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Guidelines for the use and interpretation of assays for monitoring autophagyGuidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)Dephosphorylation of 2,3-bisphosphoglycerate by MIPP expands the regulatory capacity of the Rapoport-Luebering glycolytic shuntThe mood stabiliser lithium suppresses PIP3 signalling in Dictyostelium and human cells.SCAR/WAVE is activated at mitosis and drives myosin-independent cytokinesisThe induction of autophagy by mechanical stress.SCAR knockouts in Dictyostelium: WASP assumes SCAR's position and upstream regulators in pseudopodsReplacement of the essential Dictyostelium Arp2 gene by its Entamoeba homologue using parasexual genetics.Mycobacterium marinum antagonistically induces an autophagic response while repressing the autophagic flux in a TORC1- and ESX-1-dependent manner.Genetic control of lithium sensitivity and regulation of inositol biosynthetic genes.Comparative genome and transcriptome analyses of the social amoeba Acytostelium subglobosum that accomplishes multicellular development without germ-soma differentiation.The autophagic machinery ensures nonlytic transmission of mycobacteria.WASH is required for lysosomal recycling and efficient autophagic and phagocytic digestion.WASH drives early recycling from macropinosomes and phagosomes to maintain surface phagocytic receptorsDrinking problems: mechanisms of macropinosome formation and maturation.Mroh1, a lysosomal regulator localized by WASH-generated actin.Autophagy across the eukaryotes: is S. cerevisiae the odd one out?Nutritional Requirements and Their Importance for Virulence of Pathogenic Cryptococcus Species.The use of streptavidin conjugates as immunoblot loading controls and mitochondrial markers for use with Dictyostelium discoideum.Chemotaxis: TorC before you Akt...ESCRT and autophagy cooperate to repair ESX-1-dependent damage to the Mycobacterium-containing vacuoleVmp1 Regulates PtdIns3P Signaling During Autophagosome Formation inDictyostelium discoideumMechanical stress meets autophagy: potential implications for physiology and pathologyThe origins and evolution of macropinocytosisThe breadth of macropinocytosis researchThe ESCRT and autophagy machineries cooperate to repair ESX-1-dependent damage at the Mycobacterium-containing vacuole but have opposite impact on containing the infectionPIKfyve/Fab1 is required for efficient V-ATPase and hydrolase delivery to phagosomes, phagosomal killing, and restriction of Legionella infectionGuidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)Cellular microbiology interview-Dr. Jason KingThe UK cellular microbiology network: Exploring the host-bacterial interfaceGamma secretase orthologs are required for lysosomal activity and autophagic degradation in Dictyostelium discoideum, independent of PSEN (presenilin) proteolytic function
P50
Q21996341-07E358E9-0BC8-46CF-B894-ED41AE369C5FQ22676705-91EDAE5A-6627-4031-B935-9DDE597C0093Q24321715-DFAF0BB6-F429-4702-9389-DF30FD92AD92Q24652181-33F5E2D6-0CCE-4583-86D0-AEEA322E1FE1Q30494901-E0B388B8-C73A-469E-A436-98531A7BFC71Q30513403-ACC6A231-7F73-49FA-9041-37921D023583Q30528926-60CE2D83-050E-445A-B437-F563F6E8F91FQ33286954-A6054922-89C9-4A19-BE78-1E0666CE7BAEQ33611027-DC01A5A6-BC28-48F9-AF09-1053DB2B73A2Q33612296-1E5EDB9C-A471-4138-873F-53E8B9D5D92CQ33612296-B42CBF22-72DF-4AFA-8576-D685760E6D09Q35102990-537F4C94-4D3E-403E-8B97-485FC7714BC7Q35128752-24813AD3-04DF-4B34-B9CA-E1F0323AC876Q37131503-9B285EFE-4338-48FA-A04E-F32DB8BFCA4FQ37323063-6C9C6116-DD56-42FB-ACF4-C4251FA43D42Q39330074-D19CB631-3460-4ABF-AB7C-01CBAEC6C8ECQ42236307-307389BE-4510-49B1-9CF0-DC3036817752Q42321637-3B0ED75F-E2FF-4AE8-8CE7-B00226707F42Q46295778-40A1805D-CFA8-4381-AC00-65AD93DC37DCQ50852536-C155E44C-3F72-4B1C-99E7-32FC3730824BQ54521366-5DB22F05-796A-4939-A384-9031BE6A92C5Q57246502-D8B7F2D5-A0C0-44BD-B62B-4591A5DAD74CQ57246509-E487D771-50EA-4513-A44B-28D165D63FACQ57246513-8E8AD2CB-5D87-4840-89D6-914433E8236AQ60952261-517FA931-9448-40A5-AC9F-1232442E23B7Q60952274-AA190F9A-3EC4-4C52-AD91-8C4EE7ED2C58Q61453633-59548EBE-4DAD-4E79-B076-46389652BA55Q64261450-1651F6B2-B4CB-44D5-A2F5-16A9A8D6B082Q87139132-F3510ECE-AF36-4854-BB81-265A5A9D9922Q91075900-0A515AD2-FBD9-45E3-A13F-4DDBA89F5E30Q91702813-4D005208-8504-4C45-8622-E2BA1569F845Q91920787-C86119C8-3E49-4DB9-9C1B-91685AB15BF2
P50
description
researcher
@en
wetenschapper
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հետազոտող
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name
Jason S King
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Jason S King
@en
Jason S King
@es
Jason S King
@nl
Jason S King
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type
label
Jason S King
@ast
Jason S King
@en
Jason S King
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Jason S King
@nl
Jason S King
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prefLabel
Jason S King
@ast
Jason S King
@en
Jason S King
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Jason S King
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Jason S King
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P1053
D-6228-2011
P106
P31
P3829
P496
0000-0003-0596-4506