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1. Systematics and evolution of predatory flower flies (Diptera: Syrphidae) based on exon‐capture sequencing

Author

Ximo Mengual, Christoph Mayer, Trevor O. Burt, Kevin M. Moran, Lars Dietz, Gaby Nottebrock, Thomas Pauli, Andrew D. Young, Marie V. Brasseur, Sandra Kukowka, Scott Kelso, Claudia Etzbauer, Sander Bot, Martin Hauser, Kurt Jordaens, Gil F. G. Miranda, Gunilla Ståhls, Wouter van Steenis, Ralph S. Peters, Jeffrey H. Skevington, Gunilla Ståhls-Mäkelä / Principal Investigator, Zoology, Biosciences, and Finnish Museum of Natural History

Subjects
Syrphinae, Insect Science, 1181 Ecology, evolutionary biology, Hover flies, Syrphidae, Tribal classification, Phylogeny, target DNA enrichment, Ecology, Evolution, Behavior and Systematics
Abstract

Flower flies (Diptera: Syrphidae) are one of the most species-rich dipteran families and provide important ecosystem services such as pollination, biological control of pests, recycling of organic matter and redistributions of essential nutrients. Flower fly adults generally feed on pollen and nectar, but their larval feeding habits are strikingly diverse. In the present study, high-throughput sequencing was used to capture and enrich phylogenetically and evolutionary informative exonic regions. With the help of the baitfisher software, we developed a new bait kit (SYRPHIDAE1.0) to target 1945 CDS regions belonging to 1312 orthologous genes. This new bait kit was successfully used to exon capture the targeted loci in 121 flower fly species across the different subfamilies of Syrphidae. We analysed different amino acid and nucleotide data sets (1302 loci and 154 loci) with maximum likelihood and multispecies coalescent models. Our analyses yielded highly supported similar topologies, although the degree of the SRH (global stationarity, reversibility and homogeneity) conditions varied greatly between amino acid and nucleotide data sets. The sisterhood of subfamilies Pipizinae and Syrphinae is supported in all our analyses, confirming a common origin of taxa feeding on soft-bodied arthropods. Based on our results, we define Syrphini stat.rev. to include the genera Toxomerus and Paragus. Our divergence estimate analyses with beast inferred the origin of the Syrphidae in the Lower Cretaceous (125.5-98.5 Ma) and the diversification of predatory flower flies around the K-Pg boundary (70.61-54.4 Ma), coinciding with the rise and diversification of their prey.

Published
2022

3. Individualized Mini-Panel Sequencing of ctDNA Allows Tumor Monitoring in Complex Karyotype Sarcomas

Author

David Braig, Alexander Runkel, Anja E. Eisenhardt, Adrian Schmid, Johannes Zeller, Thomas Pauli, Ute Lausch, Julius Wehrle, Peter Bronsert, Matthias Jung, Jurij Kiefer, Melanie Boerries, and Steffen U. Eisenhardt

Subjects
Organic Chemistry, Karyotype, Sarcoma, Soft Tissue Neoplasms, General Medicine, Catalysis, Computer Science Applications, Circulating Tumor DNA, Inorganic Chemistry, soft tissue sarcoma, complex karyotype sarcoma, ctDNA, cfDNA, biomarker, liquid biopsy, myxofibrosarcoma, leiomyosarcoma, pleomorphic sarcoma, Mutation, Biomarkers, Tumor, Humans, Physical and Theoretical Chemistry, Molecular Biology, Cell-Free Nucleic Acids, Spectroscopy
Abstract

