Search
| Leader | 00000nz a2200037n 45 0 | ||
|---|---|---|---|
| 001 | WKP|Q6131576 (VIAF cluster) (Authority/Source Record) | ||
| 003 | WKP | ||
| 005 | 20241121000118.0 | ||
| 008 | 241121nneanz||abbn n and d | ||
| 035 | ‡a (WKP)Q6131576 | ||
| 024 | ‡a 0000-0002-5560-8246 ‡2 orcid | ||
| 035 | ‡a (OCoLC)Q6131576 | ||
| 043 | ‡c US | ||
| 046 | ‡f 19650626 | ||
| 100 | 0 | ‡a James J. Collins ‡c American professor of biomedical engineering ‡9 en | |
| 375 | ‡a 1 ‡2 iso5218 | ||
| 400 | 0 | ‡a James Collins ‡9 sq ‡9 fr ‡9 sv ‡9 pt ‡9 ast ‡9 ca ‡9 it ‡9 hu ‡9 pt-br ‡9 pl ‡9 ga ‡9 sl ‡9 cs ‡9 fi ‡9 da ‡9 nb ‡9 es | |
| 400 | 0 | ‡a James ·J· Collins ‡9 zh | |
| 400 | 0 | ‡a جيمس كولينز ‡9 arz ‡9 ar | |
| 400 | 0 | ‡a James Collins ‡c fisiko merikano ‡9 pap | |
| 400 | 0 | ‡a Джеймс Коллинз ‡9 ru | |
| 400 | 0 | ‡a James Collins ‡c Amerikaans natuurkundige ‡9 nl | |
| 400 | 0 | ‡a James J. Collins ‡c United States of America karimba ŋun nyɛ doo ‡9 dag | |
| 400 | 0 | ‡a জেমস জে কলিন্স ‡9 bn | |
| 400 | 0 | ‡a James J. Collins ‡c US-amerikanischer Mediziningenieur ‡9 de | |
| 400 | 0 | ‡a جیمز کالینز ‡c فیزیکدان آمریکایی ‡9 fa | |
| 400 | 0 | ‡a ジェームズ・J・コリンズ ‡9 ja | |
| 400 | 0 | ‡a ג'יימס קולינס ‡c מומחה בהנדסת ביוטכנולוגיה אמריקאי ‡9 he | |
| 400 | 0 | ‡a ജയിംസ് ജെ കോളിൻസ് ‡9 ml | |
| 670 | ‡a Author's A CRISPR-based assay for the detection of opportunistic infections post-transplantation and for the monitoring of transplant rejection | ||
| 670 | ‡a Author's A CRISPR-Cas9-based gene drive platform for genetic interaction analysis in Candida albicans. | ||
| 670 | ‡a Author's A deep learning approach to programmable RNA switches | ||
| 670 | ‡a Author's A multiplexable assay for screening antibiotic lethality against drug-tolerant bacteria | ||
| 670 | ‡a Author's A systems biology pipeline identifies regulatory networks for stem cell engineering | ||
| 670 | ‡a Author's Alternative splicing of MBD2 supports self-renewal in human pluripotent stem cells | ||
| 670 | ‡a Author's Author Correction: A systems biology pipeline identifies regulatory networks for stem cell engineering | ||
| 670 | ‡a Author's Bacterial metabolic state more accurately predicts antibiotic lethality than growth rate | ||
| 670 | ‡a Author's BioBits™ Bright: A fluorescent synthetic biology education kit | ||
| 670 | ‡a Author's BioBits™ Explorer: A modular synthetic biology education kit | ||
| 670 | ‡a Author's Cell-free biosensors for rapid detection of water contaminants | ||
| 670 | ‡a Author's CellNet: network biology applied to stem cell engineering | ||
| 670 | ‡a Author's Complex signal processing in synthetic gene circuits using cooperative regulatory assemblies | ||
| 670 | ‡a Author's Comprehensive Mapping of Pluripotent Stem Cell Metabolism Using Dynamic Genome-Scale Network Modeling | ||
| 670 | ‡a Author's Continuous bioactivity-dependent evolution of an antibiotic biosynthetic pathway | ||
