Your search keyword '"Rödelsperger, C."' showing total 5 results

1. Genome Assembly of the Nematode Rhabditoides Inermis From a Complex Microbial Community.

Author

Rödelsperger C, Röseler W, Athanasouli M, Wighard S, Herrmann M, and Sommer RJ

Subjects

Animals, Rhabditoidea genetics, Rhabditoidea microbiology, Microbiota, Phylogeny, Genome, Helminth

Abstract

Free-living nematodes such as Caenorhabditis elegans and Pristionchus pacificus are powerful model systems for linking specific traits to their underlying genetic basis. To trace the evolutionary history of specific traits or genes, a robust phylogenomic framework is indispensable. In the context of the nematode family Diplogastridae to which P. pacificus belongs, the identity of a sister group has long been debated. In this work, we generated a pseudochromosome level genome assembly of the nematode Rhabditoides inermis, which has previously been proposed as the sister taxon. The genome was assembled from a complex microbial community that is stably associated with R. inermis isolates and that consists of multiple bacteria and a fungus, which we identified as a strain of Vanrija albida. The R. inermis genome spans 173.5Mb that are largely assembled into five pseudochromosomes. This chromosomal configuration likely arose from two recent fusions of different Nigon elements. Phylogenomic analysis did not support a sister group relationship between R. inermis and diplogastrids, but rather supports a sister group relationship between the monophyletic Diplogastridae and a group of genera of Rhabditidae including C. elegans and R. inermis. Thus, our work addresses for the first time the long lasting question about the sister group to diplogastrids at the phylogenomic level and provides with the genomes of R. inermis and the associated fungus V. albida valuable resources for future genomic comparisons., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

2. Genomic analysis of Strongyloides stercoralis and Strongyloides fuelleborni in Bangladesh.

Author

de Ree V, Nath TC, Barua P, Harbecke D, Lee D, Rödelsperger C, and Streit A

Subjects

Animals, Bangladesh epidemiology, Humans, Dogs, Dog Diseases parasitology, Dog Diseases epidemiology, Genomics, Strongyloidiasis epidemiology, Strongyloidiasis veterinary, Strongyloidiasis parasitology, Strongyloides stercoralis genetics, Strongyloides stercoralis isolation & purification, Strongyloides stercoralis classification, Phylogeny, Strongyloides genetics, Strongyloides isolation & purification, Strongyloides classification

Abstract

Background: About 600 million people are estimated to be infected with Strongyloides stercoralis, the species that causes most of the human strongyloidiasis cases. S. stercoralis can also infect non-human primates (NHPs), dogs and cats, rendering these animals putative sources for zoonotic human S. stercoralis infection. S. fuelleborni is normally found in old world NHPs but occasionally also infects humans, mainly in Africa. Dogs in southeast Asia carry at least two types of Strongyloides, only one of which appears to be shared with humans ("dog only" and "human and dog" types). For S. stercoralis with molecular taxonomic information, there is a strong sampling bias towards southeast and east Asia and Australia., Methodology/principle Findings: In order to extend the geographic range of sampling, we collected human and dog derived Strongyloides spp. and hookworms from two locations in Bangladesh and subjected them to molecular taxonomic and genomic analysis based on nuclear and mitochondrial sequences. All hookworms found were Necator americanus. Contrary to earlier studies in Asia, we noticed a rather high incidence of S. fuelleborni in humans. Also in this study, we found the two types of S. stercoralis and no indication for genetic isolation from the southeast Asian populations. However, we found one genomically "dog only" type S. stercoralis in a human sample and we found two worms in a dog sample that had a nuclear genome of the "dog only" but a mitochondrial genome of the "human and dog" type., Conclusions/significance: S. fuelleborni may play a more prominent role as a human parasite in certain places in Asia than previously thought. The introgression of a mitochondria haplotype into the "dog only" population suggests that rare interbreeding between the two S. stercoralis types does occur and that exchange of genetic properties, for example a drug resistance, between the two types is conceivable., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 de Ree et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

3. New Gene Origin and Deep Taxon Phylogenomics: Opportunities and Challenges.

Author

Rödelsperger C, Prabh N, and Sommer RJ

Subjects

Animals, Evolution, Molecular, Nematoda genetics, DNA Barcoding, Taxonomic, Genes, Genomics methods, Phylogeny

