Chemical Deception and Structural Adaptation in Microdon (Diptera, Syrphidae, Microdontinae), a Genus of Hoverflies Parasitic on Social Insects.

Various organisms, especially arthropods, are able to live as parasites in ant nests and to prey upon ant broods without eliciting any aggressive behaviour in the hosts. Understanding how these intruders are able to break the ants' communication codes in their favour represents a challenging and intriguing evolutionary question. We studied the chemical strategies of three European hoverfly species, Microdon mutabilis (parasitic on Formica cunicularia), M. analis (parasitic on Lasius emarginatus) and M. devius (parasitic on L. distinguendus). The peculiar slug-like larvae of these three species live inside ant nests feeding upon their broods. Gas chromatography-mass spectrometry analyses show that: 1) these parasites mimic the host brood rather than the ant workers, although each differs distinctly in the extent of chemical mimicry; 2) isolation experiments indicate that after 14 days the responsible cuticular hydrocarbons (CHCs) are not passively acquired but synthesized by the fly larvae. Additionally, Microdon larvae show an array of protective structural features, such as a thick and multi-layered cuticle, retractable head, dome-shaped tergum and a flat and strongly adhesive "foot" (sternum). This combination of protective chemical and structural features represents a successful key innovation by Microdon species, and one that may facilitate host switching. The results of a preliminary adoption analysis confirm that Microdon larvae of at least some species can readily be accepted by different species of ants.

Catalogue of inherited disorders found among the Irish Traveller population.

Background Irish Travellers are an endogamous, nomadic, ethnic minority population mostly resident on the island of Ireland with smaller populations in Europe and the USA. High levels of consanguinity result in many rare autosomal recessive disorders. Due to founder effects and endogamy, most recessive disorders are caused by specific homozygous mutations unique to this population. Key clinicians and scientists with experience in managing rare disorders seen in this population have developed a de facto advisory service on differential diagnoses to consider when faced with specific clinical scenarios. Objective(s) To catalogue all known inherited disorders found in the Irish Traveller population. Methods We performed detailed literature and database searches to identify relevant publications and the disease mutations of known genetic disorders found in Irish Travellers. Results We identified 104 genetic disorders: 90 inherited in an autosomal recessive manner; 13 autosomal dominant and one a recurring chromosomal duplication. Conclusion We have collated our experience of inherited disorders found in the Irish Traveller population to make it publically available through this publication to facilitate a targeted genetic approach to diagnostics in this ethnic group.

Detecting a hierarchical genetic population structure via Multi-InDel markers on the X chromosome.

Detecting population structure and estimating individual biogeographical ancestry are very important in population genetics studies, biomedical research and forensics. Single-nucleotide polymorphism (SNP) has long been considered to be a primary ancestry-informative marker (AIM), but it is constrained by complex and time-consuming genotyping protocols. Following up on our previous study, we propose that a multi-insertion-deletion polymorphism (Multi-InDel) with multiple haplotypes can be useful in ancestry inference and hierarchical genetic population structures. A validation study for the X chromosome Multi-InDel marker (X-Multi-InDel) as a novel AIM was conducted. Genetic polymorphisms and genetic distances among three Chinese populations and 14 worldwide populations obtained from the 1000 Genomes database were analyzed. A Bayesian clustering method (STRUCTURE) was used to discern the continental origins of Europe, East Asia, and Africa. A minimal panel of ten X-Multi-InDels was verified to be sufficient to distinguish human ancestries from three major continental regions with nearly the same efficiency of the earlier panel with 21 insertion-deletion AIMs. Along with the development of more X-Multi-InDels, an approach using this novel marker has the potential for broad applicability as a cost-effective tool toward more accurate determinations of individual biogeographical ancestry and population stratification.

[Initiative of introducing the applications of genetics for public health purposes in Poland]. / Inicjatywa wprowadzenia zastosowan genetyki dla potrzeb zdrowia publicznego w Polsce.

An integration of scientific associations involved in public health and genetics to apply genetics achievements might create new perspectives of public health and health promotion in Poland and allow to apply genomic applications that are currently in transition from research to public health practice. Activities might enable to undertake preventive actions as population screening programs based on genome-based knowledge and technologies as targeted preventive interventions. The achievements in the field of public health genetics or genomics have been taking place in several countries and have begun to have an impact on population health status.