| 670 | ‡a Author's Creating CRISPR-responsive smart materials for diagnostics and programmable cargo release | ||
| 670 | ‡a Author's Cytoplasmic condensation induced by membrane damage is associated with antibiotic lethality | ||
| 670 | ‡a Author's De novo-designed translation-repressing riboregulators for multi-input cellular logic | ||
| 670 | ‡a Author's Deconstructing transcriptional heterogeneity in pluripotent stem cells | ||
| 670 | ‡a Author's Defining cellular identity through network biology | ||
| 670 | ‡a Author's Definitions and guidelines for research on antibiotic persistence | ||
| 670 | ‡a Author's Dissecting engineered cell types and enhancing cell fate conversion via CellNet | ||
| 670 | ‡a Author's Diversification of reprogramming trajectories revealed by parallel single-cell transcriptome and chromatin accessibility sequencing | ||
| 670 | ‡a Author's Donor cell type can influence the epigenome and differentiation potential of human induced pluripotent stem cells | ||
| 670 | ‡a Author's Erratum: Deconstructing transcriptional heterogeneity in pluripotent stem cells | ||
| 670 | ‡a Author's Field validation of the performance of paper-based tests for the detection of the Zika and chikungunya viruses in serum samples | ||
| 670 | ‡a Author's Genomic approaches to deconstruct pluripotency | ||
| 670 | ‡a Author's Highly efficient reprogramming to pluripotency and directed differentiation of human cells with synthetic modified mRNA. | ||
| 670 | ‡a Author's Induction of multipotential hematopoietic progenitors from human pluripotent stem cells via respecification of lineage-restricted precursors | ||
| 670 | ‡a Author's Leveraging artificial intelligence in the fight against infectious diseases | ||
| 670 | ‡a Author's LIN28 Regulates Stem Cell Metabolism and Conversion to Primed Pluripotency | ||
| 670 | ‡a Author's Mechanism of stochastic resonance enhancement in neuronal models driven by 1 / f noise | ||
| 670 | ‡a Author's Modulating the evolutionary trajectory of tolerance using antibiotics with different metabolic dependencies | ||
| 670 | ‡a Author's Multiple mechanisms disrupt the let-7 microRNA family in neuroblastoma | ||
| 670 | ‡a Author's Nucleic acid detection with CRISPR-Cas13a/C2c2 | ||
| 670 | ‡a Author's Predictive biology: modelling, understanding and harnessing microbial complexity | ||
| 670 | ‡a Author's Probiotic strains detect and suppress cholera in mice | ||
| 670 | ‡a Author's Programmable CRISPR-responsive smart materials | ||
| 670 | ‡a Author's Publisher Correction: Definitions and guidelines for research on antibiotic persistence | ||
| 670 | ‡a Author's Reconstruction of complex single-cell trajectories using CellRouter. | ||
| 670 | ‡a Author's Reprogramming of T cells from human peripheral blood | ||
| 670 | ‡a Author's RNAi Reveals Phase-Specific Global Regulators of Human Somatic Cell Reprogramming | ||
| 670 | ‡a Author's Systematic identification of factors for provirus silencing in embryonic stem cells | ||
