Search
| Leader | 00000nz a2200037n 45 0 | ||
|---|---|---|---|
| 001 | WKP|Q90258881 (VIAF cluster) (Authority/Source Record) | ||
| 003 | WKP | ||
| 005 | 20241221010857.0 | ||
| 008 | 241221nneanz||abbn n and d | ||
| 035 | ‡a (WKP)Q90258881 | ||
| 024 | ‡a 0000-0001-5054-5445 ‡2 orcid | ||
| 035 | ‡a (OCoLC)Q90258881 | ||
| 100 | 0 | ‡a James H Hurley ‡c researcher (ORCID 0000-0001-5054-5445) ‡9 en | |
| 375 | ‡a 1 ‡2 iso5218 | ||
| 400 | 0 | ‡a James H Hurley ‡c wetenschapper ‡9 nl | |
| 670 | ‡a Author's A helical assembly of human ESCRT-I scaffolds reverse-topology membrane scission | ||
| 670 | ‡a Author's Allosteric activation of the nitric oxide receptor soluble guanylate cyclase mapped by cryo-electron microscopy | ||
| 670 | ‡a Author's ATP-dependent force generation and membrane scission by ESCRT-III and Vps4 | ||
| 670 | ‡a Author's Concanamycin A counteracts HIV-1 Nef to enhance immune clearance of infected primary cells by cytotoxic T lymphocytes | ||
| 670 | ‡a Author's Reconstitution of cargo-induced LC3 lipidation in mammalian selective autophagy | ||
| 670 | ‡a Author's Reconstitution of selective HIV-1 RNA packaging in vitro by membrane-bound Gag assemblies | ||
| 670 | ‡a Author's Retro Styles for Vesicle Coats | ||
| 670 | ‡a Author's Structural basis for autophagy inhibition by the human Rubicon-Rab7 complex | ||
| 670 | ‡a Author's Structural mechanism for amino acid-dependent Rag GTPase nucleotide state switching by SLC38A9 | ||
| 670 | ‡a Author's Structural mechanism for HIV-1 TAR loop recognition by Tat and the super elongation complex | ||
| 670 | ‡a Author's Structural mechanism of a Rag GTPase activation checkpoint by the lysosomal folliculin complex | ||
| 670 | ‡a Author's Structural pathway for allosteric activation of the autophagic PI 3-kinase complex I | ||
| 670 | ‡a Author's Structure of SARS-CoV-2 ORF8, a rapidly evolving coronavirus protein implicated in immune evasion | ||
| 670 | ‡a Author's Structure of SARS-CoV-2 ORF8, a rapidly evolving immune evasion protein | ||
| 670 | ‡a Author's Structure of the C9orf72 ARF GAP complex that is haploinsufficient in ALS and FTD | ||
| 670 | ‡a Author's The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment | ||
| 670 | ‡a Author's The ESCRTs - converging on mechanism | ||
| 909 | ‡a (orcid) 0000000150545445 ‡9 1 | ||
| 919 | ‡a structuralmechanismforhiv1tarlooprecognitionbytatandthesuperelongationcomplex ‡A Structural mechanism for HIV-1 TAR loop recognition by Tat and the super elongation complex ‡9 1 | ||
| 919 | ‡a structuralmechanismforaminoaciddependentraggtpasenucleotidestateswitchingbyslc38a9 ‡A Structural mechanism for amino acid-dependent Rag GTPase nucleotide state switching by SLC38A9 ‡9 1 | ||
| 919 | ‡a structuralbasisforautophagyinhibitionbythehumanrubiconrab7complex ‡A Structural basis for autophagy inhibition by the human Rubicon-Rab7 complex ‡9 1 | ||
| 919 | ‡a helicalassemblyofhumanescrt1scaffoldsreversetopologymembranescission ‡A A helical assembly of human ESCRT-I scaffolds reverse-topology membrane scission ‡9 1 | ||
| 919 | ‡a allostericactivationofthenitricoxidereceptorsolubleguanylatecyclasemappedbycryoelectronmicroscopy ‡A Allosteric activation of the nitric oxide receptor soluble guanylate cyclase mapped by cryo-electron microscopy ‡9 1 | ||
| 919 | ‡a atpdependentforcegenerationandmembranescissionbyescrt3andvps4 ‡A ATP-dependent force generation and membrane scission by ESCRT-III and Vps4 ‡9 1 | ||
| 919 | ‡a concanamycinacounteractshiv1neftoenhanceimmuneclearanceofinfectedprimarycellsbycytotoxictlymphocytes ‡A Concanamycin A counteracts HIV-1 Nef to enhance immune clearance of infected primary cells by cytotoxic T lymphocytes ‡9 1 | ||
| 919 | ‡a reconstitutionofcargoinducedlc3lipidationinmammalianselectiveautophagy ‡A Reconstitution of cargo-induced LC3 lipidation in mammalian selective autophagy ‡9 1 | ||
