Leader
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00000nz a2200037n 45 0 |
001
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WKP|Q38545972
(VIAF cluster)
(Authority/Source Record)
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003
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WKP |
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20241121000229.0 |
008
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241121nneanz||abbn n and d |
035
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‡a
(WKP)Q38545972
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024
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0000-0002-9731-6524
‡2
orcid
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024
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‡a
7102880580
‡2
scopus
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035
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‡a
(OCoLC)Q38545972
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100
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0 |
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‡a
Eduardo Díaz
‡9
ast
‡9
es
‡9
sl
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375
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‡a
1
‡2
iso5218
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400
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0 |
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‡a
Eduardo Díaz
‡c
researcher
‡9
en
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400
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0 |
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‡a
Eduardo Díaz
‡c
wetenschapper
‡9
nl
|
670
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|
‡a
Author's 3-Hydroxyphenylpropionate and phenylpropionate are synergistic activators of the MhpR transcriptional regulator from Escherichia coli
|
670
|
|
|
‡a
Author's A finely tuned regulatory circuit of the nicotinic acid degradation pathway in Pseudomonas putida
|
670
|
|
|
‡a
Author's A gene containment strategy based on a restriction-modification system
|
670
|
|
|
‡a
Author's A preliminary crystallographic study of recombinant NicX, an Fe(2+)-dependent 2,5-dihydroxypyridine dioxygenase from Pseudomonas putida KT2440.
|
670
|
|
|
‡a
Author's A second chromosomal copy of the catA gene endows Pseudomonas putida mt-2 with an enzymatic safety valve for excess of catechol
|
670
|
|
|
‡a
Author's AccR is a master regulator involved in carbon catabolite repression of the anaerobic catabolism of aromatic compounds in Azoarcus sp. CIB.
|
670
|
|
|
‡a
Author's Aerobic degradation of aromatic compounds.
|
670
|
|
|
‡a
Author's Anaerobic catabolism of aromatic compounds: a genetic and genomic view.
|
670
|
|
|
‡a
Author's Analysis of dibenzothiophene desulfurization in a recombinant Pseudomonas putida strain
|
670
|
|
|
‡a
Author's Antifungal monoterpene production in elicited cell suspension cultures of Piqueria trinervia
|
670
|
|
|
‡a
Author's Azoarcus sp. CIB, an anaerobic biodegrader of aromatic compounds shows an endophytic lifestyle
|
670
|
|
|
‡a
Author's Bacterial degradation of benzoate: cross-regulation between aerobic and anaerobic pathways.
|
670
|
|
|
‡a
Author's Biodegradation of aromatic compounds by Escherichia coli
|
670
|
|
|
‡a
Author's BzdR, a repressor that controls the anaerobic catabolism of benzoate in Azoarcus sp. CIB, is the first member of a new subfamily of transcriptional regulators
|
670
|
|
|
‡a
Author's Catabolism of phenylacetic acid in Escherichia coli. Characterization of a new aerobic hybrid pathway
|
670
|
|
|
‡a
Author's Characterization of a MHYT domain-coupled transcriptional regulator that responds to carbon monoxide
|
670
|
|
|
‡a
Author's Characterization of the last step of the aerobic phenylacetic acid degradation pathway.
|
670
|
|
|
‡a
Author's Characterization of the mbd cluster encoding the anaerobic 3-methylbenzoyl-CoA central pathway.
|
670
|
|
|
‡a
Author's Characterization of the transcription unit encoding the major pneumococcal autolysin
|
670
|
|
|
‡a
Author's Construction of a broad-host-range pneumococcal promoter-probe plasmid
|
670
|
|
|
‡a
Author's Coregulation by phenylacetyl-coenzyme A-responsive PaaX integrates control of the upper and lower pathways for catabolism of styrene by Pseudomonas sp. strain Y2.
|
670
|
|
|
‡a
Author's Deciphering the genetic determinants for aerobic nicotinic acid degradation: the nic cluster from Pseudomonas putida KT2440
|
670
|
|
|
‡a
Author's Design of catabolic cassettes for styrene biodegradation.