| 670 | ‡a Author's The transcriptional landscape of hematopoietic stem cell ontogeny | ||
| 670 | ‡a Author's Ultrasensitive CRISPR-based diagnostic for field-applicable detection of Plasmodium species in symptomatic and asymptomatic malaria | ||
| 670 | ‡a wikidata site links ‡u https://zh.wikipedia.org/wiki/ James ·J· Collins | ||
| 670 | ‡a wikidata site links ‡u https://ja.wikipedia.org/wiki/ジェームズ・J・コリンズ | ||
| 670 | ‡a wikidata site links ‡u https://arz.wikipedia.org/wiki/جيمس_كولينز | ||
| 670 | ‡a wikidata site links ‡u https://de.wikipedia.org/wiki/James_J._Collins | ||
| 670 | ‡a wikidata site links ‡u https://es.wikipedia.org/wiki/James_J._Collins | ||
| 670 | ‡a wikidata site links ‡u https://ml.wikipedia.org/wiki/ജയിംസ്_ജെ_കോളിൻസ് | ||
| 670 | ‡a wikidata site links ‡u https://en.wikipedia.org/wiki/James_J._Collins | ||
| 670 | ‡a wikidata site links ‡u https://ru.wikipedia.org/wiki/Коллинз,_Джеймс_Джозеф | ||
| 670 | ‡a wikidata site links ‡u https://he.wikipedia.org/wiki/ג'יימס_קולינס_(מדען) | ||
| 909 | ‡a (orcid) 0000000255608246 ‡9 1 | ||
| 919 | ‡a multiplemechanismsdisruptthelet7micrornafamilyinneuroblastoma ‡A Multiple mechanisms disrupt the let-7 microRNA family in neuroblastoma ‡9 1 | ||
| 919 | ‡a crisprbasedassayforthedetectionofopportunisticinfectionsposttransplantationandforthemonitoringoftransplantrejection ‡A A CRISPR-based assay for the detection of opportunistic infections post-transplantation and for the monitoring of transplant rejection ‡9 1 | ||
| 919 | ‡a crisprcas9basedgenedriveplatformforgeneticinteractionanalysisincandidaalbicans ‡A A CRISPR-Cas9-based gene drive platform for genetic interaction analysis in Candida albicans. ‡9 1 | ||
| 919 | ‡a deeplearningapproachtoprogrammablernaswitches ‡A A deep learning approach to programmable RNA switches ‡9 1 | ||
| 919 | ‡a multiplexableassayforscreeningantibioticlethalityagainstdrugtolerantbacteria ‡A A multiplexable assay for screening antibiotic lethality against drug-tolerant bacteria ‡9 1 | ||
| 919 | ‡a systemsbiologypipelineidentifiesregulatorynetworksforstemcellengineering ‡A A systems biology pipeline identifies regulatory networks for stem cell engineering ‡9 1 | ||
| 919 | ‡a alternativesplicingofmbd2supportsselfrenewalinhumanpluripotentstemcells ‡A Alternative splicing of MBD2 supports self-renewal in human pluripotent stem cells ‡9 1 | ||
| 919 | ‡a authorcorrectionasystemsbiologypipelineidentifiesregulatorynetworksforstemcellengineering ‡A Author Correction: A systems biology pipeline identifies regulatory networks for stem cell engineering ‡9 1 | ||
| 919 | ‡a bacterialmetabolicstatemoreaccuratelypredictsantibioticlethalitythangrowthrate ‡A Bacterial metabolic state more accurately predicts antibiotic lethality than growth rate ‡9 1 | ||
| 919 | ‡a biobitstmbrightafluorescentsyntheticbiologyeducationkit ‡A BioBits™ Bright: A fluorescent synthetic biology education kit ‡9 1 | ||