Soft tissue sarcomas (STS) are rare tumors of mesenchymal origin with high mortality. After curative resection, about one third of patients suffer from distant metastases. Tumor follow-up only covers a portion of recurrences and is associated with high cost and radiation burden. For metastasized STS, only limited inferences can be drawn from imaging data regarding therapy response. To date there are no established and evidence-based diagnostic biomarkers for STS due to their rarity and diversity. In a proof-of-concept study, circulating tumor DNA (ctDNA) was quantified in (n = 25) plasma samples obtained from (n = 3) patients with complex karyotype STS collected over three years. Genotyping of tumor tissue was performed by exome sequencing. Patient-individual mini-panels for targeted next-generation sequencing were designed encompassing up to 30 mutated regions of interest. Circulating free DNA (cfDNA) was purified from plasma and ctDNA quantified therein. ctDNA values were correlated with clinical parameters. ctDNA concentrations correlated with the tumor burden. In case of full remission, no ctDNA was detectable. Patients with a recurrence at a later stage showed low levels of ctDNA during clinical remission, indicating minimal residual disease. In active disease (primary tumor or metastatic disease), ctDNA was highly elevated. We observed direct response to treatment, with a ctDNA decline after tumor resections, radiotherapy, and chemotherapy. Quantification of ctDNA allows for the early detection of recurrence or metastases and can be used to monitor treatment response in STS. Therapeutic decisions can be made earlier, such as the continuation of a targeted adjuvant therapy or the implementation of extended imaging to detect recurrences. In metastatic disease, therapy can be adjusted promptly in case of no response. These advantages may lead to a survival benefit for patients in the future.

Published
2022

5. Evidence for a chemical arms race between cuckoo wasps of the genus Hedychrum and their distantly related host apoid wasps

Author

Ruth Castillo, Mareike Wurdack, Thomas Pauli, Alexander Keller, Heike Feldhaar, Carlo Polidori, Oliver Niehuis, and Thomas Schmitt

Subjects
Male, Restraint, Physical, Chrysididae, cuticular hydrocarbons, Research, Wasps, Settore BIO/05 - Zoologia, General Medicine, Bees, Hymenoptera, Birds, ddc:570, chemical mimicry, evolutionary arms race, Animals, Female, Cues, Philanthidae, Rhabdomyosarcoma, Alveolar
Abstract

Background Brood parasites can exert strong selection pressure on their hosts. Many brood parasites escape their detection by mimicking sensory cues of their hosts. However, there is little evidence whether or not the hosts are able to escape the parasites’ mimicry by changing these cues. We addressed this question by analyzing cuticular hydrocarbon (CHC) profiles of Cerceris and Philanthus wasps and their brood parasites, cuckoo wasps mimicking the CHC profiles of their hosts. Some of these hosts use hydrocarbons to preserve their prey against fungal infestation and thus, they cannot significantly change their CHC composition in response to chemical mimicry by Hedychrum brood parasites. Results We found that the CHC overlap between brood parasites and their hosts was lower in case of host wasps not preserving their prey than in case of prey-preserving host wasps, whose CHC evolution is constrained. Furthermore, the CHC profiles in non-preserving host wasps is more strongly diversified in females than in males, thus in the sex that is chemically mimicked by brood parasites. Conclusion Our results provide evidence for a chemical arms race between those hosts that are liberated from stabilizing selection on their chemical template and their parasites.

Published
2021

6. Analysis of RNA-Seq, DNA Target Enrichment, and Sanger Nucleotide Sequence Data Resolves Deep Splits in the Phylogeny of Cuckoo Wasps (Hymenoptera: Chrysididae)

Author

Carlo Polidori, Yolanda Ballesteros, Eric P. van den Berghe, Paolo Rosa, Jeroen de Rond, Massimo Olmi, Bernhard Misof, Thomas Schmitt, Lars Podsiadlowski, Adalgisa Guglielmino, Thomas Pauli, Karen Meusemann, Franco Strumia, Ralph S. Peters, Hermes E. Escalona, Christoph Mayer, Xin Zhou, Manfred Niehuis, Alexander Berg, Jan Philip Oeyen, Mareike Wurdack, Alexander Donath, Shanlin Liu, Manuela Sann, Oliver Niehuis, and Sandra Kukowka

Subjects
0106 biological sciences, 0301 basic medicine, biology, Nucleic acid sequence, RNA-Seq, Hymenoptera, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Target enrichment, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Phylogenetics, Evolutionary biology, Insect Science, Animal Science and Zoology, Cuckoo, Ecology, Evolution, Behavior and Systematics, DNA, Developmental Biology
Abstract