|
670
|
|
|
‡a
Author's Elevated c-di-GMP levels promote biofilm formation and biodesulfurization capacity of Rhodococcus erythropolis
|
670
|
|
|
‡a
Author's Engineering synthetic bacterial consortia for enhanced desulfurization and revalorization of oil sulfur compounds
|
670
|
|
|
‡a
Author's Enhancing desulphurization by engineering a flavin reductase-encoding gene cassette in recombinant biocatalysts.
|
670
|
|
|
‡a
Author's Expanding the current knowledge and biotechnological applications of the oxygen-independent ortho-phthalate degradation pathway
|
670
|
|
|
‡a
Author's Genetic characterization of the phenylacetyl-coenzyme A oxygenase from the aerobic phenylacetic acid degradation pathway of Escherichia coli
|
670
|
|
|
‡a
Author's Genetic characterization of the styrene lower catabolic pathway of Pseudomonas sp. strain Y2.
|
670
|
|
|
‡a
Author's Genome Sequence of Pseudomonas azelaica HBP1, Which Catabolizes 2-Hydroxybiphenyl Fungicide
|
670
|
|
|
‡a
Author's Genome Sequence of Pseudomonas azelaica Strain Aramco J
|
670
|
|
|
‡a
Author's Genomic analysis of the aromatic catabolic pathways from Pseudomonas putida KT2440.
|
670
|
|
|
‡a
Author's Growth phase-dependent expression of the Pseudomonas putida KT2440 transcriptional machinery analysed with a genome-wide DNA microarray.
|
670
|
|
|
‡a
Author's Identification and analysis of a glutaryl-CoA dehydrogenase-encoding gene and its cognate transcriptional regulator from Azoarcus sp. CIB.
|
670
|
|
|
‡a
Author's Identification of a missing link in the evolution of an enzyme into a transcriptional regulator
|
670
|
|
|
‡a
Author's Identification of the Geobacter metallireducens bamVW two-component system, involved in transcriptional regulation of aromatic degradation.
|
670
|
|
|
‡a
Author's Insights on the regulation of the phenylacetate degradation pathway from Escherichia coli.
|
670
|
|
|
‡a
Author's Iron-reducing bacteria unravel novel strategies for the anaerobic catabolism of aromatic compounds
|
670
|
|
|
‡a
Author's Liver retinol transporter and receptor for serum retinol-binding protein (RBP4)
|
670
|
|
|
‡a
Author's Molecular characterization of PadA, a phenylacetaldehyde dehydrogenase from Escherichia coli
|
670
|
|
|
‡a
Author's Molecular characterization of the phenylacetic acid catabolic pathway in Pseudomonas putida U: the phenylacetyl-CoA catabolon
|
670
|
|
|
‡a
Author's New insights into the BzdR-mediated transcriptional regulation of the anaerobic catabolism of benzoate in Azoarcus sp. CIB.
|
670
|
|
|
‡a
Author's Oxygen-dependent regulation of the central pathway for the anaerobic catabolism of aromatic compounds in Azoarcus sp. strain CIB.
|
670
|
|
|
‡a
Author's Plasmids as Tools for Containment
|
670
|
|
|
‡a
Author's Refactoring the λ phage lytic/lysogenic decision with a synthetic regulator.
|
670
|
|
|
‡a
Author's Regulation of the mhp cluster responsible for 3-
|
670
|
|
|
‡a
Author's Regulation of the mhp cluster responsible for 3-(3-hydroxyphenyl)propionic acid degradation in Escherichia coli
|
670
|
|
|
‡a
Author's Restricting the dispersal of recombinant DNA: design of a contained biological catalyst
|
670
|
|
|
‡a
Author's The evolutionary relationship of biphenyl dioxygenase from gram-positive Rhodococcus globerulus P6 to multicomponent dioxygenases from gram-negative bacteria
|
670
|
|
|
‡a
Author's Transcriptional regulation of the divergent paa catabolic operons for phenylacetic acid degradation in Escherichia coli
|
670
|
|
|
‡a
Author's Unraveling the specific regulation of the central pathway for anaerobic degradation of 3-methylbenzoate
|
670
|
|
|
‡a
Author's Whole-genome analysis of Azoarcus sp. strain CIB provides genetic insights to its different lifestyles and predicts novel metabolic features.
|
909
|
|
|
‡a
(scopus) 7102880580
‡9
1
|
909
|
|
|
‡a
(orcid) 0000000297316524
‡9
1
|
919
|
|
|
‡a
oxygendependentregulationofthecentralpathwayfortheanaerobiccatabolismofaromaticcompoundsinazoarcusspstraincib
‡A
Oxygen-dependent regulation of the central pathway for the anaerobic catabolism of aromatic compounds in Azoarcus sp. strain CIB.