| 919 | ‡a biobitstmexploreramodularsyntheticbiologyeducationkit ‡A BioBits™ Explorer: A modular synthetic biology education kit ‡9 1 | ||
| 919 | ‡a cellfreebiosensorsforrapiddetectionofwatercontaminants ‡A Cell-free biosensors for rapid detection of water contaminants ‡9 1 | ||
| 919 | ‡a cellnetnetworkbiologyappliedtostemcellengineering ‡A CellNet: network biology applied to stem cell engineering ‡9 1 | ||
| 919 | ‡a complexsignalprocessinginsyntheticgenecircuitsusingcooperativeregulatoryassemblies ‡A Complex signal processing in synthetic gene circuits using cooperative regulatory assemblies ‡9 1 | ||
| 919 | ‡a comprehensivemappingofpluripotentstemcellmetabolismusingdynamicgenomescalenetworkmodeling ‡A Comprehensive Mapping of Pluripotent Stem Cell Metabolism Using Dynamic Genome-Scale Network Modeling ‡9 1 | ||
| 919 | ‡a continuousbioactivitydependentevolutionofanantibioticbiosyntheticpathway ‡A Continuous bioactivity-dependent evolution of an antibiotic biosynthetic pathway ‡9 1 | ||
| 919 | ‡a creatingcrisprresponsivesmartmaterialsfordiagnosticsandprogrammablecargorelease ‡A Creating CRISPR-responsive smart materials for diagnostics and programmable cargo release ‡9 1 | ||
| 919 | ‡a cytoplasmiccondensationinducedbymembranedamageisassociatedwithantibioticlethality ‡A Cytoplasmic condensation induced by membrane damage is associated with antibiotic lethality ‡9 1 | ||
| 919 | ‡a novodesignedtranslationrepressingriboregulatorsformultiinputcellularlogic ‡A De novo-designed translation-repressing riboregulators for multi-input cellular logic ‡9 1 | ||
| 919 | ‡a deconstructingtranscriptionalheterogeneityinpluripotentstemcells ‡A Deconstructing transcriptional heterogeneity in pluripotent stem cells ‡9 1 | ||
| 919 | ‡a definingcellularidentitythroughnetworkbiology ‡A Defining cellular identity through network biology ‡9 1 | ||
| 919 | ‡a definitionsandguidelinesforresearchonantibioticpersistence ‡A Definitions and guidelines for research on antibiotic persistence ‡9 1 | ||
| 919 | ‡a dissectingengineeredcelltypesandenhancingcellfateconversionviacellnet ‡A Dissecting engineered cell types and enhancing cell fate conversion via CellNet ‡9 1 | ||
| 919 | ‡a diversificationofreprogrammingtrajectoriesrevealedbyparallelsinglecelltranscriptomeandchromatinaccessibilitysequencing ‡A Diversification of reprogramming trajectories revealed by parallel single-cell transcriptome and chromatin accessibility sequencing ‡9 1 | ||
| 919 | ‡a donorcelltypecaninfluencetheepigenomeanddifferentiationpotentialofhumaninducedpluripotentstemcells ‡A Donor cell type can influence the epigenome and differentiation potential of human induced pluripotent stem cells ‡9 1 | ||
| 919 | ‡a erratumdeconstructingtranscriptionalheterogeneityinpluripotentstemcells ‡A Erratum: Deconstructing transcriptional heterogeneity in pluripotent stem cells ‡9 1 | ||