The wasp family Chrysididae (cuckoo wasps, gold wasps) comprises exclusively parasitoid and kleptoparasitic species, many of which feature a stunning iridescent coloration and phenotypic adaptations to their parasitic life style. Previous attempts to infer phylogenetic relationships among the family’s major lineages (subfamilies, tribes, genera) based on Sanger sequence data were insufficient to statistically resolve the monophyly and the phylogenetic position of the subfamily Amiseginae and the phylogenetic relationships among the tribes Allocoeliini, Chrysidini, Elampini, and Parnopini (Chrysidinae). Here, we present a phylogeny inferred from nucleotide sequence data of 492 nuclear single-copy genes (230,915 aligned amino acid sites) from 94 species of Chrysidoidea (representing Bethylidae, Chrysididae, Dryinidae, Plumariidae) and 45 outgroup species by combining RNA-seq and DNA target enrichment data. We find support for Amiseginae being more closely related to Cleptinae than to Chrysidinae. Furthermore, we find strong support for Allocoeliini being the sister lineage of all remaining Chrysidinae, whereas Elampini represent the sister lineage of Chrysidini and Parnopini. Our study corroborates results from a recent phylogenomic investigation, which revealed Chrysidoidea as likely paraphyletic.

Published
2021

7. Sawfly Genomes Reveal Evolutionary Acquisitions That Fostered the Mega-Radiation of Parasitoid and Eusocial Hymenoptera

Author

Sebastian Martin, Huyen Dinh, Kim C. Worley, Björn M. von Reumont, Tanja Ziesmann, Elena N. Elpidina, Cameron Gudobba, Alexander G. Martynov, Patrice Baa-Puyoulet, Cornelis J. P. Grimmelikhuijzen, Elizabeth Cash, Olivia R.A. Tidswell, Federica Calevro, Aaron Stahl, Markus Friedrich, Jiaxin Qu, Andrew J. Rosendale, Joshua B. Benoit, Leo W. Beukeboom, Shwetha C. Murali, Mackenzie Lovegrove, Panagiotis Ioannidis, Brenda Oppert, Daniel Dowling, Mei-Ju May Chen, Peter Lesný, Elzemiek Geuverink, Jan Philip Oeyen, Bernhard Misof, Maarten J.M.F. Reijnders, Masatsugu Hatakeyama, Emily C. Jennings, Christoph Mayer, Lucia Vedder, Daisuke S. Yamamoto, Anja Buttstedt, Hsu Chao, Elizabeth J. Duncan, Louis van de Zande, Daniel S.T. Hughes, Monica Munoz-Torres, Erich Bornberg-Bauer, Richard A. Gibbs, Lars Podsiadlowski, Peter K. Dearden, Alexandros G Sotiropoulos, Ralph S. Peters, Nicolas Montagné, Jeanne Wilbrandt, Andrew G. Cridge, Stephen Richards, John H. Werren, Yi Han, Sandra L. Lee, Megumi Sumitani, Victoria C. Moris, Oliver Niehuis, Ewald Große-Wilde, Amanda Dolan, Elise M. Szuter, Nicolas Parisot, Christopher P. Childers, Emmanuelle Jacquin-Joly, Sonja Grath, Panagiotis Provataris, Donna M. Muzny, Thomas Pauli, Joshua D. Gibson, Steffen Klasberg, Frank Hauser, John Skelly, Robert M. Waterhouse, Alexander Donath, Monica F. Poelchau, Shannon Dugan, Bill S. Hansson, Hubert Charles, Harshavardhan Doddapaneni, Malte Petersen, Evgeny M. Zdobnov, Evangelos Tsitlakidis, Christian Pick, Felipe A. Simão, Emma Persyn, Jeffery W. Jones, Lavrov, Dennis, Beukeboom lab, Evolutionary Genetics, Development & Behaviour, Van de Zande lab, Biologie Fonctionnelle, Insectes et Interactions (BF2I), Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Groningen Institute for Evolutionary Life Sciences [Groningen] (GELIFES), University of Groningen [Groningen], Westfälische Wilhelms-Universität Münster (WWU), Biochemistry Department, University of Otago [Dunedin, Nouvelle-Zélande], Max-Planck-Institut für Kernphysik (MPIK), Max-Planck-Gesellschaft, Max Planck Institute for Chemical Ecology, Physiologie de l'Insecte : Signalisation et Communication (PISC), Institut National de la Recherche Agronomique (INRA)-Université Pierre et Marie Curie - Paris 6 (UPMC)-AgroParisTech, Institute for Evolution and Biodiversity (IEB), Department of Chemistry [Vancouver] (UBC Chemistry), University of British Columbia (UBC), Lawrence Berkeley National Laboratory [Berkeley] (LBNL), Human Genome Sequencing Center, Baylor College of Medicine, Baylor College of Medicine (BCM), Baylor University-Baylor University, Center for Molecular Biodiversity Research (ZMB), Zoological Research Museum Alexander Koenig (ZFMK), Department of Biology, Georgetown University, Université de Lausanne (UNIL), Human Genome Sequencing Center [Houston] (HGSC), Grad Sch Life Sci, Div Neurogenet, Tohoku University [Sendai], Department of Genetic Medicine and Development [Geneva], Université de Genève (UNIGE), Zoologisches Forschungsmuseum Alexander Koenig, Center for Molecular Biodiversity Research, Lavrov, Dennis (ed.), Institut d'écologie et des sciences de l'environnement de Paris (iEES Paris ), Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Zdobnov, Evgeny

