Parallel palaeogenomic transects reveal complex genetic history of early European farmers.

Ancient DNA studies have established that Neolithic European populations were descended from Anatolian migrants who received a limited amount of admixture from resident hunter-gatherers. Many open questions remain, however, about the spatial and temporal dynamics of population interactions and admixture during the Neolithic period. Here we investigate the population dynamics of Neolithization across Europe using a high-resolution genome-wide ancient DNA dataset with a total of 180 samples, of which 130 are newly reported here, from the Neolithic and Chalcolithic periods of Hungary (6000-2900 bc, n = 100), Germany (5500-3000 bc, n = 42) and Spain (5500-2200 bc, n = 38). We find that genetic diversity was shaped predominantly by local processes, with varied sources and proportions of hunter-gatherer ancestry among the three regions and through time. Admixture between groups with different ancestry profiles was pervasive and resulted in observable population transformation across almost all cultural transitions. Our results shed new light on the ways in which gene flow reshaped European populations throughout the Neolithic period and demonstrate the potential of time-series-based sampling and modelling approaches to elucidate multiple dimensions of historical population interactions.

Tuberculosis in Late Neolithic-Early Copper Age human skeletal remains from Hungary.

Alsónyék-Bátaszék in Southern Hungary is one of the largest late Neolithic settlements and cemeteries excavated in Central Europe. In total, 2359 burials from the Late Neolithic - Early Copper Age Lengyel culture were found between 2006 and 2009 [1]. Anthropological investigations previously carried out on individuals from this site revealed an interesting paleopathological case of tuberculosis in the form of Pott's disease dated to the early 5(th) millennium BC. In this study, selected specimens from this osteoarcheological series were subjected to paleomicrobiological analysis to establish the presence of MTBC bacteria. As all individuals showing clear osteological signs of TB infection belonged to a single grave group, 38 individuals from this grave group were analysed. The sample included the case of Pott's disease as well as individuals both with and without osseous TB manifestations. The detection of TB DNA in the individual with Pott's disease provided further evidence for the occurrence of TB in Neolithic populations of Europe. Moreover, our molecular analysis indicated that several other individuals of the same grave group were also infected with TB, opening the possibility for further analyses of this unique Neolithic skeletal series.

Tuberculosis infection in a late-medieval Hungarian population.

The AD 16-17(th) century skeletal series from Bácsalmás-Óalmás (southern Hungary) has already been the subject of previous paleopathological studies concerning TB-related bone lesions. Due to recent development of macroscopic and molecular diagnostic methods in paleopathology and paleomicrobiology, a five-year international research program was recently started in order to re-evaluate the TB-related lesions in the complete series, comprising 481 skeletons. The skeletal material of these individuals was examined using macromorphological methods focusing on both classical/advanced stage skeletal TB alterations and atypical/early-stage TB lesions. Paleomicrobial analysis was used to study the presence of Mycobacterium tuberculosis complex (MTBC) DNA both in morphologically positive and negative cases. Samples were tested for the repetitive element IS6110 and further characterized by spoligotyping. In the whole series, 283 possible cases of TB infections were identified based on morphological alterations. Skeletal samples of eighteen individuals, morphologically positive as well as negative cases, were selected for further biomolecular examinations. Among them, seven individuals were PCR positive for the repetitive IS6110 sequence of the MTBC genome. Compared to the few cases of TB from the Bácsalmás-Óalmás series previously described, a much higher prevalence of MTBC infected skeletons was revealed in this study. The atypical/early stage skeletal lesions occurred significantly more frequently than the so-called classical alterations. Paleomicrobial analysis confirmed a prevalence of MTBC infection nearing 40% among the selected sample. Preliminary results also indicated better preservation of bacterial DNA in the compact layer of long bones and teeth, while spoligotyping suggested infection by different MTBC pathogens.

Revision of tuberculous lesions in the Bácsalmás-Oalmás series--preliminary morphological and biomolecular studies.

Previous investigations carried out in some parts of the 16th-17th century AD series of Bácsalmás-Oalmás (southern Hungary) have already provided interesting paleopathological cases of tuberculosis (e.g. Molnár & Pálfi 1994). These studies were essentially based on macromorphological analysis, biomolecular methods were used only in a few cases (e.g. Haas et al. 2000). From a macromorphological point of view, former investigations have only considered 'classical' tuberculosis (TB) alterations (advanced-stage lesions in common skeletal locations). However, due to the recent development of diagnostic criteria in the field of the paleopathology of infectious diseases, new approaches have been introduced in the identification of skeletal TB lesions (Pálfi et al. 1999, Maczel 2003). Molecular methods for the detection of mycobacterial aDNA have also been developed considerably in the last few years (e.g. Donoghue 2008, Donoghue 2011). The good state of preservation of the material, the important chronological period of the series and the relative high prevalence of TB reported in preliminary studies encouraged us to carry out a revision of TB-related lesions in the complete Bácsalmás-Oalmás series. A five year international research program--including both macroscopic and biomolecular studies of the series--was recently started. The present paper summarizes the results ofa pilot project conducted to optimize the further systematic paleopathological and paleomicrobial studies. Skeletal material of 205 individuals was chosen forthe macromorphological test-investigation, which was focused both on classical/advanced stage skeletal TB alterations (tuberculous spondylitis, tuberculous arthritis) and atypical/early-stage TB lesions (rib lesions, superficial vertebral changes, endocranial alterations, early-stage spondylodiscitis). In addition, the association of possible stress factors (long bone periostitis, cribra orbitalia, cribra cranii) were also considered. Paleomicrobiological analysis was used to study the presence of Mycobacterium tuberculosis ancient DNA (aDNA) in morphologically positive and negative cases. A comparative paleomicrobial analysis was carried out on different samples, to test the presence of MTB DNA in different skeletal regions.