Ancient DNA from hunter-gatherer and farmer groups from Northern Spain supports a random dispersion model for the Neolithic expansion into Europe.

BACKGROUND/PRINCIPAL FINDINGS: The phenomenon of Neolithisation refers to the transition of prehistoric populations from a hunter-gatherer to an agro-pastoralist lifestyle. Traditionally, the spread of an agro-pastoralist economy into Europe has been framed within a dichotomy based either on an acculturation phenomenon or on a demic diffusion. However, the nature and speed of this transition is a matter of continuing scientific debate in archaeology, anthropology, and human population genetics. In the present study, we have analyzed the mitochondrial DNA diversity in hunter-gatherers and first farmers from Northern Spain, in relation to the debate surrounding the phenomenon of Neolithisation in Europe. METHODOLOGY/SIGNIFICANCE: Analysis of mitochondrial DNA was carried out on 54 individuals from Upper Paleolithic and Early Neolithic, which were recovered from nine archaeological sites from Northern Spain (Basque Country, Navarre and Cantabria). In addition, to take all necessary precautions to avoid contamination, different authentication criteria were applied in this study, including: DNA quantification, cloning, duplication (51% of the samples) and replication of the results (43% of the samples) by two independent laboratories. Statistical and multivariate analyses of the mitochondrial variability suggest that the genetic influence of Neolithisation did not spread uniformly throughout Europe, producing heterogeneous genetic consequences in different geographical regions, rejecting the traditional models that explain the Neolithisation in Europe. CONCLUSION: The differences detected in the mitochondrial DNA lineages of Neolithic groups studied so far (including these ones of this study) suggest different genetic impact of Neolithic in Central Europe, Mediterranean Europe and the Cantabrian fringe. The genetic data obtained in this study provide support for a random dispersion model for Neolithic farmers. This random dispersion had a different impact on the various geographic regions, and thus contradicts the more simplistic total acculturation and replacement models proposed so far to explain Neolithisation.

Análise de ancestralidade genômica e de polimorfismo associados à pigmentação da pele em ameríndios e em descendentes de africanos, de europeus e de japoneses / Analysis of genomic ancestry and polymorphisms associated with skin pigmentation in Amerindians and descendants of Africans, Europeans and Japanese

Dados históricos e genéticos mostram que a população brasileira é uma das mais heterogêneas do mundo, fruto de um processo de miscigenação entre os três principais grupos étnicos (ameríndios, europeus e africanos) formadores da nossa população. Entretanto a distribuição desses três grupos ao longo do território brasileiro não ocorreu de forma homogênea, ou seja, a proporção de africanos, ameríndios e europeus difere significativamente a depender da região geográfica. Na Bahia a proporção de afrodescendentes é de 77,5%, segundo autodenominação no censo do IBGE. Poucos trabalhos descrevem a diversidade genética na Bahia e são em sua maioria baseados em marcadores genéticos clássicos. Atualmente tem sido estimada mistura racial e diversidade genética através de marcadores moleculares que apresentam alelos com um diferencial de frequência acima de 30% entre populações geográfica e etnicamente distintas, que são conhecidos como Alelos Específicos de Populações (PSA). Além dos PSA, também são utilizados marcadores culturais, que através da análise de sobrenomes de família, são bastante úteis para inferir origem e mistura racial em populações miscigenadas como a da Bahia. Dados da literatura mostram que há um risco para o desenvolvimento de algumas doenças a depender do grupo étnico, como doenças cardiovasculares e infecciosas, como a AIDS. No Brasil, estima-se que até o final de 2004, o número de indivíduos infectados pelo HIV-1 foi de 362.364. A Bahia é o estado brasileiro que apresenta a 2ª maior incidência de AIDS. É sabido que o curso clínico da infecção pelo HIV-1 é determinado por complexas interações entre as características virais e os fatores do hospedeiro. Para estimarmos a contribuição dos grupos ancestrais nesta população foram analisados 517 indivíduos infectados pelo HIV-1 do estado da Bahia para 10 PSA (AT3-I/D, APO, SB19.3, PV92, FYnull, LPL, CKMM, GC-F, GC-S e CYP3A4) e para 2 marcadores de susceptibilidade ao HIV-1 (CCR5-Δ32 e CCR2-64I). Foram investigadas as condições sócio-econômicas e a ancestralidade destes pacientes através da sua autodenominação e de uma análise fenotípica baseada em caracteres físicos, além disso, analisou-se os sobrenomes de família para identificação de sobrenomes de conotação religiosa. A estimativa de ancestralidade genômica mostrou que a população analisada apresentava uma maior contribuição africana de 48%, seguida da européia (35%) e ameríndia (17%), sendo as proporções bastante similares quando comparadas com a população de Salvador, não infectada pelo HIV-1. A análise fenotípica quando comparada com a autodenominação desses indivíduos, mostrou-se discordantes apenas na caracterização dos indivíduos negros. Encontrou-se também uma associação entre maior frequência de sobrenome de conotação religiosa com o aumento do fenótipo negróide, indicando que a análise de sobrenome é uma ferramenta importante para inferência de ancestralidade africana. A análise sócio-econômica mostrou que a população com menor nível de escolaridade e menor renda familiar tinha maior ancestralidade africana, sugerindo que a ancestralidade está influenciando numa maior susceptibilidade ao HIV/AIDS. Assim, este trabalho foi de grande importância para estimar a proporção de mistura entre grupos ancestrais na composição desta população, além de fornecer subsídios para auxiliar ações na área de saúde para melhor atender as necessidades desta população.

