M
Matthias Meyer
Researcher at Max Planck Society
Publications - 182
Citations - 37857
Matthias Meyer is an academic researcher from Max Planck Society. The author has contributed to research in topics: Ancient DNA & Population. The author has an hindex of 72, co-authored 170 publications receiving 31843 citations. Previous affiliations of Matthias Meyer include Lund University & MacDiarmid Institute for Advanced Materials and Nanotechnology.
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Journal ArticleDOI
A fourth Denisovan individual
Viviane Slon,Bence Viola,Bence Viola,Bence Viola,Gabriel Renaud,Marie-Theres Gansauge,Stefano Benazzi,Stefano Benazzi,Susanna Sawyer,Jean-Jacques Hublin,Michael V. Shunkov,Anatoly P. Derevianko,Anatoly P. Derevianko,Janet Kelso,Kay Prüfer,Matthias Meyer,Svante Pääbo +16 more
TL;DR: The view that Denisovans were likely to have been present in the vicinity of Denisova Cave over an extended time period is reinforced, and it is shown that the level of nuclear DNA sequence diversity found among Denisovan is within the lower range of that of present-day human populations.
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Point-of-care bulk testing for SARS-CoV-2 by combining hybridization capture with improved colorimetric LAMP.
Lukas Bokelmann,Olaf Nickel,Tomislav Maricic,Svante Pääbo,Svante Pääbo,Matthias Meyer,Stephan Borte,Stephan Riesenberg +7 more
TL;DR: Cap-iLAMP as discussed by the authors combines a hybridization capture-based RNA extraction of gargle lavage samples with an improved colorimetric RT-LAMP assay and smartphone-based color scoring.
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Poly(2-isopropyl-2-oxazoline)-poly(L-glutamate) block copolymers through ammonium-mediated NCA polymerization
Matthias Meyer,Helmut Schlaad +1 more
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Evidence of Natural Isotopic Distribution from Single-Molecule SERS
TL;DR: SERS is highlighted as a unique spectroscopic tool that is capable of detecting an isotopic change in one atom of a single molecule by choosing a dye molecule with a very localized Raman-active vibration in a cyano bond.
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Emergence of human-adapted Salmonella enterica is linked to the Neolithization process.
Felix M. Key,Cosimo Posth,Luis Roger Esquivel-Gomez,Ron Hübler,Maria A. Spyrou,Gunnar U. Neumann,Anja Furtwängler,Susanna Sabin,Marta Burri,Antje Wissgott,Aditya Kumar Lankapalli,Åshild J. Vågene,Matthias Meyer,Sarah Nagel,Rezeda I. Tukhbatova,Rezeda I. Tukhbatova,Aleksandr Khokhlov,Andrey A. Chizhevsky,Svend Hansen,Andrey B. Belinsky,Alexey Kalmykov,Anatoly R. Kantorovich,Vladimir E. Maslov,Philipp W. Stockhammer,Philipp W. Stockhammer,Stefania Vai,Monica Zavattaro,Alessandro Riga,David Caramelli,Robin Skeates,Jessica Beckett,Maria Giuseppina Gradoli,Noah Steuri,Albert Hafner,Marianne Ramstein,Inga Siebke,Sandra Lösch,Yılmaz Selim Erdal,Nabil-Fareed Alikhan,Zhemin Zhou,Mark Achtman,Kirsten I. Bos,Sabine Reinhold,Wolfgang Haak,Denise Kühnert,Alexander Herbig,Johannes Krause +46 more
TL;DR: Ancient Salmonella enterica genomes from Neolithic Eurasian humans compared with those from later archaeological contexts illuminate the evolving host specificity of the pathogen from an initial multi-mammalian adaptation towards an increasingly human specialization.