Browsing by Author "Basso, Benjamin"
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- Complex population structure and haplotype patterns in the Western European honey bee from sequencing a large panel of haploid dronesPublication . Wragg, David; Eynard, Sonia E.; Basso, Benjamin; Canale‐Tabet, Kamila; Labarthe, Emmanuelle; Bouchez, Olivier; Bienefeld, Kaspar; Bieńkowska, Małgorzata; Costa, Cecilia; Gregorc, Aleš; Kryger, Per; Parejo, Melanie; Pinto, M. Alice; Bidanel, Jean‐Pierre; Servin, Bertrand; Le Conte, Yves; Vignal, AlainHoney bee subspecies originate from specific geographical areas in Africa, Europe and the Middle East, and beekeepers interested in specific phenotypes have imported genetic material to regions outside of the bees' original range for use either in pure lines or controlled crosses. Moreover, imported drones are present in the environ-ment and mate naturally with queens from the local subspecies. The resulting ad-mixture complicates population genetics analyses, and population stratification can be a major problem for association studies. To better understand Western European honey bee populations, we produced a whole genome sequence and single nucleotide polymorphism (SNP) genotype data set from 870 haploid drones and demonstrate its utility for the identification of nine genetic backgrounds and various degrees of admixture in a subset of 629 samples. Five backgrounds identified correspond to sub-species, two to isolated populations on islands and two to managed populations. We also highlight several large haplotype blocks, some of which coincide with the position of centromeres. The largest is 3.6 Mb long and represents 21% of chromosome 11, with two major haplotypes corresponding to the two dominant genetic backgrounds identified. This large naturally phased data set is available as a single vcf file that can now serve as a reference for subsequent populations genomics studies in the honey bee, such as (i) selecting individuals of verified homogeneous genetic backgrounds as references, (ii) imputing genotypes from a lower-density data set generated by an SNP- chip or by low- pass sequencing, or (iii) selecting SNPs compatible with the re-quirements of genotyping chips.
- Evaluation of suppressed mite reproduction (Smr) reveals potential for varroa resistance in european honey bees (apis mellifera l.)Publication . Mondet, Fanny; Parejo, Melanie; Meixner, Marina D.; Costa, Cecilia; Kryger, Per; Andonov, Sreten; Servin, Bertrand; Basso, Benjamin; Bieńkowska, Małgorzata; Bigio, Gianluigi; Căuia, Eliza; Cebotari, Valentina; Dahle, Bjørn; Dražić, Marica Maja; Hatjina, Fani; Kovačić, Marin; Kretavicius, Justinas; Lima, Ana S.; Panasiuk, Beata; Pinto, M. Alice; Uzunov, Aleksandar; Wilde, Jerzy; Büchler, RalphIn the fight against the Varroa destructor mite, selective breeding of honey bee (Apis mellifera L.) populations that are resistant to the parasitic mite stands as a sustainable solution. Selection initiatives indicate that using the suppressed mite reproduction (SMR) trait as a selection criterion is a suitable tool to breed such resistant bee populations. We conducted a large European experiment to evaluate the SMR trait in different populations of honey bees spread over 13 different countries, and representing different honey bee genotypes with their local mite parasites. The first goal was to standardize and validate the SMR evaluation method, and then to compare the SMR trait between the different populations. Simulation results indicate that it is necessary to examine at least 35 single-infested cells to reliably estimate the SMR score of any given colony. Several colonies from our dataset display high SMR scores indicating that this trait is present within the European honey bee populations. The trait is highly variable between colonies and some countries, but no major differences could be identified between countries for a given genotype, or between genotypes in different countries. This study shows the potential to increase selective breeding efforts of V. destructor resistant populations.