616080Q53509643-26C1C1EA-6CC1-4809-B04F-FBFFEE105ADBQ55514208-EA99F5CC-00C6-4F91-82D5-8CF748DCF154Q57051142-0822595F-4A8C-4EE4-9681-BD69FD8A3B7BQ64228390-3E444BE2-53AC-4981-B254-AEBFE5848841Q90060434-68256520-B267-4EF5-8B00-AE76A23B674CQ94477830-8A0386A6-99F7-4BEE-8930-D15B9470D1B8
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Tsunehiro Mizushima
@ast
Tsunehiro Mizushima
@de
Tsunehiro Mizushima
@en
Tsunehiro Mizushima
@es
Tsunehiro Mizushima
@fr
Tsunehiro Mizushima
@it
Tsunehiro Mizushima
@nl
type
label
Tsunehiro Mizushima
@ast
Tsunehiro Mizushima
@de
Tsunehiro Mizushima
@en
Tsunehiro Mizushima
@es
Tsunehiro Mizushima
@fr
Tsunehiro Mizushima
@it
Tsunehiro Mizushima
@nl
prefLabel
Tsunehiro Mizushima
@ast
Tsunehiro Mizushima
@de
Tsunehiro Mizushima
@en
Tsunehiro Mizushima
@es
Tsunehiro Mizushima
@fr
Tsunehiro Mizushima
@it
Tsunehiro Mizushima
@nl
P106
P31
P496
0000-0002-6631-2889