High genetic diversity in wild culinary-medicinal wood ear mushroom, Auricularia polytricha (Mont.) Sacc., in tropical China revealed by ISSR analysis.

The genetic diversity of 40 wild Auricularia polytricha strains within ten natural populations in tropical China and five cultivated strains were analyzed by using twelve inter-simple sequence repeat (ISSR) primers. At the species level, the percentage of polymorphic loci (P) = 99.8%, the effective number of alleles (Ne) = 1.3569, Nei's gene diversity (H) = 0.2398, Shannon information index (I) = 0.3896, and total genetic diversity (Ht)= 0.2346 indicate a high level of genetic diversity in wild A. polytricha. At the population level of the wild fungus, P = 43.51%, Ne = 1.2675, H = 0.1702, I = 0.2504. However, the genetic diversity of cultivated strains was the lowest of all populations (Ne = 1.1584, H = 0.0940, I = 0.1440). A moderate degree of genetic differentiation (G(st) = 0.347) among the sampled wild populations was detected based on Nei's gene diversity analysis, suggesting that 65.3% of variation existed within this population. The high genetic variation level within wild populations may mostly result from a low level of gene flow (N = 0.9408) and random genetic drift.

Predictive value of 8 genetic loci for serum uric acid concentration.

AIM: To investigate the value of genomic information in prediction of individual serum uric acid concentrations. METHODS: Three population samples were investigated: from isolated Adriatic island communities of Vis (n=980) and Korcula (n=944), and from general population of the city of Split (n=507). Serum uric acid concentration was correlated with the genetic risk score based on 8 previously described genes: PDZK1, GCKR, SLC2A9, ABCG2, LRRC16A, SLC17A1, SLC16A9, and SLC22A12, represented by a total of 16 single-nucleotide polymorphisms (SNP). The data were analyzed using classification and regression tree (CART) and general linear modeling. RESULTS: The most important variables for uric acid prediction with CART were genetic risk score in men and age in women. The percent of variance for any single SNP in predicting serum uric acid concentration varied from 0.0%-2.0%. The use of genetic risk score explained 0.1%-2.5% of uric acid variance in men and 3.9%-4.9% in women. The highest percent of variance was obtained when age, sex, and genetic risk score were used as predictors, with a total of 30.9% of variance in pooled analysis. CONCLUSION: Despite overall low percent of explained variance, uric acid seems to be among the most predictive human quantitative traits based on the currently available SNP information. The use of genetic risk scores is a valuable approach in genetic epidemiology and increases the predictability of human quantitative traits based on genomic information compared with single SNP approach.

Standardizing methods to address clonality in population studies.

