0000000001054978

AUTHOR

Reinhold Hanel

showing 4 related works from this author

Evolution of the immune system influences speciation rates in teleost fishes.

2016

Teleost fishes constitute the most species-rich vertebrate clade and exhibit extensive genetic and phenotypic variation, including diverse immune defense strategies. The genomic basis of a particularly aberrant strategy is exemplified by Atlantic cod, in which a loss of major histocompatibility complex (MHC) II functionality coincides with a marked expansion of MHC I genes. Through low-coverage genome sequencing (9–39×), assembly and comparative analyses for 66 teleost species, we show here that MHC II is missing in the entire Gadiformes lineage and thus was lost once in their common ancestor. In contrast, we find that MHC I gene expansions have occurred multiple times, both inside and outs…

0301 basic medicineGenetic SpeciationLineage (evolution)Adaptation BiologicalGene Dosagechemical and pharmacologic phenomenaMajor histocompatibility complexMajor Histocompatibility Complex03 medical and health sciencesSpecies Specificitybiology.animalMHC class IGeneticsAnimals14. Life underwaterCladePhylogenyGeneticsGenomebiologyFishesVertebrateAcquired immune systemBiological Evolution030104 developmental biologyGenetic SpeciationImmune Systembiology.proteinAdaptationNature genetics
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Genomic Differentiation and Demographic Histories of Atlantic and Indo-Pacific Yellowfin Tuna (Thunnus albacares) Populations.

2017

Recent developments in the field of genomics have provided new and powerful insights into population structure and dynamics that are essential for the conservation of biological diversity. As a commercially highly valuable species, the yellowfin tuna (Thunnus albacares) is intensely exploited throughout its distribution in tropical oceans around the world, and is currently classified as near threatened. However, conservation efforts for this species have so far been hampered by limited knowledge of its population structure, due to incongruent results of previous investigations. Here, we use whole-genome sequencing in concert with a draft genome assembly to decipher the global population str…

0106 biological sciences0301 basic medicineYellowfin tunademographypopulation genomicsDemographic historyPopulation010603 evolutionary biology01 natural sciencesPopulation genomics03 medical and health sciencesGeneticseducationEcology Evolution Behavior and Systematicseducation.field_of_studyNear-threatened speciesbiologyconservationbiology.organism_classificationFishery030104 developmental biologyfisheries managementwhole-genome sequencingtunaTunahuman activitiesIndo-PacificThunnusResearch ArticleGenome biology and evolution
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Evolution of Hemoglobin Genes in Codfishes Influenced by Ocean Depth

2017

AbstractUnderstanding the genetic basis of adaptation is one of the main enigmas of evolutionary biology. Among vertebrates, hemoglobin has been well documented as a key trait for adaptation to different environments. Here, we investigate the role of hemoglobins in adaptation to ocean depth in the diverse teleost order Gadiformes, with species distributed at a wide range of depths varying in temperature, hydrostatic pressure and oxygen levels. Using genomic data we characterized the full hemoglobin (Hb) gene repertoire for subset of species within this lineage. We discovered a correlation between expanded numbers of Hb genes and ocean depth, with the highest numbers in species occupying sha…

0301 basic medicineRange (biology)Lineage (evolution)Oceans and SeasScienceHydrostatic pressureAdaptation BiologicalZoologyBiologyArticleEvolution Molecular03 medical and health sciencesHemoglobinsPhylogeneticsHydrostatic PressureAnimalsSelection GeneticGenePhylogenyWhole genome sequencingMultidisciplinaryWhole Genome SequencingGadiformesQTemperatureRbiology.organism_classificationOxygenGadiformes030104 developmental biologyMedicineAdaptation
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Data from: Evolution of the immune system influences speciation rates in teleost fishes

2017

Teleost fishes constitute the most species-rich vertebrate clade and exhibit extensive genetic and phenotypic variation, including diverse immune defense strategies. The genomic basis of a particularly aberrant strategy is exemplified by Atlantic cod, in which a loss of major histocompatibility complex (MHC) II functionality coincides with a marked expansion of MHC I genes. Through low-coverage genome sequencing (9–39×), assembly and comparative analyses for 66 teleost species, we show here that MHC II is missing in the entire Gadiformes lineage and thus was lost once in their common ancestor. In contrast, we find that MHC I gene expansions have occurred multiple times, both inside and outs…

medicine and health careMedicinechemical and pharmacologic phenomenaTeleosteiJurassicLife sciences
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