‡9
1
|
919
|
|
|
‡a
newinsightsintothebzdrmediatedtranscriptionalregulationoftheanaerobiccatabolismofbenzoateinazoarcusspcib
‡A
New insights into the BzdR-mediated transcriptional regulation of the anaerobic catabolism of benzoate in Azoarcus sp. CIB.
‡9
1
|
919
|
|
|
‡a
molecularcharacterizationofthephenylaceticacidcatabolicpathwayinpseudomonasputidauthephenylacetylcoacatabolon
‡A
Molecular characterization of the phenylacetic acid catabolic pathway in Pseudomonas putida U: the phenylacetyl-CoA catabolon
‡9
1
|
919
|
|
|
‡a
molecularcharacterizationofpadaaphenylacetaldehydedehydrogenasefromescherichiacoli
‡A
Molecular characterization of PadA, a phenylacetaldehyde dehydrogenase from Escherichia coli
‡9
1
|
919
|
|
|
‡a
liverretinoltransporterandreceptorforserumretinolbindingproteinrbp4
‡A
Liver retinol transporter and receptor for serum retinol-binding protein (RBP4)
‡9
1
|
919
|
|
|
‡a
ironreducingbacteriaunravelnovelstrategiesfortheanaerobiccatabolismofaromaticcompounds
‡A
Iron-reducing bacteria unravel novel strategies for the anaerobic catabolism of aromatic compounds
‡9
1
|
919
|
|
|
‡a
insightsontheregulationofthephenylacetatedegradationpathwayfromescherichiacoli
‡A
Insights on the regulation of the phenylacetate degradation pathway from Escherichia coli.
‡9
1
|
919
|
|
|
‡a
identificationofthegeobactermetallireducensbamvw2componentsysteminvolvedintranscriptionalregulationofaromaticdegradation
‡A
Identification of the Geobacter metallireducens bamVW two-component system, involved in transcriptional regulation of aromatic degradation.
‡9
1
|
919
|
|
|
‡a
identificationofamissinglinkintheevolutionofanenzymeintoatranscriptionalregulator
‡A
Identification of a missing link in the evolution of an enzyme into a transcriptional regulator
‡9
1
|
919
|
|
|
‡a
identificationandanalysisofaglutarylcoadehydrogenaseencodinggeneanditscognatetranscriptionalregulatorfromazoarcusspcib
‡A
Identification and analysis of a glutaryl-CoA dehydrogenase-encoding gene and its cognate transcriptional regulator from Azoarcus sp. CIB.
‡9
1
|
919
|
|
|
‡a
growthphasedependentexpressionofthepseudomonasputidakt2440transcriptionalmachineryanalysedwithagenomewidednamicroarray
‡A
Growth phase-dependent expression of the Pseudomonas putida KT2440 transcriptional machinery analysed with a genome-wide DNA microarray.
‡9
1
|
919
|
|
|
‡a
genomicanalysisofthearomaticcatabolicpathwaysfrompseudomonasputidak
‡A
Genomic analysis of the aromatic catabolic pathways from Pseudomonas putida KT2440.
‡9
1
|
919
|
|
|
‡a
genomesequenceofpseudomonasazelaicastrainaramcoj
‡A
Genome Sequence of Pseudomonas azelaica Strain Aramco J
‡9
1
|
919
|
|
|
‡a
genomesequenceofpseudomonasazelaicahbp1whichcatabolizes2hydroxybiphenylfungicide
‡A
Genome Sequence of Pseudomonas azelaica HBP1, Which Catabolizes 2-Hydroxybiphenyl Fungicide
‡9
1
|
919
|
|
|
‡a
geneticcharacterizationofthestyrenelowercatabolicpathwayofpseudomonasspstrainy2
‡A
Genetic characterization of the styrene lower catabolic pathway of Pseudomonas sp. strain Y2.