Subjects
AcademicSubjects/SCI01140, 0106 biological sciences, Most recent common ancestor, Male, Vision, Genome, Insect, Gene Dosage, Hymenoptera, JEWEL WASP NASONIA, Receptors, Odorant, 01 natural sciences, Genome, Parasitoid, MULTIPLE SEQUENCE ALIGNMENT, opsin, Receptors, phytophagy, ddc:576.5, Apocrita, Conserved Sequence, 0303 health sciences, [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], HOST LOCATION, Eusociality, ROYAL JELLY PROTEIN, ATHALIA-ROSAE, Sawfly, Odorant, APIS-MELLIFERA, Multigene Family, Insect Proteins, Female, Research Article, Genetics, Ecology, Evolution, Behavior and Systematics, hexamerin, major royal jelly protein, microsynteny, odorant receptor, CHEMORECEPTOR SUPERFAMILY, Genetic Speciation, Biology, 010603 evolutionary biology, Host-Parasite Interactions, 03 medical and health sciences, Ocular, Animals, Amino Acid Sequence, Herbivory, Social Behavior, DRAFT GENOME, Life Below Water, Vision, Ocular, 030304 developmental biology, MODEL SELECTION, Glycoproteins, Orussidae, Evolutionary Biology, fungi, Human Genome, AcademicSubjects/SCI01130, Immunity, biology.organism_classification, MOLECULAR EVOLUTION, Evolutionary biology, DNA Transposable Elements, Biochemistry and Cell Biology, Insect, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis, Developmental Biology
Abstract

The tremendous diversity of Hymenoptera is commonly attributed to the evolution of parasitoidism in the last common ancestor of parasitoid sawflies (Orussidae) and wasp-waisted Hymenoptera (Apocrita). However, Apocrita and Orussidae differ dramatically in their species richness, indicating that the diversification of Apocrita was promoted by additional traits. These traits have remained elusive due to a paucity of sawfly genome sequences, in particular those of parasitoid sawflies. Here, we present comparative analyses of draft genomes of the primarily phytophagous sawfly Athalia rosae and the parasitoid sawfly Orussus abietinus. Our analyses revealed that the ancestral hymenopteran genome exhibited traits that were previously considered unique to eusocial Apocrita (e.g., low transposable element content and activity) and a wider gene repertoire than previously thought (e.g., genes for CO2 detection). Moreover, we discovered that Apocrita evolved a significantly larger array of odorant receptors than sawflies, which could be relevant to the remarkable diversification of Apocrita by enabling efficient detection and reliable identification of hosts.

