sameAs
Yersinia pestis: new evidence for an old infectionThe rise and fall of the Phytophthora infestans lineage that triggered the Irish potato famineMitochondrial genomes reveal an explosive radiation of extinct and extant bears near the Miocene-Pliocene boundaryMassive migration from the steppe was a source for Indo-European languages in EuropeAncient human genomes suggest three ancestral populations for present-day EuropeansGenetic history of an archaic hominin group from Denisova Cave in SiberiaThe complete mitochondrial DNA genome of an unknown hominin from southern SiberiaTargeted enrichment of ancient pathogens yielding the pPCP1 plasmid of Yersinia pestis from victims of the Black DeathA draft genome of Yersinia pestis from victims of the Black DeathA complete Neandertal mitochondrial genome sequence determined by high-throughput sequencingThe Neandertal genome and ancient DNA authenticitySequencing and analysis of Neanderthal genomic DNAPatterns of damage in genomic DNA sequences from a NeandertalFunctional analysis of human and chimpanzee promoters.Genomic insights into the origin of farming in the ancient Near EastGenomic insights into the peopling of the Southwest PacificA High-Coverage Yersinia pestis Genome from a Sixth-Century Justinianic Plague VictimNeanderthals in central Asia and SiberiaThe derived FOXP2 variant of modern humans was shared with NeandertalsPre-Columbian mycobacterial genomes reveal seals as a source of New World human tuberculosisAnalysis of one million base pairs of Neanderthal DNAGenetic analyses from ancient DNAEffect of X-ray irradiation on ancient DNA in sub-fossil bones - Guidelines for safe X-ray imagingNeandertal cannibalism and Neandertal bones used as tools in Northern EuropeTemporal patterns of damage and decay kinetics of DNA retrieved from plant herbarium specimensEarly cave art and ancient DNA record the origin of European bisonA revised timescale for human evolution based on ancient mitochondrial genomesMitochondrial Genomes of Giant Deers Suggest their Late Survival in Central EuropeScreening ancient tuberculosis with qPCR: challenges and opportunitiesParallel detection of ancient pathogens via array-based DNA captureSeparating endogenous ancient DNA from modern day contamination in a Siberian NeandertalNext-generation museomics disentangles one of the largest primate radiations.Human Origins and the Search for “Missing Links”Primer extension capture: targeted sequence retrieval from heavily degraded DNA sourcesTargeted investigation of the Neandertal genome by array-based sequence captureFrom micrograms to picograms: quantitative PCR reduces the material demands of high-throughput sequencingEight thousand years of natural selection in EuropeEighteenth century Yersinia pestis genomes reveal the long-term persistence of an historical plague focusHistorical Y. pestis Genomes Reveal the European Black Death as the Source of Ancient and Modern Plague Pandemics.Genomic sequencing of Pleistocene cave bears.
P50
Q21090841-E05297EF-D6F9-43E1-87C3-9383A5F63A89Q21128789-38D73C91-8707-47D6-952F-AF25DE3D1B7EQ21283883-C9002010-2D6D-49FE-81D0-3544D0BDD5C2Q21534936-2F5F99CC-D6CC-4969-A2A9-746B1877C82DQ21534937-D6348672-94E5-429D-9BDD-094A9F749D03Q22122173-6025E485-69A8-442C-A910-90CC1B95F991Q22122180-5C61BF6A-B263-4EA6-ADFF-77E7FE72BBD3Q22248082-1B08DFBF-B7E4-4C12-B96A-803CFC421410Q22251084-B66C7218-5EC9-4C06-8673-408B84836B71Q24645190-F78E504A-D91D-45E7-843E-8A844F8E7D4BQ24653521-67D6E6E4-A0B1-4057-9CCF-CF6047C26B1EQ24657610-0D484947-EB1A-490A-B6D3-5D59610F899EQ24684328-F4DF99AA-E2E8-491E-A401-2DE371BFC416Q24812668-04B202C5-9CBC-47AE-996A-3A859A93A5EAQ27480271-D7FB075C-BC07-4AFA-A80B-A17A10532438Q28137466-22F3BD55-3936-4799-A7F4-3D3CBF3AEAFBQ28137475-282933C0-6CC9-4804-BA1A-A49178D523B4Q28137479-F8482455-6837-4233-A24D-7618DE650EEDQ28137489-468C8F36-8DEB-43DD-BCCF-4950FDCA49F1Q28246379-E97F5931-7D67-4B96-93D5-48274F76B365Q28274312-7AD11DD4-72E3-4C64-B0A0-73896C79565DQ28295501-B683F261-2B12-4DFA-B09E-BCD7DCA4B338Q28595939-695A847E-F3D1-4BF4-A4E9-3E28FBA46526Q28596736-66C0A524-31BB-4682-84A8-F111C17875F2Q28596899-8D5CE15E-3929-4CC3-A258-0975AE567A3EQ28597096-8A8EA149-6C1B-4D8F-BB57-69C9C4C9CA93Q28598347-76B86452-88A3-46ED-BA1C-64ADEE27F64FQ28645624-C312B4DE-2AF4-4EB1-B5E6-8CC664321FF2Q28649333-1F95DA05-1A22-4416-8F56-8082C5575839Q28649366-82ABE3E1-B619-421E-BBFF-0026080038A1Q28659012-ABF0FB5C-3CAF-4E53-A103-3BC000377838Q28681692-0666BA3A-2EE3-46A4-81E4-BA19E9A9C254Q28729954-58BFC177-2D2C-408D-AD6B-286EEDF06472Q28741805-9189B514-7EE3-4440-868A-69FB35B14488Q28742407-0BB581DD-5F2C-438F-9453-3B988FF6721AQ28755522-5CCBBFEB-27E4-4E2A-AD2D-584BFD79A749Q30039940-43DCD8FA-7BCA-4BC3-A718-884F4D6532C9Q30383725-4953302C-1555-4E68-A9FC-8297571BA320Q30389117-95FBD0BA-19CD-4102-ADBE-859B6018EC37Q30854015-5936728D-21A1-4D6D-9495-3132826896F2
P50
description
Duits biochemicus
@nl
German biochemist, geneticist and paleontologist
@en
deutscher Biochemiker
@de
professor académico alemão
@pt
saksa biokeemik
@et
tysk professor
@da
tysk professor
@sv
name
Johannes Krause
@ast
Johannes Krause
@ca
Johannes Krause
@da
Johannes Krause
@de
Johannes Krause
@en
Johannes Krause
@es
Johannes Krause
@et
Johannes Krause
@fr
Johannes Krause
@nds
Johannes Krause
@nl
type
label
Johannes Krause
@ast
Johannes Krause
@ca
Johannes Krause
@da
Johannes Krause
@de
Johannes Krause
@en
Johannes Krause
@es
Johannes Krause
@et
Johannes Krause
@fr
Johannes Krause
@nds
Johannes Krause
@nl
prefLabel
Johannes Krause
@ast
Johannes Krause
@ca
Johannes Krause
@da
Johannes Krause
@de
Johannes Krause
@en
Johannes Krause
@es
Johannes Krause
@et
Johannes Krause
@fr
Johannes Krause
@nds
Johannes Krause
@nl
P106
P214
P227
P1412
P1559
Johannes Krause
@de
P19
P2038
Johannes_Krause2
P21
P213
0000 0000 5678 6824
P214
P227
P31
P373
Johannes Krause
P569
1980-07-17T00:00:00Z
P734
P735
P7859
viaf-80568060