‡9
1
|
919
|
|
|
‡a
geneticcharacterizationofthephenylacetylcoenzymeaoxygenasefromtheaerobicphenylaceticaciddegradationpathwayofescherichiacoli
‡A
Genetic characterization of the phenylacetyl-coenzyme A oxygenase from the aerobic phenylacetic acid degradation pathway of Escherichia coli
‡9
1
|
919
|
|
|
‡a
refactoringtheλphagelyticlysogenicdecisionwithasyntheticregulator
‡A
Refactoring the λ phage lytic/lysogenic decision with a synthetic regulator.
‡9
1
|
919
|
|
|
‡a
expandingthecurrentknowledgeandbiotechnologicalapplicationsoftheoxygenindependentorthophthalatedegradationpathway
‡A
Expanding the current knowledge and biotechnological applications of the oxygen-independent ortho-phthalate degradation pathway
‡9
1
|
919
|
|
|
‡a
regulationofthemhpclusterresponsiblefor3
‡A
Regulation of the mhp cluster responsible for 3-
‡9
1
|
919
|
|
|
‡a
regulationofthemhpclusterresponsiblefor33hydroxyphenylpropionicaciddegradationinescherichiacoli
‡A
Regulation of the mhp cluster responsible for 3-(3-hydroxyphenyl)propionic acid degradation in Escherichia coli
‡9
1
|
919
|
|
|
‡a
enhancingdesulphurizationbyengineeringaflavinreductaseencodinggenecassetteinrecombinantbiocatalysts
‡A
Enhancing desulphurization by engineering a flavin reductase-encoding gene cassette in recombinant biocatalysts.
‡9
1
|
919
|
|
|
‡a
restrictingthedispersalofrecombinantdnadesignofacontainedbiologicalcatalyst
‡A
Restricting the dispersal of recombinant DNA: design of a contained biological catalyst
‡9
1
|
919
|
|
|
‡a
engineeringsyntheticbacterialconsortiaforenhanceddesulfurizationandrevalorizationofoilsulfurcompounds
‡A
Engineering synthetic bacterial consortia for enhanced desulfurization and revalorization of oil sulfur compounds
‡9
1
|
919
|
|
|
‡a
elevated100501gmplevelspromotebiofilmformationandbiodesulfurizationcapacityofrhodococcuserythropolis
‡A
Elevated c-di-GMP levels promote biofilm formation and biodesulfurization capacity of Rhodococcus erythropolis
‡9
1
|
919
|
|
|
‡a
designofcataboliccassettesforstyrenebiodegradation
‡A
Design of catabolic cassettes for styrene biodegradation.
‡9
1
|
919
|
|
|
‡a
decipheringthegeneticdeterminantsforaerobicnicotinicaciddegradationthenicclusterfrompseudomonasputidak
‡A
Deciphering the genetic determinants for aerobic nicotinic acid degradation: the nic cluster from Pseudomonas putida KT2440
‡9
1
|
919
|
|
|
‡a
coregulationbyphenylacetylcoenzymearesponsivepaaxintegratescontroloftheupperandlowerpathwaysforcatabolismofstyrenebypseudomonasspstrainy2
‡A
Coregulation by phenylacetyl-coenzyme A-responsive PaaX integrates control of the upper and lower pathways for catabolism of styrene by Pseudomonas sp. strain Y2.
‡9
1
|
919
|
|
|
‡a
constructionofabroadhostrangepneumococcalpromoterprobeplasmid
‡A
Construction of a broad-host-range pneumococcal promoter-probe plasmid
‡9
1
|
919
|
|
|
‡a
characterizationofthetranscriptionunitencodingthemajorpneumococcalautolysin
‡A
Characterization of the transcription unit encoding the major pneumococcal autolysin
‡9
1
|
919
|
|
|
‡a
characterizationofthembdclusterencodingtheanaerobic3methylbenzoylcoacentralpathway
‡A
Characterization of the mbd cluster encoding the anaerobic 3-methylbenzoyl-CoA central pathway.
‡9
1
|
919
|
|
|
‡a
characterizationofthelaststepoftheaerobicphenylaceticaciddegradationpathway
‡A
Characterization of the last step of the aerobic phenylacetic acid degradation pathway.