Published
2020

8. New data, same story: phylogenomics does not support Syrphoidea (Diptera: Syrphidae, Pipunculidae)

Author

Keith M. Bayless, Alexandros Vasilikopoulos, Ralph S. Peters, Thomas Pauli, Shanlin Liu, Ximo Mengual, Alexey M. Kozlov, Bernhard Misof, Christoph Mayer, Trevor O. Burt, Lars Podsiadlowski, Alexander Donath, Karen Meusemann, David K. Yeates, and Xin Zhou

Subjects
0106 biological sciences, 0301 basic medicine, biology, Syrphoidea, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Pipunculidae, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Insect Science, Phylogenomics, Ecology, Evolution, Behavior and Systematics
Published
2018

9. Transcriptomic data from panarthropods shed new light on the evolution of insulator binding proteins in insects : Insect insulator proteins

Author

Oliver Niehuis, Lucia Vedder, Alexander Donath, Ralph S. Peters, Thomas Wiehe, Georg Mayer, Thomas Pauli, Shanlin Liu, Peter Heger, Xin Zhou, Malte Petersen, Daniel Dowling, Bernhard Misof, Christoph Mayer, Lars Podsiadlowski, Lars Hering, and Karen Meusemann

Subjects
0301 basic medicine, Most recent common ancestor, media_common.quotation_subject, Insect, Diplura, Gene evolution, Evolution, Molecular, 03 medical and health sciences, Arthropod evolution, Genetics, Animals, Enhancer, Arthropods, Phylogeny, media_common, biology, Gene Expression Profiling, fungi, Comparative transcriptomic analyses, biology.organism_classification, Insulator binding proteins, Neoptera, DNA-Binding Proteins, 030104 developmental biology, Body plan, Drosophila melanogaster, Enhancer Elements, Genetic, Insulator Elements, Homeotic gene, Transcriptome, Biotechnology, Research Article
Abstract

Background Body plan development in multi-cellular organisms is largely determined by homeotic genes. Expression of homeotic genes, in turn, is partially regulated by insulator binding proteins (IBPs). While only a few enhancer blocking IBPs have been identified in vertebrates, the common fruit fly Drosophila melanogaster harbors at least twelve different enhancer blocking IBPs. We screened recently compiled insect transcriptomes from the 1KITE project and genomic and transcriptomic data from public databases, aiming to trace the origin of IBPs in insects and other arthropods. Results Our study shows that the last common ancestor of insects (Hexapoda) already possessed a substantial number of IBPs. Specifically, of the known twelve insect IBPs, at least three (i.e., CP190, Su(Hw), and CTCF) already existed prior to the evolution of insects. Furthermore we found GAF orthologs in early branching insect orders, including Zygentoma (silverfish and firebrats) and Diplura (two-pronged bristletails). Mod(mdg4) is most likely a derived feature of Neoptera, while Pita is likely an evolutionary novelty of holometabolous insects. Zw5 appears to be restricted to schizophoran flies, whereas BEAF-32, ZIPIC and the Elba complex, are probably unique to the genus Drosophila. Selection models indicate that insect IBPs evolved under neutral or purifying selection. Conclusions Our results suggest that a substantial number of IBPs either pre-date the evolution of insects or evolved early during insect evolution. This suggests an evolutionary history of insulator binding proteins in insects different to that previously thought. Moreover, our study demonstrates the versatility of the 1KITE transcriptomic data for comparative analyses in insects and other arthropods. Electronic supplementary material The online version of this article (doi:10.1186/s12864-016-3205-1) contains supplementary material, which is available to authorized users.

Published
2016

10. Simulationsgestützte Optimierung für die distributionsorientierte Auftragsreihenfolgeplanung in der Automobilindustrie

Author

Thomas Pauli, Christian Schwede, Axel Wagenitz, and Katja Klingebiel

Abstract

Der Volkswagen Konzern mit Sitz in Wolfsburg ist einer der fuhrenden Automobilhersteller weltweit und der groste Automobilproduzent Europas. Der Konzern betreibt 61 Fertigungsstatten mit fast 370.000 Beschaftigten. Aufgrund der Vielseitigkeit der betriebenen Logistiksysteme (von regionalen Gebietsspeditionssystemen bis zu weltumspannenden Transportketten) und deren globalen Vernetzung sind diese standig einer grosen Zahl unterschiedlicher Wandlungstreibern unterworfen. Aktuelle Bemuhungen an mehreren Stellen des Konzerns zielen in diesem Kontext insbesondere auf eine bessere Auslastung der Transportkapazitaten durch eine integrierte Programm- und Transportplanung.

Published
2010

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