Author: Alexander J. Nederbragt

0000000001323180

AUTHOR

Alexander J. Nederbragt

showing 7 related works from this author

Evolutionary redesign of the Atlantic cod (Gadus morhua L.) Toll-like receptor repertoire by gene losses and expansions

2016

AbstractGenome sequencing of the teleost Atlantic cod demonstrated loss of the Major Histocompatibility Complex (MHC) class II, an extreme gene expansion of MHC class I and gene expansions and losses in the innate pattern recognition receptor (PRR) family of Toll-like receptors (TLR). In a comparative genomic setting, using an improved version of the genome, we characterize PRRs in Atlantic cod with emphasis on TLRs demonstrating the loss of TLR1/6, TLR2 and TLR5 and expansion of TLR7, TLR8, TLR9, TLR22 and TLR25. We find that Atlantic cod TLR expansions are strongly influenced by diversifying selection likely to increase the detectable ligand repertoire through neo- and subfunctionalizatio…

0301 basic medicineVDP::Mathematics and natural science: 400::Basic biosciences: 470::Genetics and genomics: 474Major histocompatibility complexArticleEvolution Molecular03 medical and health sciencesPhylogeneticsGadusAnimalsSelection GeneticGeneticsMultidisciplinary030102 biochemistry & molecular biologybiologyGene Expression ProfilingToll-Like ReceptorsPattern recognition receptorGene Expression Regulation DevelopmentalTLR8biology.organism_classificationGene expression profiling030104 developmental biologyGadus morhuabiology.proteinSubfunctionalizationAtlantic codScientific Reports

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An improved version of the Atlantic cod genome and advancements in functional genomics: implications for the future of cod farming

2016

Abstract Recent advancements within state-of-the-art genomic tools and the generation of the first version of the Atlantic cod genome (Star et al., 2011) have proven to be valuable resources, improving our understanding of this species’ biology. In this chapter we describe some aspects and implications of using these resources to identify genes and molecular pathways involved in Atlantic cod growth and development, as well as responses to nutritional changes, pathogens and other immune stimuli, and environmental stressors (e.g., temperature, stress, or pollutants). Additionally, we highlight the immunological puzzle of the Atlantic cod that lacks components of the adaptive immune system pre…

Natural selectionbiologyEcologyEvolutionary biologySystems biologyPhenotypic traitAtlantic codbiology.organism_classificationGeneGenomeFunctional genomicsLocal adaptation

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The new era of genome sequencing using high-throughput sequencing technology: generation of the first version of the Atlantic cod genome

2016

Abstract The genome of Atlantic cod (Gadus morhua L.) published in 2011 was the first example of a teleost genome obtained using a pure high-throughput sequencing (HTS) technology strategy, and the first large vertebrate genome generated by exclusively using Roche/454 sequencing technology. At the start of the sequencing project in 2009, two HTS technologies were available, the Roche/454 and Illumina technologies. Because of the longer read length of the Roche/454 technology and a wider range of suitable software utilizing those data at the time, we chose to use this technology for the first version of the Atlantic cod genome. In this chapter, we describe the process leading to the assembly…

GeneticsAssembly softwarePyrosequencingSequence assemblyGadusComputational biologyVertebrate genomeBiologyAtlantic codbiology.organism_classificationGenomeDNA sequencing

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Genomic characterization of the Atlantic cod sex-locus

2016

AbstractA variety of sex determination mechanisms can be observed in evolutionary divergent teleosts. Sex determination is genetic in Atlantic cod (Gadus morhua), however the genomic location or size of its sex-locus is unknown. Here, we characterize the sex-locus of Atlantic cod using whole genome sequence (WGS) data of 227 wild-caught specimens. Analyzing more than 55 million polymorphic loci, we identify 166 loci that are associated with sex. These loci are located in six distinct regions on five different linkage groups (LG) in the genome. The largest of these regions, an approximately 55 Kb region on LG11, contains the majority of genotypes that segregate closely according to a XX-XY s…

Male0301 basic medicineGenotypeGenetic LinkageSequence analysisLocus (genetics)Polymorphism Single NucleotideGenomeArticle03 medical and health sciences0302 clinical medicineGenetic linkageAnimalsGadusDatabases ProteinGeneWhole genome sequencingGeneticsGenomeSex ChromosomesMultidisciplinarybiologyGene Expression ProfilingSequence Analysis DNASex Determination Processesbiology.organism_classification030104 developmental biologyGadus morhuaGenetic LociFemaleAtlantic cod030217 neurology & neurosurgery

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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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An improved genome assembly uncovers prolific tandem repeats in Atlantic cod

2016

AbstractBackground: The first Atlantic cod (Gadus morhua) genome assembly published in 2011 was one of the early genome assemblies exclusively based on high-throughput 454 pyrosequencing. Since then, rapid advances in sequencing technologies have led to a multitude of assemblies generated for complex genomes, although many of these are of a fragmented nature with a significant fraction of bases in gaps. The development of long-read sequencing and improved software now enable the generation of more contiguous genome assemblies.Results: By combining data from Illumina, 454 and the longer PacBio sequencing technologies, as well as integrating the results of multiple assembly programs, we have …

0301 basic medicineHeterozygoteAssembly algorithmsSequence assemblyGenomicsRepetitive DNABiologyGenome03 medical and health sciences0302 clinical medicineAssembly consolidationTandem repeatIndel polymorphismGeneticsAnimalsGadusLong-read sequencing technologyPromoter Regions GeneticMicrosatellitesRepeated sequenceGenePacBioGeneticsHeterozygosityDinucleotide repeatsMolecular Sequence AnnotationGenomicsSequence Analysis DNAbiology.organism_classification030104 developmental biologyGadus morhuaTandem Repeat SequencesEvolutionary biologyPyrosequencingAtlantic cod030217 neurology & neurosurgeryResearch ArticleBiotechnology

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Data from: Evolution of the immune system influences speciation rates in teleost fishes

2017

medicine and health careMedicinechemical and pharmacologic phenomenaTeleosteiJurassicLife sciences

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