about
Non-destructive sampling of ancient insect DNAAncient biomolecules from deep ice cores reveal a forested southern GreenlandAncient bacteria show evidence of DNA repairWhen Data Sharing Gets Close to 100%: What Human Paleogenetics Can Teach the Open Science MovementHaloarchaeal diversity in 23, 121 and 419 MYA saltsModern subsurface bacteria in pristine 2.7 Ga-old fossil stromatolite drillcore samples from the Fortescue Group, Western AustraliaIsolating Viable Ancient Bacteria: What You Put In Is What You Get OutAncient population genomics and the study of evolutionCharacterization of ancient DNA supports long-term survival of HaloarchaeaBacterial natural transformation by highly fragmented and damaged DNAAbsence of ancient DNA in sub-fossil insect inclusions preserved in 'Anthropocene' Colombian copalThe evolutionary time machine: using dormant propagules to forecast how populations can adapt to changing environmentsAncient microbes from halite fluid inclusions: optimized surface sterilization and DNA extractionEstimates of biogenic methane production rates in deep marine sediments at Hydrate Ridge, Cascadia margin800,000 year old mammoth DNA, modern elephant DNA or PCR artefact?Assessing the fidelity of ancient DNA sequences amplified from nuclear genesCrosslinks rather than strand breaks determine access to ancient DNA sequences from frozen sedimentsAncient DNA research goes nuclear. A new technique to extract sequence data from nuclear DNA may reveal exciting new insights into evolution and phylogeny.Thirty-thousand-year-old distant relative of giant icosahedral DNA viruses with a pandoravirus morphology.Microbial community of salt crystals processed from Mediterranean seawater based on 16S rRNA analysis.Life after death: the critical role of extracellular DNA in microbial biofilms.Halophilic archaea cultivated from surface sterilized middle-late eocene rock salt are polyploid.A paleogenomic perspective on evolution and gene function: new insights from ancient DNA.Ancient plant DNA in lake sediments.Paleomicrobiology: a Snapshot of Ancient Microbes and Approaches to Forensic Microbiology.Viability, diversity and composition of the bacterial community in a high Arctic permafrost soil from Spitsbergen, Northern Norway.Melanins in Fossil Animals: Is It Possible to Infer Life History Traits from the Coloration of Extinct Species?Clean Low-Biomass Procedures and Their Application to Ancient Ice Core Microorganisms.Pathogenic microbial ancient DNA: a problem or an opportunity?‘The Farm Beneath the Sand’ – an archaeological case study on ancient ‘dirt’ DNAThe role of molecular genetics in sculpting the future of integrative biogeographyImpacts of climate change on species, populations and communities: palaeobiogeographical insights and frontiersTo what extent is the DNA of microbial eukaryotes modified during burying into lake sediments? A repeat-coring approach on annually laminated sedimentsMineral Facilitated Horizontal Gene Transfer: A New Principle for Evolution of Life?From the field to the laboratory: Controlling DNA contamination in human ancient DNA research in the high-throughput sequencing era
P2860
Q21090071-09064F42-AE07-4E3B-8E3D-5B498E0E08B4Q24647596-609E1A34-D47B-4C44-AEB2-C39203FBADC9Q24673095-145EBB22-FE3E-4251-8614-3BFC928BDF06Q27826353-C2DD5BCF-BE86-4BF8-AD88-18657BC2353CQ28262198-3D215F63-9641-4EF7-B417-0BC4F19C828CQ28475416-FE6B6300-8771-4075-B920-D22115750824Q28597159-710D3925-68F0-4E66-A893-AEFB23F3E8B2Q28649361-38E01CDE-AD06-4478-9C24-10247B6F89C1Q28655803-E1D3BAE5-8976-4EF1-AB36-0B09DBFC19BFQ28661224-6CD57409-5149-48F8-ABA8-C38C6C1A83B1Q28680784-5617775A-B461-485F-8F81-6194300B0918Q28706318-517768E0-B49E-4AD0-8F66-CC5643F4B2C4Q28743814-F0AC9FD6-8B45-4576-AFD5-5E495ACF3D7BQ28754234-22867E69-7CA7-4ED4-95CA-65B35E582F15Q28754674-D0AF0311-FD6E-4AA8-9A61-B2D1C71AA94EQ28768083-5297BA66-B705-45E6-A276-0A31B8D37840Q28768246-96EEB71D-F9DD-4570-A759-2D653F3A8F35Q28768523-A43F2A70-DE61-4715-98D1-48581CFA2187Q30574575-BB535B97-CF3A-444D-A1B9-DEF2CA695B52Q33529386-BF6B1EA2-0680-4FB8-A81B-3EE88CC0E3D8Q34357136-108A358F-4A21-47AE-86A4-BD29ACC0826AQ34387722-B8E7B35D-FE2C-4D5D-97B4-89ECD3F0CB7FQ34399840-8441398F-7802-457F-97D4-3A883742D8B0Q36332375-DFA0BED1-125D-4C70-93D5-1E2CEBF0369CQ38977690-D43ED6BE-0C6B-4817-B247-7AF8CC9B9A64Q48077111-35AC1225-9BD8-4713-8CD6-560CC116D7C1Q51156977-3722F4BD-FF22-4B52-A659-9B556FEDBD64Q55438788-D275D562-0F94-48D1-A5BB-344166308DBBQ55516124-A88DA14E-4C2D-4B5F-8AEE-AAF8D8859009Q56240337-D64E2222-0A2E-48FD-A782-5FDEE250BAF7Q57014565-30C2D199-F126-48CE-B6FF-8CD0C6E41F4BQ57198331-CD0D0ACC-1A5A-4B53-B754-69DC5432A9C2Q57209968-917EF66E-9E89-421C-A943-C14C9ED88D0FQ57492082-71C4165A-4DD8-4154-B54C-0F1EC28923C3Q57778646-ADC118A6-0BFA-4B6E-815C-540A0270FDD2
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Geologically ancient DNA: fact or artefact?
@ast
Geologically ancient DNA: fact or artefact?
@en
Geologically ancient DNA: fact or artefact?
@en-gb
Geologically ancient DNA: fact or artefact?
@nl
type
label
Geologically ancient DNA: fact or artefact?
@ast
Geologically ancient DNA: fact or artefact?
@en
Geologically ancient DNA: fact or artefact?
@en-gb
Geologically ancient DNA: fact or artefact?
@nl
prefLabel
Geologically ancient DNA: fact or artefact?
@ast
Geologically ancient DNA: fact or artefact?
@en
Geologically ancient DNA: fact or artefact?
@en-gb
Geologically ancient DNA: fact or artefact?
@nl
P3181
P1476
Geologically ancient DNA: fact or artefact?
@en
P2093
Martin B. Hebsgaard
Matthew J. Phillips
P304
P3181
P356
10.1016/J.TIM.2005.03.010
P407
P577
2005-05-01T00:00:00Z