Project description:Ray-finned fishes Targeted loci

Project description:Developmental changes of opsin gene expression in ray-finned fishes (Actinopterygii)

Project description:RNAseq of the Olfactory Epithelium of basal ray-finned fish

Project description:How modification of gene expression generates novel traits is key to understanding the evolutionary process. Here we investigated the genetic basis for the origin of the piscine gas bladder from lungs of ancestral bony vertebrates. Distinguishing these homologous organs is the direction of budding from the foregut during development; lungs bud ventrally and the gas bladder buds dorsally. We investigated whether this morphological inversion is associated with the molecular inversion of conserved genes regulating lung and gas bladder development. Using laser-capture microdissection and RNA-seq, we assayed transcript abundance and compared expression patterns between dorsal and ventral foregut tissues at three developmental stages spanning gasbladder development. Our focal taxon, bowfin (Amia calva), representing the sistergroup to teleosts, is an early diverging ray-finned fish with a gas bladder. We discovered a number of genes with unknown function during lung development that are differentially expressed during gas bladder development and annotated to functions relevant for organ budding. We also identified several known lung-regulatory genes that exhibit inverted dorsoventral expression during gasbladder development relative to lung development. In particular, we found Tbx5 is strongly expressed in the dorsal mesoderm surrounding the gas bladder during bowfin development, and several interacting genes are co-expressed dorsally with Tbx5. In contrast, in mouse and bichir (Polypterus senegalus), the only ray-finned fish that have lungs, Tbx5 is expressed in the ventral lung mesoderm during lung development. Our data demonstrating dorsoventral inversion of conserved genes suggest that these genes may have contributed to the evolutionary transition between ventral lungs and a dorsal gas bladder in ray-finned fishes.

Project description:FishPIE: a universal phylogenetically informative exon markers set for ray-finned fishes

Project description:The six species of lungfish possess both lungs and gills and are the closest extant relatives of tetrapods. Here, we report a single-cell transcriptome atlas of the West African lungfish (Protopterus annectens). This species manifests the most extreme form of terrestrialization, a life history strategy to survive dry periods in five lungfish species that can last for years, characterized by dormancy and reversible adaptive changes of the gills and lungs. Our atlas highlights the cell type diversity of the West African lungfish, including gene expression consistent with phenotype changes of terrestrialization. Comparisons with terrestrial tetrapods and ray-finned fishes revealed broad homology between the swim bladder and lung cell types as well as shared and idiosyncratic changes of the external gills of the West African lungfish and the internal gills of Atlantic salmon. The single-cell atlas presented here provides a valuable resource for further exploring the evolution of the vertebrate respiratory system and the diversity of lungfish terrestrialization.

Project description:Bone is an evolutionary novelty of vertebrates, likely to have first emerged as part of ancestral dermal armor that consisted of osteogenic and odontogenic components. Whether these early vertebrate structures arose from mesoderm or neural crest cells has been a matter of considerable debate. To examine the developmental origin of the bony part of the dermal armor, we have performed in vivo lineage tracing in the sterlet sturgeon, a representative of non-teleost ray-finned fish that has retained an extensive postcranial dermal skeleton. The results definitively show that sterlet trunk neural crest cells give rise to osteoblasts of the scutes. Transcriptional profiling further reveals neural crest gene signature in sterlet scutes as well as bichir scales. Finally, histological and microCT analysis of ray-finned fish dermal armor show that their scales and scutes are formed by bone, dentin and hypermineralized covering tissues, in various combinations, that resemble those of the first armored vertebrates. Taken together, our results support a primitive skeletogenic role for the neural crest along the entire body axis, that was later progressively restricted to the cranial region during vertebrate evolution. Thus, the neural crest was a crucial evolutionary innovation driving the origin and diversification of dermal armor along the entire body axis.

Project description:A survey of ray finned fish PSMB8 sequences reveal novel holostean alleles that may impact MHCI function

Project description:The vomeronasal organ (VNO) of mice contains two main types of vomeronasal sensory neurons (VSNs)- Apical and Basal. Apical VSNs express vomeronasal receptors (VRs) of the V1R family and project to the anterior accessory olfactory bulb (AOB) and VSNs in the basal portions of the epithelium express receptors of the V2R family and project to the posterior portion of the AOB. In the vomeronasal epithelium of mice we found active BMP signaling. By generating Smad4 conditional mutants we disrupted canonical TGF-b/BMP signaling in either maturing basal VSNs or in mature apical and basal VSNs.

Project description:Background: We got interested whether genes of airway basal cells are enriched in sarcoidosis. Methods: Bronchoscopy with bronchoalveolar lavage (BAL) was performed in 26 patients with sarcoidosis, chest-x-ray type III and IV, and 20 healthy donors and isolated BAL cells.Transcriptome of BAL cells were studied by using Affymetrix Human Affymetrix Whole-Transcript Human Gene 1.0 ST array on an Affymetrix platform. Microarray data were imported, log2-transformed and quantile normalized using robust multi-array average (RMA). We tested enrichment for airway basal cells by global enrichment analysis. Results: we did not find enrichment of airway basal cell genes in sarcoidosis compared to healthy volunteers.