about
Fast, multi-dimensional and simultaneous kymograph-like particle dynamics (SkyPad) analysisA system for studying mechanisms of neuromuscular junction development and maintenanceMAP and kinesin-dependent nuclear positioning is required for skeletal muscle functionNuclear movement during myotube formation is microtubule and dynein dependent and is regulated by Cdc42, Par6 and Par3Microtubule motors involved in nuclear movement during skeletal muscle differentiationIn Vitro Differentiation of Mature Myofibers for Live ImagingDifferential expression of the ccn3 (nov) proto-oncogene in human prostate cell lines and tissues.Dynein disruption perturbs post-synaptic components and contributes to impaired MuSK clustering at the NMJ: implication in ALS.Moving and positioning the nucleus in skeletal muscle - one step at a timeThe sterile alpha-motif (SAM) domain of p63 binds in vitro monoasialoganglioside (GM1) micelles.Overexpressed transglutaminase 5 triggers cell death.Transglutaminase 5 is regulated by guanine-adenine nucleotides.Nesprin-1α-Dependent Microtubule Nucleation from the Nuclear Envelope via Akap450 Is Necessary for Nuclear Positioning in Muscle Cells.Myofibril contraction and crosslinking drive nuclear movement to the periphery of skeletal muscle.Pax3 and Pax7 play essential safeguard functions against environmental stress-induced birth defects.Loss of Histone Deacetylase 4 Causes Segregation Defects during Mitosis of p53-Deficient Human Tumor CellsNMR Structure of the p63 SAM Domain and Dynamical Properties of G534V and T537P Pathological Mutants, Identified in the AEC SyndromeIdentification and characterization of a non-satellite cell muscle resident progenitor during postnatal development[Spatial distribution of nuclei in muscle fibers: a novel actor of muscular function]Dullard-mediated Smad1/5/8 inhibition controls mouse cardiac neural crest cells condensation and outflow tract septationAn embryonic CaVβ1 isoform promotes muscle mass maintenance via GDF5 signaling in adult mouseNesprin-2 accumulates at the front of the nucleus during confined cell migration
P50
Q27321494-739029C3-DC66-4ADD-992E-A74933525862Q28829196-310DA235-77EB-4782-A05B-E92CF609294BQ30512755-39B152A3-4A19-4283-AF30-44CC6013C987Q30523959-EC37C3E8-001C-4DE5-B724-F2EE2D71EC36Q30844713-2C997792-8A21-4609-A3DD-05FE62072AF0Q33613678-C73410BF-AC0F-4700-B001-9448BBBA66FCQ33918779-BB96486E-FFC5-40B4-B3E1-6E40AC23DB3BQ36990596-7DFD853D-2F2D-46EB-B54C-95FAD9BCE4CAQ37025436-8BB135A2-330F-4A4C-86F2-98712DBB8A3BQ39494373-E2AFCCB4-4839-40C6-B165-C46B76CCED12Q40529176-0658A66E-841E-4EA2-A6DB-549820C823C4Q40574921-7C998343-C68A-4D4A-9AA9-E42BC3F588E5Q42377065-C4B5968A-FE9E-42AF-A879-A0D717DD443CQ47823558-EEDAE723-6CF3-4C38-B5A5-C2BC7D1FA133Q50595155-713C573F-F8BE-45D9-9349-EE898D0D6F67Q57956100-029D6270-95F2-47DF-86A4-82D162C76CB3Q59576369-EFC79348-DDCD-4E55-874C-71BCFEBCDE79Q61781427-5C3EB14F-0283-42F3-92A8-40794566EFCEQ84581070-2892D478-A9F7-4C5D-8D6B-3408982749F2Q89914653-9A5AF2D6-72B0-4F28-A85E-77D6897C44B6Q91150856-ECB7AD21-1063-4E8B-B44B-AB7A8145FA3EQ94958350-DB9CD572-42D0-4FC7-B480-DBBC5D0EF9D6
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Bruno Cadot
@ast
Bruno Cadot
@en
Bruno Cadot
@es
Bruno Cadot
@nl
type
label
Bruno Cadot
@ast
Bruno Cadot
@en
Bruno Cadot
@es
Bruno Cadot
@nl
prefLabel
Bruno Cadot
@ast
Bruno Cadot
@en
Bruno Cadot
@es
Bruno Cadot
@nl
P106
P21
P31
P496
0000-0002-1888-3898