| 919 | ‡a reconstitutionofselectivehiv1rnapackaginginvitrobymembraneboundgagassemblies ‡A Reconstitution of selective HIV-1 RNA packaging in vitro by membrane-bound Gag assemblies ‡9 1 | ||
| 919 | ‡a retrostylesforvesiclecoats ‡A Retro Styles for Vesicle Coats ‡9 1 | ||
| 919 | ‡a escrtsconvergingonmechanism ‡A The ESCRTs - converging on mechanism ‡9 1 | ||
| 919 | ‡a autophagyadaptorndp52andthefip200coiledcoilallostericallyactivateulk1complexmembranerecruitment ‡A The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment ‡9 1 | ||
| 919 | ‡a structureofthec9orf72arfgapcomplexthatishaploinsufficientinalsandftd ‡A Structure of the C9orf72 ARF GAP complex that is haploinsufficient in ALS and FTD ‡9 1 | ||
| 919 | ‡a structureofsarscov2orf8arapidlyevolvingimmuneevasionprotein ‡A Structure of SARS-CoV-2 ORF8, a rapidly evolving immune evasion protein ‡9 1 | ||
| 919 | ‡a structureofsarscov2orf8arapidlyevolvingcoronavirusproteinimplicatedinimmuneevasion ‡A Structure of SARS-CoV-2 ORF8, a rapidly evolving coronavirus protein implicated in immune evasion ‡9 1 | ||
| 919 | ‡a structuralpathwayforallostericactivationoftheautophagicpi3kinasecomplex1 ‡A Structural pathway for allosteric activation of the autophagic PI 3-kinase complex I ‡9 1 | ||
| 919 | ‡a structuralmechanismofaraggtpaseactivationcheckpointbythelysosomalfolliculincomplex ‡A Structural mechanism of a Rag GTPase activation checkpoint by the lysosomal folliculin complex ‡9 1 | ||
| 946 | ‡a b ‡9 1 | ||
| 996 | ‡2 J9U|987012679167205171 | ||
| 996 | ‡2 CAOONL|ncf11582472 | ||
| 996 | ‡2 ISNI|0000000084550050 | ||
| 996 | ‡2 NUKAT|n 2008151952 | ||
| 996 | ‡2 ISNI|0000000021044134 | ||
| 996 | ‡2 J9U|987007459400105171 | ||
| 996 | ‡2 NTA|071050361 | ||
| 996 | ‡2 LC|no2014100171 | ||
| 996 | ‡2 N6I|vtls002291721 | ||
| 996 | ‡2 ISNI|0000000084238972 | ||
| 996 | ‡2 NUKAT|n 2015182159 | ||
| 996 | ‡2 BNF|12363299 | ||
| 996 | ‡2 NII|DA11432572 | ||
| 996 | ‡2 LC|n 80015158 | ||
| 996 | ‡2 LC|n 2023028531 | ||
| 996 | ‡2 LC|no2022143129 | ||
| 996 | ‡2 CAOONL|ncf10133894 | ||
| 996 | ‡2 LC|nb2002059824 | ||
| 996 | ‡2 SUDOC|183604768 | ||
| 996 | ‡2 J9U|987007273033805171 | ||
| 996 | ‡2 KRNLK|KAC200906259 | ||
| 996 | ‡2 ISNI|0000000027222130 | ||
| 996 | ‡2 LC|n 85052816 | ||
| 996 | ‡2 NTA|314458778 | ||
| 996 | ‡2 BIBSYS|90054466 | ||
| 996 | ‡2 NLA|000035215102 | ||
| 996 | ‡2 LC|n 81025303 | ||
| 996 | ‡2 LC|n 79124823 | ||
| 996 | ‡2 NII|DA16799880 | ||
| 996 | ‡2 ISNI|0000000121275183 | ||
| 996 | ‡2 N6I|vtls000083267 | ||
| 996 | ‡2 SUDOC|050790552 | ||
| 996 | ‡2 LC|n 84136439 | ||
| 996 | ‡2 LC|nb2007025851 | ||
| 996 | ‡2 CAOONL|ncf11659653 | ||
| 996 | ‡2 ISNI|0000000073608763 | ||
| 996 | ‡2 LC|n 79145534 | ||
| 996 | ‡2 ISNI|000000002147314X | ||
| 996 | ‡2 JPG|500123793 | ||
| 996 | ‡2 SUDOC|032641583 | ||
| 996 | ‡2 LC|n 98801667 | ||
| 996 | ‡2 J9U|987007337458905171 | ||
| 996 | ‡2 LC|no2020038843 | ||
| 996 | ‡2 ISNI|0000000066219604 | ||
| 996 | ‡2 LC|n 2017004116 | ||
| 996 | ‡2 NII|DA06404625 | ||
| 996 | ‡2 NII|DA16703644 | ||
| 996 | ‡2 ISNI|0000000023317247 | ||
| 996 | ‡2 NKC|mzk2015884877 | ||
| 996 | ‡2 J9U|987012330422605171 | ||
| 996 | ‡2 ISNI|0000000075274621 | ||
| 996 | ‡2 ISNI|0000000045347623 | ||
| 996 | ‡2 NTA|304832359 | ||
| 996 | ‡2 B2Q|0000058662 | ||
| 996 | ‡2 LC|no2010010222 | ||
| 996 | ‡2 NDL|00444080 | ||
| 996 | ‡2 BIBSYS|6043356 | ||
| 996 | ‡2 NII|DA10769945 | ||
| 996 | ‡2 NLA|000035215121 | ||
| 996 | ‡2 NSK|000137565 | ||
| 996 | ‡2 ISNI|0000000039543353 | ||
| 996 | ‡2 J9U|987007328661905171 | ||
| 996 | ‡2 LC|nb2005012732 | ||
| 996 | ‡2 LC|n 78055311 | ||
| 996 | ‡2 J9U|987007272000105171 | ||
| 996 | ‡2 LC|n 87808587 | ||
| 996 | ‡2 NDL|001173389 | ||
| 996 | ‡2 LC|n 78020859 | ||
| 996 | ‡2 N6I|vtls000066534 | ||
| 996 | ‡2 DNB|118863789 | ||
| 996 | ‡2 PLWABN|9810654407505606 | ||
| 996 | ‡2 ISNI|0000000436256892 | ||
| 996 | ‡2 LC|no 99077126 | ||
| 996 | ‡2 NUKAT|n 2007108397 | ||
| 996 | ‡2 LC|n 2018055686 | ||
| 996 | ‡2 CAOONL|ncf11158111 | ||
| 997 | ‡a 0 0 lived 0 0 ‡9 1 |
