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1.
J Clin Microbiol ; 59(2)2021 01 21.
Article in English | MEDLINE | ID: mdl-33208473

ABSTRACT

A correct identification of Streptococcus pseudopneumoniae is a prerequisite for investigating the clinical impact of the bacterium. The identification has traditionally relied on phenotypic methods. However, these phenotypic traits have been shown to be unreliable, with some S. pseudopneumoniae strains giving conflicting results. Therefore, sequence-based identification methods have increasingly been used for identification of S. pseudopneumoniae In this study, we used 64 S. pseudopneumoniae strains, 59 S. pneumoniae strains, 22 S. mitis strains, 24 S. oralis strains, 6 S. infantis strains, and 1 S. peroris strain to test the capability of three single genes (rpoB, gyrB, and recA), two multilocus sequence analysis (MLSA) schemes, the single nucleotide polymorphism (SNP)-based phylogeny tool CSI phylogeny, a k-mer-based identification method (KmerFinder), average nucleotide identity (ANI) using fastANI, and core genome analysis to identify S. pseudopneumoniae Core genome analysis and CSI phylogeny were able to cluster all strains into distinct clusters related to their respective species. It was not possible to identify all S. pseudopneumoniae strains correctly using only one of the single genes. The MLSA schemes were unable to identify some of the S. pseudopneumoniae strains, which could be misidentified. KmerFinder identified all S. pseudopneumoniae strains but misidentified one S. mitis strain as S. pseudopneumoniae, and fastANI differentiated between S. pseudopneumoniae and S. pneumoniae using an ANI cutoff of 96%.


Subject(s)
Streptococcus pneumoniae , Streptococcus , Genome, Bacterial/genetics , Phylogeny , Sequence Analysis, DNA , Streptococcus/genetics , Streptococcus pneumoniae/genetics
2.
Sci Rep ; 10(1): 2728, 2020 02 17.
Article in English | MEDLINE | ID: mdl-32066773

ABSTRACT

Streptococcus gordonii and Streptococcus sanguinis belong to the Mitis group streptococci, which mostly are commensals in the human oral cavity. Though they are oral commensals, they can escape their niche and cause infective endocarditis, a severe infection with high mortality. Several virulence factors important for the development of infective endocarditis have been described in these two species. However, the background for how the commensal bacteria, in some cases, become pathogenic is still not known. To gain a greater understanding of the mechanisms of the pathogenic potential, we performed a comparative analysis of 38 blood culture strains, S. sanguinis (n = 20) and S. gordonii (n = 18) from patients with verified infective endocarditis, along with 21 publicly available oral isolates from healthy individuals, S. sanguinis (n = 12) and S. gordonii (n = 9). Using whole genome sequencing data of the 59 streptococci genomes, functional profiles were constructed, using protein domain predictions based on the translated genes. These functional profiles were used for clustering, phylogenetics and machine learning. A clear separation could be made between the two species. No clear differences between oral isolates and clinical infective endocarditis isolates were found in any of the 675 translated core-genes. Additionally, random forest-based machine learning and clustering of the pan-genome data as well as amino acid variations in the core-genome could not separate the clinical and oral isolates. A total of 151 different virulence genes was identified in the 59 genomes. Among these homologs of genes important for adhesion and evasion of the immune system were found in all of the strains. Based on the functional profiles and virulence gene content of the genomes, we believe that all analysed strains had the ability to become pathogenic.


Subject(s)
Endocarditis, Bacterial/microbiology , Endocarditis/microbiology , Genome, Bacterial , Streptococcal Infections/microbiology , Streptococcus gordonii/genetics , Streptococcus sanguis/genetics , Virulence Factors/genetics , Endocarditis/pathology , Endocarditis, Bacterial/pathology , Endocardium/microbiology , Endocardium/pathology , High-Throughput Nucleotide Sequencing , Humans , Machine Learning , Mouth/microbiology , Mouth/pathology , Phylogeny , Streptococcal Infections/pathology , Streptococcus gordonii/classification , Streptococcus gordonii/isolation & purification , Streptococcus gordonii/pathogenicity , Streptococcus sanguis/classification , Streptococcus sanguis/isolation & purification , Streptococcus sanguis/pathogenicity , Symbiosis/physiology , Virulence , Virulence Factors/classification , Virulence Factors/metabolism
3.
Sci Rep ; 10(1): 17244, 2020 10 14.
Article in English | MEDLINE | ID: mdl-33057088

ABSTRACT

The extensive peat bogs of Southern Scandinavia have yielded rich Mesolithic archaeological assemblages, with one of the most iconic artefacts being the bone point. Although great in number they remain understudied. Here we present a combined investigation of the typology, protein-based species composition, and absolute chronology of Maglemosian bone points. The majority of the bone points are made from cervids and bovines. However, changes both in species composition and barb morphology can be directly linked to a paucity of finds lasting nearly 600 years in Southern Scandinavia around 10,300 cal BP. We hypothesize that this hiatus was climate-driven and forced hunter-gatherers to abandon the lakes. Furthermore, the marked change in bone points coincides with a change in lithic technology. We, therefore, propose that the Maglemose culture in Southern Scandinavia is fundamentally divided into an Early Complex and a Late Complex.