Abstract

The immense morphological and phenotypic diversity within eukaryotes coincides with large-scale differences in genic repertoires, including the presence of thousands of new genes in every genome. New genes arise through duplication and divergence of existing coding sequences or de novo from noncoding sequences. These processes together cause individual genomes to contain up to one-third of orphan genes without any detectable homology in other lineages. Recently, deep taxon phylogenomics, the genome comparisons of extremely closely related species, provided novel insight into the evolutionary dynamics of such rapidly evolving genes. This review focuses on deep taxon phylogenomics and its importance in studying the evolution of new genes and discusses challenges and opportunities., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

4. Deep taxon sampling reveals the evolutionary dynamics of novel gene families in Pristionchus nematodes.

Author

Prabh N, Roeseler W, Witte H, Eberhardt G, Sommer RJ, and Rödelsperger C

Subjects

Animals, Multigene Family, Rhabditida classification, Evolution, Molecular, Helminth Proteins genetics, Phylogeny, Rhabditida genetics

Abstract

The widespread identification of genes without detectable homology in related taxa is a hallmark of genome sequencing projects in animals, together with the abundance of gene duplications. Such genes have been called novel, young, taxon-restricted, or orphans, but little is known about the mechanisms accounting for their origin, age, and mode of evolution. Phylogenomic studies relying on deep and systematic taxon sampling and using the comparative method can provide insight into the evolutionary dynamics acting on novel genes. We used a phylogenomic approach for the nematode model organism Pristionchus pacificus and sequenced six additional Pristionchus and two outgroup species. This resulted in 10 genomes with a ladder-like phylogeny, sequenced in one laboratory using the same platform and analyzed by the same bioinformatic procedures. Our analysis revealed that 68%-81% of genes are assignable to orthologous gene families, the majority of which defined nine age classes with presence/absence patterns that can be explained by single evolutionary events. Contrasting different age classes, we find that older age classes are concentrated at chromosome centers, whereas novel gene families preferentially arise at the periphery, are weakly expressed, evolve rapidly, and have a high propensity of being lost. Over time, they increase in expression and become more constrained. Thus, the detailed phylogenetic resolution allowed a comprehensive characterization of the evolutionary dynamics of Pristionchus genomes indicating that distribution of age classes and their associated differences shape chromosomal divergence. This study establishes the Pristionchus system for future research on the mechanisms that drive the formation of novel genes., (© 2018 Prabh et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2018

5. Computational archaeology of the Pristionchus pacificus genome reveals evidence of horizontal gene transfers from insects.

Author

Rödelsperger C and Sommer RJ

Subjects

Animals, Base Composition genetics, Cellulase genetics, Codon genetics, Neuropeptides genetics, Species Specificity, Coleoptera genetics, Gene Transfer, Horizontal genetics, Genome genetics, Nematoda genetics, Phylogeny

Abstract

Background: The recent sequencing of nematode genomes has laid the basis for comparative genomics approaches to study the impact of horizontal gene transfer (HGT) on the adaptation to new environments and the evolution of parasitism. In the beetle associated nematode Pristionchus pacificus HGT events were found to involve cellulase genes of microbial origin and Diapausin genes that are known from beetles, but not from other nematodes. The insect-to-nematode horizontal transfer is of special interest given that P. pacificus shows a tight association with insects., Results: In this study we utilized the observation that horizontally transferred genes often exhibit codon usage patterns more similar to that of the donor than that of the acceptor genome. We introduced GC-normalized relative codon frequencies as a measure to detect characteristic features of P. pacificus orphan genes that show no homology to other nematode genes. We found that atypical codon usage is particularly prevalent in P. pacificus orphans. By comparing codon usage profiles of 71 species, we detected the most significant enrichment in insect-like codon usage profiles. In cross-species comparisons, we identified 509 HGT candidates that show a significantly higher similarity to insect-like profiles than genes with nematode homologs. The most abundant gene family among these genes are non-LTR retrotransposons. Speculating that retrotransposons might have served as carriers of foreign genetic material, we found a significant local clustering tendency of orphan genes in the vicinity of retrotransposons., Conclusions: Our study combined codon usage bias, phylogenetic analysis, and genomic colocalization into a general picture of the computational archaeology of the P. pacificus genome and suggests that a substantial fraction of the gene repertoire is of insect origin. We propose that the Pristionchus-beetle association has facilitated HGT and discuss potential vectors of these events.

Published

2011