‡9
1
|
919
|
|
|
‡a
characterizationofamhytdomaincoupledtranscriptionalregulatorthatrespondstocarbonmonoxide
‡A
Characterization of a MHYT domain-coupled transcriptional regulator that responds to carbon monoxide
‡9
1
|
919
|
|
|
‡a
catabolismofphenylaceticacidinescherichiacolicharacterizationofanewaerobichybridpathway
‡A
Catabolism of phenylacetic acid in Escherichia coli. Characterization of a new aerobic hybrid pathway
‡9
1
|
919
|
|
|
‡a
cibisthe1memberofanewsubfamilyoftranscriptionalregulators
‡A
CIB, is the first member of a new subfamily of transcriptional regulators
‡9
1
|
919
|
|
|
‡a
biodegradationofaromaticcompoundsbyescherichiacoli
‡A
Biodegradation of aromatic compounds by Escherichia coli
‡9
1
|
919
|
|
|
‡a
bacterialdegradationofbenzoatecrossregulationbetweenaerobicandanaerobicpathways
‡A
Bacterial degradation of benzoate: cross-regulation between aerobic and anaerobic pathways.
‡9
1
|
919
|
|
|
‡a
azoarcusspcibananaerobicbiodegraderofaromaticcompoundsshowsanendophyticlifestyle
‡A
Azoarcus sp. CIB, an anaerobic biodegrader of aromatic compounds shows an endophytic lifestyle
‡9
1
|
919
|
|
|
‡a
evolutionaryrelationshipofbiphenyldioxygenasefromgrampositiverhodococcusgloberulusp6tomulticomponentdioxygenasesfromgramnegativebacteria
‡A
The evolutionary relationship of biphenyl dioxygenase from gram-positive Rhodococcus globerulus P6 to multicomponent dioxygenases from gram-negative bacteria
‡9
1
|
919
|
|
|
‡a
analysisofdibenzothiophenedesulfurizationinarecombinantpseudomonasputidastrain
‡A
Analysis of dibenzothiophene desulfurization in a recombinant Pseudomonas putida strain
‡9
1
|
919
|
|
|
‡a
anaerobiccatabolismofaromaticcompoundsageneticandgenomicview
‡A
Anaerobic catabolism of aromatic compounds: a genetic and genomic view.
‡9
1
|
919
|
|
|
‡a
aerobicdegradationofaromaticcompounds
‡A
Aerobic degradation of aromatic compounds.
‡9
1
|
919
|
|
|
‡a
accrisamasterregulatorinvolvedincarboncataboliterepressionoftheanaerobiccatabolismofaromaticcompoundsinazoarcusspcib
‡A
AccR is a master regulator involved in carbon catabolite repression of the anaerobic catabolism of aromatic compounds in Azoarcus sp. CIB.
‡9
1
|
919
|
|
|
‡a
2chromosomalcopyofthecatageneendowspseudomonasputidamt2withanenzymaticsafetyvalveforexcessofcatechol
‡A
A second chromosomal copy of the catA gene endows Pseudomonas putida mt-2 with an enzymatic safety valve for excess of catechol
‡9
1
|
919
|
|
|
‡a
preliminarycrystallographicstudyofrecombinantnicxanfe2+dependent25dihydroxypyridinedioxygenasefrompseudomonasputidak
‡A
A preliminary crystallographic study of recombinant NicX, an Fe(2+)-dependent 2,5-dihydroxypyridine dioxygenase from Pseudomonas putida KT2440.