4.
Philos Trans R Soc Lond B Biol Sci ; 375(1812): 20190580, 2020 11 23.
Article in English | MEDLINE | ID: mdl-33012233

ABSTRACT

The 'red complex' is an aggregate of three oral bacteria (Tannerella forsythia, Porphyromonas gingivalis and Treponema denticola) responsible for severe clinical manifestation of periodontal disease. Here, we report the first direct evidence of ancient T.forsythia DNA in dentin and dental calculus samples from archaeological skeletal remains that span from the Pre-Hispanic to the Colonial period in Mexico. We recovered twelve partial ancient T. forsythia genomes and observed a distinct phylogenetic placement of samples, suggesting that the strains present in Pre-Hispanic individuals likely arrived with the first human migrations to the Americas and that new strains were introduced with the arrival of European and African populations in the sixteenth century. We also identified instances of the differential presence of genes between periods in the T. forsythia ancient genomes, with certain genes present in Pre-Hispanic individuals and absent in Colonial individuals, and vice versa. This study highlights the potential for studying ancient T. forsythia genomes to unveil past social interactions through analysis of disease transmission. Our results illustrate the long-standing relationship between this oral pathogen and its human host, while also unveiling key evidence to understand its evolutionary history in Pre-Hispanic and Colonial Mexico. This article is part of the theme issue 'Insights into health and disease from ancient biomolecules'.


Subject(s)
Genome, Bacterial , Gram-Negative Bacterial Infections/history , Periodontitis/history , Tannerella forsythia/genetics , Archaeology , Genomics , Gram-Negative Bacterial Infections/microbiology , History, 15th Century , History, 16th Century , History, 17th Century , History, 18th Century , History, Ancient , History, Medieval , Humans , Mexico , Periodontitis/microbiology
5.
Nat Commun ; 10(1): 5520, 2019 12 17.
Article in English | MEDLINE | ID: mdl-31848342

ABSTRACT

The rise of ancient genomics has revolutionised our understanding of human prehistory but this work depends on the availability of suitable samples. Here we present a complete ancient human genome and oral microbiome sequenced from a 5700 year-old piece of chewed birch pitch from Denmark. We sequence the human genome to an average depth of 2.3× and find that the individual who chewed the pitch was female and that she was genetically more closely related to western hunter-gatherers from mainland Europe than hunter-gatherers from central Scandinavia. We also find that she likely had dark skin, dark brown hair and blue eyes. In addition, we identify DNA fragments from several bacterial and viral taxa, including Epstein-Barr virus, as well as animal and plant DNA, which may have derived from a recent meal. The results highlight the potential of chewed birch pitch as a source of ancient DNA.


Subject(s)
Betula/physiology , DNA, Ancient/analysis , Genome, Human , Microbiota/genetics , Mouth/microbiology , Animals , DNA, Bacterial/analysis , Denmark , Geography , Humans , Phenotype , Radiometric Dating , Sex Determination Analysis , Time Factors
6.
Science ; 360(6396)2018 06 29.
Article in English | MEDLINE | ID: mdl-29743352

ABSTRACT

The Yamnaya expansions from the western steppe into Europe and Asia during the Early Bronze Age (~3000 BCE) are believed to have brought with them Indo-European languages and possibly horse husbandry. We analyzed 74 ancient whole-genome sequences from across Inner Asia and Anatolia and show that the Botai people associated with the earliest horse husbandry derived from a hunter-gatherer population deeply diverged from the Yamnaya. Our results also suggest distinct migrations bringing West Eurasian ancestry into South Asia before and after, but not at the time of, Yamnaya culture. We find no evidence of steppe ancestry in Bronze Age Anatolia from when Indo-European languages are attested there. Thus, in contrast to Europe, Early Bronze Age Yamnaya-related migrations had limited direct genetic impact in Asia.


Subject(s)
Asian People/genetics , Domestication , Genetic Drift , Genome, Human , Horses , Human Migration/history , Animals , Asia , Chromosomes, Human, Y/genetics , DNA, Ancient , DNA, Mitochondrial/genetics , Europe , Grassland , History, Ancient , Humans , Language , Whole Genome Sequencing
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