| 919 | ‡a fieldvalidationoftheperformanceofpaperbasedtestsforthedetectionofthezikaandchikungunyavirusesinserumsamples ‡A Field validation of the performance of paper-based tests for the detection of the Zika and chikungunya viruses in serum samples ‡9 1 | ||
| 919 | ‡a ultrasensitivecrisprbaseddiagnosticforfieldapplicabledetectionofplasmodiumspeciesinsymptomaticandasymptomaticmalaria ‡A Ultrasensitive CRISPR-based diagnostic for field-applicable detection of Plasmodium species in symptomatic and asymptomatic malaria ‡9 1 | ||
| 919 | ‡a transcriptionallandscapeofhematopoieticstemcellontogeny ‡A The transcriptional landscape of hematopoietic stem cell ontogeny ‡9 1 | ||
| 919 | ‡a systematicidentificationoffactorsforprovirussilencinginembryonicstemcells ‡A Systematic identification of factors for provirus silencing in embryonic stem cells ‡9 1 | ||
| 919 | ‡a rnairevealsphasespecificglobalregulatorsofhumansomaticcellreprogramming ‡A RNAi Reveals Phase-Specific Global Regulators of Human Somatic Cell Reprogramming ‡9 1 | ||
| 919 | ‡a reprogrammingoftcellsfromhumanperipheralblood ‡A Reprogramming of T cells from human peripheral blood ‡9 1 | ||
| 919 | ‡a reconstructionofcomplexsinglecelltrajectoriesusingcellrouter ‡A Reconstruction of complex single-cell trajectories using CellRouter. ‡9 1 | ||
| 919 | ‡a publishercorrectiondefinitionsandguidelinesforresearchonantibioticpersistence ‡A Publisher Correction: Definitions and guidelines for research on antibiotic persistence ‡9 1 | ||
| 919 | ‡a programmablecrisprresponsivesmartmaterials ‡A Programmable CRISPR-responsive smart materials ‡9 1 | ||
| 919 | ‡a probioticstrainsdetectandsuppresscholerainmice ‡A Probiotic strains detect and suppress cholera in mice ‡9 1 | ||
| 919 | ‡a predictivebiologymodellingunderstandingandharnessingmicrobialcomplexity ‡A Predictive biology: modelling, understanding and harnessing microbial complexity ‡9 1 | ||
| 919 | ‡a nucleicaciddetectionwithcrisprcas13ac2c2 ‡A Nucleic acid detection with CRISPR-Cas13a/C2c2 ‡9 1 | ||
| 919 | ‡a genomicapproachestodeconstructpluripotency ‡A Genomic approaches to deconstruct pluripotency ‡9 1 | ||
| 919 | ‡a highlyefficientreprogrammingtopluripotencyanddirecteddifferentiationofhumancellswithsyntheticmodifiedmrna ‡A Highly efficient reprogramming to pluripotency and directed differentiation of human cells with synthetic modified mRNA. ‡9 1 | ||
| 919 | ‡a inductionofmultipotentialhematopoieticprogenitorsfromhumanpluripotentstemcellsviarespecificationoflineagerestrictedprecursors ‡A Induction of multipotential hematopoietic progenitors from human pluripotent stem cells via respecification of lineage-restricted precursors ‡9 1 | ||
| 919 | ‡a leveragingartificialintelligenceinthefightagainstinfectiousdiseases ‡A Leveraging artificial intelligence in the fight against infectious diseases ‡9 1 | ||
| 919 | ‡a lin28regulatesstemcellmetabolismandconversiontoprimedpluripotency ‡A LIN28 Regulates Stem Cell Metabolism and Conversion to Primed Pluripotency ‡9 1 | ||