‡9
1
|
919
|
|
|
‡a
genecontainmentstrategybasedonarestrictionmodificationsystem
‡A
A gene containment strategy based on a restriction-modification system
‡9
1
|
919
|
|
|
‡a
finelytunedregulatorycircuitofthenicotinicaciddegradationpathwayinpseudomonasputida
‡A
A finely tuned regulatory circuit of the nicotinic acid degradation pathway in Pseudomonas putida
‡9
1
|
919
|
|
|
‡a
transcriptionalregulationofthedivergentpaacatabolicoperonsforphenylaceticaciddegradationinescherichiacoli
‡A
Transcriptional regulation of the divergent paa catabolic operons for phenylacetic acid degradation in Escherichia coli
‡9
1
|
919
|
|
|
‡a
unravelingthespecificregulationofthecentralpathwayforanaerobicdegradationof3methylbenzoate
‡A
Unraveling the specific regulation of the central pathway for anaerobic degradation of 3-methylbenzoate
‡9
1
|
919
|
|
|
‡a
3hydroxyphenylpropionateandphenylpropionatearesynergisticactivatorsofthemhprtranscriptionalregulatorfromescherichiacoli
‡A
3-Hydroxyphenylpropionate and phenylpropionate are synergistic activators of the MhpR transcriptional regulator from Escherichia coli
‡9
1
|
919
|
|
|
‡a
wholegenomeanalysisofazoarcusspstraincibprovidesgeneticinsightstoitsdifferentlifestylesandpredictsnovelmetabolicfeatures
‡A
Whole-genome analysis of Azoarcus sp. strain CIB provides genetic insights to its different lifestyles and predicts novel metabolic features.
‡9
1
|
919
|
|
|
‡a
antifungalmonoterpeneproductioninelicitedcellsuspensionculturesofpiqueriatrinervia
‡A
Antifungal monoterpene production in elicited cell suspension cultures of Piqueria trinervia
‡9
1
|
919
|
|
|
‡a
plasmidsastoolsforcontainment
‡A
Plasmids as Tools for Containment
‡9
1
|
946
|
|
|
‡a
b
‡9
1
|
996
|
|
|
‡2
BNE|XX1101223
|
996
|
|
|
‡2
NTA|132954559
|
996
|
|
|
‡2
DNB|136077188
|
996
|
|
|
‡2
ISNI|0000000060629709
|
996
|
|
|
‡2
LC|n 2003102727
|
996
|
|
|
‡2
BNE|XX925103
|
996
|
|
|
‡2
LIH|LNB:B4_p__z_;=CA
|
996
|
|
|
‡2
RERO|A003178443
|
996
|
|
|
‡2
ISNI|0000000078264795
|
996
|
|
|
‡2
SUDOC|034727833
|
996
|
|
|
‡2
NKC|jn20000600024
|
996
|
|
|
‡2
ISNI|0000000043345392
|
996
|
|
|
‡2
LC|no2015094800
|
996
|
|
|
‡2
BNF|11290976
|
996
|
|
|
‡2
LC|nr2003000490
|
996
|
|
|
‡2
LC|ns2023001800
|
996
|
|
|
‡2
BNE|XX5100593
|
996
|
|
|
‡2
BNCHL|10000000000000000075320
|
996
|
|
|
‡2
ISNI|0000000059203057
|
996
|
|
|
‡2
BNE|XX880526
|
996
|
|
|
‡2
BNCHL|10000000000000000046137
|
996
|
|
|
‡2
LC|no2008059849
|
996
|
|
|
‡2
SUDOC|190937416
|
996
|
|
|
‡2
BNCHL|10000000000000000015927
|
996
|
|
|
‡2
NUKAT|n 2009125496
|
996
|
|
|
‡2
NTA|133220885
|
996
|
|
|
‡2
ISNI|0000000108652749
|
996
|
|
|
‡2
ISNI|0000000059799866
|
996
|
|
|
‡2
SUDOC|142725056
|
996
|
|
|
‡2
DNB|1116984245
|
996
|
|
|
‡2
BNC|981058530046106706
|
996
|
|
|
‡2
BIBSYS|90548159
|
996
|
|
|
‡2
LC|n 2021061181
|
996
|
|
|
‡2
BNF|13083462
|
996
|
|
|
‡2
LC|ns2019002948
|
996
|
|
|
‡2
BNCHL|10000000000000000846062
|
996
|
|
|
‡2
PLWABN|9812003911005606
|
996
|
|
|
‡2
LC|n 87906897
|
996
|
|
|
‡2
ISNI|0000000059278489
|
996
|
|
|
‡2
NSK|000387996
|
996
|
|
|
‡2
LC|no2011077647
|
996
|
|
|
‡2
CAOONL|ncf11947404
|
996
|
|
|
‡2
BNC|981058528491806706
|
996
|
|
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