RT @paigebyerly: Coolest paper you will read today: using DNA to ID species/geographic origin of eukaryotes & fungi scraped from surface of…
RT @paigebyerly: Coolest paper you will read today: using DNA to ID species/geographic origin of eukaryotes & fungi scraped from surface of…
RT @paigebyerly: Coolest paper you will read today: using DNA to ID species/geographic origin of eukaryotes & fungi scraped from surface of…
RT @paigebyerly: Coolest paper you will read today: using DNA to ID species/geographic origin of eukaryotes & fungi scraped from surface of…
Coolest paper you will read today: using DNA to ID species/geographic origin of eukaryotes & fungi scraped from surface of 3 ancient statues to assess the statues' storage history & figure out if they'd been smuggled into Vienna. like, WHAT https:/
RT @BOKUvienna: Die Mikrobiologin Katja Sterflinger und ihr Team entschlüsseln den genetischen Fingerabdruck von Kunstwerken. DNA-Spuren er…
RT @BOKUvienna: Die Mikrobiologin Katja Sterflinger und ihr Team entschlüsseln den genetischen Fingerabdruck von Kunstwerken. DNA-Spuren er…
An interesting read: A time #travel story: #metagenomic analyses decipher the unknown geographical shift and the storage history of possibly smuggled #antique marble statues https://t.co/U4MB5ge33d
RT @BOKUvienna: Die Mikrobiologin Katja Sterflinger und ihr Team entschlüsseln den genetischen Fingerabdruck von Kunstwerken. DNA-Spuren er…
Die Mikrobiologin Katja Sterflinger und ihr Team entschlüsseln den genetischen Fingerabdruck von Kunstwerken. DNA-Spuren ermöglichen genetische Zeitreise: https://t.co/b74eaYhdhf
New publication in Annals of Microbiology using GBIF-mediated data: A time travel story: metagenomic analyses decipher the unknown geographical shift and the storage history of possibly smuggled antique marble statues https://t.co/ARhWWXRF8v