| 919 | ‡a mechanismofstochasticresonanceenhancementinneuronalmodelsdrivenby1 ‡A Mechanism of stochastic resonance enhancement in neuronal models driven by 1 / f noise ‡9 1 | ||
| 919 | ‡a modulatingtheevolutionarytrajectoryoftoleranceusingantibioticswithdifferentmetabolicdependencies ‡A Modulating the evolutionary trajectory of tolerance using antibiotics with different metabolic dependencies ‡9 1 | ||
| 946 | ‡a b ‡9 1 | ||
| 947 | ‡a US ‡9 1 | ||
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| 996 | ‡2 ISNI|0000000033600265 | ||
| 996 | ‡2 RERO|A003116959 | ||
| 996 | ‡2 LC|no2019041670 | ||
| 996 | ‡2 NTA|067813097 | ||
| 996 | ‡2 LC|n 2020047418 | ||
| 996 | ‡2 LC|n 2006081784 | ||
| 996 | ‡2 SUDOC|23140087X | ||
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| 996 | ‡2 LC|n 91093778 | ||
| 996 | ‡2 BNF|15606846 | ||
| 996 | ‡2 LC|n 79130412 | ||
| 996 | ‡2 SUDOC|249677873 | ||
| 996 | ‡2 LIH|LNB:DT_y_V;=B9 | ||
| 996 | ‡2 DNB|1070494755 | ||
| 996 | ‡2 LC|nr2005024208 | ||
| 996 | ‡2 LC|no2014135400 | ||
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| 996 | ‡2 LC|nr 92006110 | ||
| 996 | ‡2 BIBSYS|12068016 | ||
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| 996 | ‡2 LC|n 83053122 | ||
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| 996 | ‡2 SUDOC|230007627 | ||
| 996 | ‡2 PLWABN|9810604628405606 | ||
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| 996 | ‡2 NII|DA05986365 | ||
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| 996 | ‡2 DNB|1057415073 | ||
| 996 | ‡2 LC|n 97117058 | ||
| 996 | ‡2 N6I|vtls000037485 | ||
| 996 | ‡2 LIH|LNB:B_r_I,;=B_e_ | ||
| 996 | ‡2 NUKAT|nx2023272729 | ||
| 996 | ‡2 NSK|000537880 | ||
| 996 | ‡2 NTA|069063125 | ||
| 996 | ‡2 LC|n 2020056994 | ||
| 996 | ‡2 LC|nb2019016908 | ||
| 996 | ‡2 LC|no2024074833 | ||
| 996 | ‡2 LC|no2017064334 | ||
| 996 | ‡2 ISNI|0000000363454109 | ||
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| 996 | ‡2 NII|DA03540820 | ||
| 996 | ‡2 ISNI|000000040925690X | ||
| 996 | ‡2 LC|n 2024058965 | ||
| 996 | ‡2 ISNI|0000000052719157 | ||
| 996 | ‡2 DNB|117696196 | ||
| 996 | ‡2 BIBSYS|8009821 | ||
| 996 | ‡2 CAOONL|ncf11883580 | ||
| 996 | ‡2 LC|n 79022127 | ||
| 996 | ‡2 RERO|A012459320 | ||
| 996 | ‡2 LC|n 79098529 | ||
| 996 | ‡2 ISNI|0000000033121870 | ||
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| 996 | ‡2 BIBSYS|90688505 | ||
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| 996 | ‡2 NUKAT|n 97021529 | ||
| 996 | ‡2 NII|DA17029710 | ||
| 996 | ‡2 SUDOC|02875834X | ||
| 996 | ‡2 BIBSYS|90901846 | ||
| 996 | ‡2 LC|n 2004155718 | ||
| 996 | ‡2 SUDOC|177579439 | ||
| 996 | ‡2 LC|n 2009183050 | ||
| 996 | ‡2 LC|n 86818077 | ||
| 996 | ‡2 ISNI|0000000449558064 | ||
| 996 | ‡2 NII|DA07389720 | ||
| 996 | ‡2 ISNI|0000000458451533 | ||
| 996 | ‡2 LC|n 81088528 | ||
| 996 | ‡2 SUDOC|050529188 | ||
| 996 | ‡2 LC|no2002064802 | ||
| 996 | ‡2 CAOONL|ncf11286902 | ||
| 996 | ‡2 ISNI|0000000048589388 | ||
| 996 | ‡2 N6I|vtls000854851 | ||