Although clonal species are dominant in many habitats, from unicellular organisms to plants and animals, ecological and particularly evolutionary studies on clonal species have been strongly limited by the difficulty in assessing the number, size and longevity of genetic individuals within a population. The development of molecular markers has allowed progress in this area, and although allozymes remain of limited use due to their typically low level of polymorphism, more polymorphic markers have been discovered during the last decades, supplying powerful tools to overcome the problem of clonality assessment. However, population genetics studies on clonal organisms lack a standardized framework to assess clonality, and to adapt conventional data analyses to account for the potential bias due to the possible replication of the same individuals in the sampling. Moreover, existing studies used a variety of indices to describe clonal diversity and structure such that comparison among studies is difficult at best. We emphasize the need for standardizing studies on clonal organisms, and particularly on clonal plants, in order to clarify the way clonality is taken into account in sampling designs and data analysis, and to allow further comparison of results reported in distinct studies. In order to provide a first step towards a standardized framework to address clonality in population studies, we review, on the basis of a thorough revision of the literature on population structure of clonal plants and of a complementary revision on other clonal organisms, the indices and statistics used so far to estimate genotypic or clonal diversity and to describe clonal structure in plants. We examine their advantages and weaknesses as well as various conceptual issues associated with statistical analyses of population genetics data on clonal organisms. We do so by testing them on results from simulations, as well as on two empirical data sets of microsatellites of the seagrasses Posidonia oceanica and Cymodocea nodosa. Finally, we also propose a selection of new indices and methods to estimate clonal diversity and describe clonal structure in a way that should facilitate comparison between future studies on clonal plants, most of which may be of interest for clonal organisms in general.

Prostate cancer incidence varies among males from different Y-chromosome lineages.

The incidence rate of prostate cancer in African-American males is two times higher than Caucasian men and ten times higher than Japanese men. The geographical specificity of Y haplogroups implies that males from different ethnic groups undoubtedly have various Y lineages with different Y-chromosomal characteristics that may affect their susceptibility or resistance to such a male-specific cancer. To confirm this hypothesis we studied the Y-chromosomal haplogroups of 92 Japanese prostate cancer patients comparing them with randomly selected 109 unrelated healthy Japanese male controls who were confirmed to be residents of the same geographical area. Males could be classified using three binary Y-chromosome markers (sex-determining region Y (SRY), YAP, 47z) into four haplogroups DE, O2b(*), O2b1, and untagged group. Our results confirmed that prostate cancer incidence varies among males from different Y-chromosome lineages. Males from DE and the untagged haplogroups are at a significantly higher risk to develop prostate cancer than O2b(*) and O2b1 haplogroups (P=0.01), odds ratio 2.17 and 95% confidence interval (1.16-4.07). Males from haplogroup DE are over-represented in the patient group showing a percentage of 41.3%. The underlying possible causes of susceptibility variations of different Y lineages for such a male-specific cancer tumorigenesis are discussed. These findings explain the lower incidence of prostate cancer in Japanese and other South East Asian males than other populations. To our knowledge, this is the first reliable study examining the association between prostate cancer and Y-chromosomal haplogroups, comparing prostate cancer patients with carefully selected matched controls.

On the prevalence of population groups in the human-genetics research literature.

BACKGROUND: Population-specific human-genetics research has become commonplace but remains controversial, as its results can affect public and personal perceptions of the ethnic, national, and racial groups studied. Choice of populations for study has generally seemed a function of scientific, logistical, or economic factors. RESEARCH QUESTION: Has the identity of populations studied in the human-genetics research literature varied systematically, and, if it has, in what ways? METHODS: I searched the PubMed database for population-genetics reports, calculating for each a population score, a genetics score, and a mutation score. RESULTS: Some populations had been studied far more intensively than others. Many of the most frequently studied groups were ethnically defined and politically marginal in their home countries; some of these groups were involved in self-determination struggles. In the mutation-research literature, state-defined Muslim and Mediterranean populations prevailed. CONCLUSION: Study-population selection may in some cases be explained by, or may complicate, political predicament.

Use of surname models in human population biology: a review of recent developments.

Since 1985, when a bibliography concerning studies on surnames and genetic structure appeared, the number of publications on this subject has increased a thousandfold. New topics and uses have been added, but large gaps in knowledge remain. Only studies on isonymy in cities of nation states for recent times are well covered, and most studies are on populations that were selected because they are isolated and not because they are typical. This review, although not exhaustive, covers the literature published since 1985.