Your search keyword '"Henrik Glenner"' showing total 2 results

1. Genomic Adaptations to an Endoparasitic Lifestyle in the Morphologically Atypical Crustacean Sacculina carcini (Cirripedia: Rhizocephala)

Author

Sebastian Martin, Peter Lesny, Henrik Glenner, Jochen Hecht, Andreas Vilcinskas, Thomas Bartolomaeus, Lars Podsiadlowski, and Publica

Subjects

Differential expression, Genome, Rhizocephala, Genetics, Ecology, Evolution, Behavior and Systematics, Endoparasite, Sacculina

Abstract

The endoparasitic crustacean Sacculina carcini (Cirripedia: Rhizocephala) has a much simpler morphology than conventional filter-feeding barnacles, reflecting its parasitic lifestyle. To investigate the molecular basis of its refined developmental program, we produced a draft genome sequence for comparison with the genomes of nonparasitic barnacles and characterized the transcriptomes of internal and external tissues. The comparison of clusters of orthologous genes revealed the depletion of multiple gene families but also several unanticipated expansions compared to non-parasitic crustaceans. Transcriptomic analyses comparing interna and externa tissues revealed an unexpected variation of gene expression between rootlets sampled around host midgut and thoracic ganglia. Genes associated with lipid uptake were strongly expressed by the internal tissues. We identified candidate genes probably involved in host manipulation (suppression of ecdysis and gonad development) including those encoding crustacean neurohormones and the juvenile hormone binding protein. The evolution of Rhizocephala therefore appears to have involved a rapid turnover of genes (losses and expansions) as well as the fine tuning of gene expression.

Published

2022

2. Pancrustacean Evolution Illuminated by Taxon-Rich Genomic-Scale Data Sets with an Expanded Remipede Sampling

Author

Jesus Lozano-Fernandez, Philip Francis Thomsen, James F. Fleming, Ferran Palero, Albert Chen, Jørgen E. Olesen, Mattia Giacomelli, Thomas M. Iliffe, Henrik Glenner, Davide Pisani, Jakob Vinther, and David A. Legg

Subjects

0106 biological sciences, Evolució molecular, Thecostraca, Genome, Insect, Remipedes, crustacean phylogeny, 010603 evolutionary biology, 01 natural sciences, Evolution, Molecular, transcriptomics, 03 medical and health sciences, Crustacea, Genetics, Animals, 14. Life underwater, Transcriptomics, Clade, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Pancrustacea, 0303 health sciences, Crustacis, biology, Crustacean phylogeny, Genomics, Remipedia, biology.organism_classification, Crustacean, Taxon, Gene Expression Regulation, Cephalocarida, Sister group, remipedes, Evolutionary biology, Dayhoff recoding, Molecular evolution, Insect Proteins, Transcriptome, Research Article

Abstract

The relationships of crustaceans and hexapods (Pancrustacea) have been much discussed and partially elucidated following the emergence of phylogenomic data sets. However, major uncertainties still remain regarding the position of iconic taxa such as Branchiopoda, Copepoda, Remipedia, and Cephalocarida, and the sister group relationship of hexapods. We assembled the most taxon-rich phylogenomic pancrustacean data set to date and analyzed it using a variety of methodological approaches. We prioritised low levels of missing data and found that some clades were consistently recovered independently of the analytical approach used. These include, for example, Oligostraca and Altocrustacea. Substantial support was also found for Allotriocarida, with Remipedia as the sister of Hexapoda (i.e., Labiocarida), and Branchiopoda as the sister of Labiocarida, a clade that we name Athalassocarida (=”nonmarine shrimps”). Within Allotriocarida, Cephalocarida was found as the sister of Athalassocarida. Finally, moderate support was found for Hexanauplia (Copepoda as sister to Thecostraca) in alliance with Malacostraca. Mapping key crustacean tagmosis patterns and developmental characters across the revised phylogeny suggests that the ancestral pancrustacean was relatively short-bodied, with extreme body elongation and anamorphic development emerging later in pancrustacean evolution., J.L.-F. was supported by a Marie Skłodowska-Curie Fellowship (655814) and J.O. was supported by a grant from the Danish Agency for Science, Technology and Innovation (0601-12345B). F.P. was supported by the grant CHALLENGEN (CTM2013-48163) from the Spanish Government and a post-doctoral contract funded by the Beatriu de Pinós Programme of the Generalitat de Catalunya (2014-BPB-00038). J.F.F. was supported by a NERC GW4+ PhD studentship and J.V. and D.P. were supported by a NERC BETR grant (NE/P013678/1). M.G. is supported by a European Marie Curie (ITN – IGNITE) PhD studentship

Published

2019