Your search keyword '"Sawyer, Susanna"' showing total 5 results

1. Improved detection of methylation in ancient DNA

Author

Sawyer, Susanna, Gelabert, Pere, Yakir, Benjamin, Llanos-Lizcano, Alejandro, Sperduti, Alessandra, Bondioli, Luca, Cheronet, Olivia, Neugebauer-Maresch, Christine, Teschler-Nicola, Maria, Novak, Mario, Pap, Ildikó, Szikossy, Ildikó, Hajdu, Tamás, Moiseyev, Vyacheslav, Gromov, Andrey, Zariņa, Gunita, Meshorer, Eran, Carmel, Liran, and Pinhasi, Ron

Published

2024

2. Nuclear and mitochondrial DNA sequences from two Denisovan individuals

Author

Sawyer, Susanna, Renaud, Gabriel, Viola, Bence, Hublin, Jean-Jacques, Gansauge, Marie-Theres, Shunkov, Michael V., Derevianko, Anatoly P., Prüfer, Kay, Kelso, Janet, and Pääbo, Svante

Published

2015

3. Northeastern Asian and Jomon-related genetic structure in the Three Kingdoms period of Gimhae, Korea

Author

Gelabert, Pere, Blazyte, Asta, Chang, Yongjoon, Fernandes, Daniel M, Jeon, Sungwon, Hong, Jin Geun, Yoon, Jiyeon, Ko, Youngmin, Oberreiter, Victoria, Cheronet, Olivia, Özdoğan, Kadir T, Sawyer, Susanna, Yang, Songhyok, Greytak, Ellen McRae, Choi, Hansol, Kim, Jungeun, Kim, Jong-Il, Jeong, Choongwon, Bae, Kidong, Bhak, Jong, Pinhasi, Ron, LS Late Oudheid, OGKG - Antieke Cultuur, LS Late Oudheid, and OGKG - Antieke Cultuur

Subjects

population continuity, Genome, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Neuroscience(all), Korean ancient genomes, population genetics, Polymorphism, Single Nucleotide, Biochemistry, General Biochemistry, Genetics and Molecular Biology, Korea Three Kingdoms period genomes, Archaeology, Asian People, Ethnicity, ancient diploid genomes, Humans, phenotypic analyses, General Agricultural and Biological Sciences, ancient DNA, History, Ancient, Genetics and Molecular Biology(all)

Abstract

The genetic history of prehistoric and protohistoric Korean populations is not well understood because only a small number of ancient genomes are available. Here, we report the first paleogenomic data from the Korean Three Kingdoms period, a crucial point in the cultural and historic formation of Korea. These data comprise eight shotgun-sequenced genomes from ancient Korea (0.7×-6.1× coverage). They were derived from two archeological sites in Gimhae: the Yuha-ri shell mound and the Daesung-dong tumuli, the latter being the most important funerary complex of the Gaya confederacy. All individuals are from between the 4th and 5th century CE and are best modeled as an admixture between a northern China Bronze Age genetic source and a source of Jomon-related ancestry that shares similarities with the present-day genomes from Japan. The observed substructure and proportion of Jomon-related ancestry suggest the presence of two genetic groups within the population and diversity among the Gaya population. We could not correlate the genomic differences between these two groups with either social status or sex. All the ancient individuals' genomic profiles, including phenotypically relevant SNPs associated with hair and eye color, facial morphology, and myopia, imply strong genetic and phenotypic continuity with modern Koreans for the last 1,700 years.

Published

2022

4. Patterns of coding variation in the complete exomes of three Neandertals.

Author

Castellano, Sergi, Parra, Genís, Sánchez-Quinto, Federico A., Racimo, Fernando, Kuhlwilm, Martin, Kircher, Martin, Sawyer, Susanna, Qiaomei Fu, Heinze, Anja, Nickel, Birgit, Dabney, Jesse, Siebauer, Michael, White, Louise, Burbano, Hernán A., Renaud, Gabriel, Stenzel, Udo, Lalueza-Fox, Carles, de la Rasilla, Marco, Rosas, Antonio, and Rudan, Pavao

Subjects

NEANDERTHALS, AMINO acids, MORPHOLOGY, NUCLEOTIDE sequencing

Abstract

We present the DNA sequence of 17,367 protein-coding genes in two Neandertals from Spain and Croatia and analyze them together with the genome sequence recently determined from a Neandertal from southern Siberia. Comparisons with present-day humans from Africa, Europe, and Asia reveal that genetic diversity among Neandertals was remarkably low, and that they carried a higher proportion of amino acid-changing (nonsynonymous) alleles inferred to alter protein structure or function than present-day humans. Thus, Neandertals across Eurasia had a smaller long-term effective population than present-day humans. We also identify amino acid substitutions in Neandertals and present-day humans that may underlie phenotypic differences between the two groups. We find that genes involved in skeletal morphology have changed more in the lineage leading to Neandertals than in the ancestral lineage common to archaic and modern humans, whereas genes involved in behavior and pigmentation have changed more on the modern human lineage. [ABSTRACT FROM AUTHOR]

Published

2014

5. A fourth Denisovan individual

Author

Matthias Meyer, Kay Prüfer, Susanna Sawyer, Anatoly P. Derevianko, Stefano Benazzi, Bence Viola, Gabriel Renaud, Svante Pääbo, Janet Kelso, Viviane Slon, Jean-Jacques Hublin, Marie-Theres Gansauge, Michael V. Shunkov, Slon, Viviane, Viola, Bence, Renaud, Gabriel, Gansauge, Marie-there, Benazzi, Stefano, Sawyer, Susanna, Hublin, Jean-jacque, Shunkov, Michael V, Derevianko, Anatoly P, Kelso, Janet, Prüfer, Kay, Meyer, Matthia, and Pääbo, Svante

Subjects

0301 basic medicine, Mitochondrial DNA, Range (biology), Deciduous Tooth, Human Evolution, DNA sequencing, 03 medical and health sciences, Paleontology, 0302 clinical medicine, Cave, Denisovan, Research Articles, geography, Multidisciplinary, geography.geographical_feature_category, Ancient DNA, biology, Denisova, SciAdv r-articles, biology.organism_classification, humanities, Nuclear DNA, 030104 developmental biology, Sister group, Extended time, 030217 neurology & neurosurgery, Research Article

Abstract

DNA retrieved from a tooth discovered deep in Denisova Cave allows us to assign it to the Denisovans, a group of archaic hominins., The presence of Neandertals in Europe and Western Eurasia before the arrival of anatomically modern humans is well supported by archaeological and paleontological data. In contrast, fossil evidence for Denisovans, a sister group of Neandertals recently identified on the basis of DNA sequences, is limited to three specimens, all of which originate from Denisova Cave in the Altai Mountains (Siberia, Russia). We report the retrieval of DNA from a deciduous lower second molar (Denisova 2), discovered in a deep stratigraphic layer in Denisova Cave, and show that this tooth comes from a female Denisovan individual. On the basis of the number of “missing substitutions” in the mitochondrial DNA determined from the specimen, we find that Denisova 2 is substantially older than two of the other Denisovans, reinforcing the view that Denisovans were likely to have been present in the vicinity of Denisova Cave over an extended time period. We show that the level of nuclear DNA sequence diversity found among Denisovans is within the lower range of that of present-day human populations.