| 996 | ‡2 EGAXA|Balis29219697 | ||
| 996 | ‡2 RERO|A016717954 | ||
| 996 | ‡2 NSK|000168812 | ||
| 996 | ‡2 LIH|LNB:B_l_DG;=BP | ||
| 996 | ‡2 SUDOC|082254850 | ||
| 996 | ‡2 ISNI|0000000034884909 | ||
| 996 | ‡2 BNF|13534934 | ||
| 996 | ‡2 ISNI|0000000110820385 | ||
| 996 | ‡2 LC|no2005092571 | ||
| 996 | ‡2 NKC|mzk2007408401 | ||
| 996 | ‡2 NUKAT|n 2013141076 | ||
| 996 | ‡2 NTA|071069372 | ||
| 996 | ‡2 NII|DA18474526 | ||
| 996 | ‡2 SUDOC|192415433 | ||
| 996 | ‡2 ISNI|0000000390452117 | ||
| 996 | ‡2 J9U|987007369456505171 | ||
| 996 | ‡2 LC|nb 98025608 | ||
| 996 | ‡2 LC|nb2009014167 | ||
| 996 | ‡2 BNF|12052838 | ||
| 996 | ‡2 ISNI|0000000049325296 | ||
| 996 | ‡2 NUKAT|n 2021200946 | ||
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| 996 | ‡2 NTA|135711517 | ||
| 996 | ‡2 LC|n 2016000430 | ||
| 996 | ‡2 ISNI|0000000041333216 | ||
| 996 | ‡2 CAOONL|ncf10107807 | ||
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| 996 | ‡2 LC|n 2007048275 | ||
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| 996 | ‡2 ISNI|0000000021912632 | ||
| 996 | ‡2 CAOONL|ncf10158485 | ||
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| 996 | ‡2 LC|nb2003044063 | ||
| 996 | ‡2 LC|no2021133591 | ||
| 996 | ‡2 LC|no2017025281 | ||
| 996 | ‡2 LC|n 00024546 | ||
| 996 | ‡2 PLWABN|9810553182005606 | ||
| 996 | ‡2 PTBNP|1602644 | ||
| 996 | ‡2 LC|n 94089199 | ||
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| 996 | ‡2 LC|n 82026318 | ||
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| 996 | ‡2 LC|no2022106937 | ||
| 996 | ‡2 J9U|987009347868305171 | ||
| 996 | ‡2 PLWABN|9810543511405606 | ||
| 996 | ‡2 LC|no 99015659 | ||
| 996 | ‡2 BIBSYS|5068340 | ||
| 996 | ‡2 LC|no2021022810 | ||
| 996 | ‡2 CAOONL|ncf11530510 | ||
| 996 | ‡2 BIBSYS|90184943 | ||
| 996 | ‡2 LC|n 90641672 | ||
| 996 | ‡2 RERO|A006098604 | ||
| 996 | ‡2 ISNI|0000000035444294 | ||
| 996 | ‡2 ISNI|0000000061794335 | ||
| 996 | ‡2 SUDOC|137944616 | ||
| 996 | ‡2 ISNI|0000000050422579 | ||
| 996 | ‡2 RERO|A021637274 | ||
| 996 | ‡2 LC|no 95057250 | ||
| 996 | ‡2 LC|n 86818084 | ||
| 996 | ‡2 LC|no2021119044 | ||
| 996 | ‡2 LC|n 82127250 | ||
| 996 | ‡2 LC|n 85008830 | ||
| 996 | ‡2 PLWABN|9810562020705606 | ||
| 996 | ‡2 BNE|XX831947 | ||
| 996 | ‡2 NII|DA03577434 | ||
| 996 | ‡2 LC|no2016077794 | ||
| 996 | ‡2 BIBSYS|9067225 | ||
| 996 | ‡2 CAOONL|ncf11424469 | ||
| 996 | ‡2 N6I|vtls000088672 | ||
| 996 | ‡2 N6I|vtls000110717 | ||
| 996 | ‡2 CAOONL|ncf11318493 | ||
| 996 | ‡2 NTA|073896888 | ||
| 996 | ‡2 ISNI|0000000446208376 | ||
| 996 | ‡2 NII|DA04308303 | ||
| 996 | ‡2 BIBSYS|90089043 | ||
| 996 | ‡2 DE633|pe40001646 | ||
| 996 | ‡2 LC|n 94063746 | ||
| 996 | ‡2 BAV|495_180109 | ||
| 996 | ‡2 LC|n 2015010292 | ||
| 996 | ‡2 LC|no 98065483 | ||
| 996 | ‡2 NII|DA06612644 | ||
| 996 | ‡2 J9U|987007336905805171 | ||
| 996 | ‡2 LC|no 96001992 | ||
| 996 | ‡2 LC|no2016096928 | ||
| 996 | ‡2 ISNI|0000000033922483 | ||
| 997 | ‡a 1965 0 lived 0626 0 ‡9 1 |
