Project description:Genomic characterization of sex-identification markers in Sebastes carnatus and S. chrysomelas rockfishes

Project description:Allopatric origin, secondary contact, and subsequent isolation of sympatric rockfishes (genus Sebastes) in the Northwestern Pacific.

Project description:Population genomics of grass rockfish

Project description:We resolved the convergent impact of ten eGenes with strong evidence of up-regulation by Psychiatric Genomics Consortium (PGC3)-SCZ GWAS loci: CALN1, CLCN3, FES, NAGA, PLCL1, SF3B1, TMEM219, UBE2Q2L, ZNF823, ZNF804A.

Project description:Comparative genomics of convergent social evolution in spiders

Project description:Pintacuda G*, Hsu YH*, Tsafou K, Li KW, Martín JM, Riseman J, Biagini JC, Ching JKT, Mena D, Gonzalez-Lozano MA, Egri SB, Jaffe J, Smit AB, Fornelos N, Eggan KC, Lage K. Protein interaction studies in human induced neurons indicate convergent biology underlying autism spectrum disorders. Cell Genomics (2023). [DOI: https://doi.org/10.1016/j.xgen.2022.100250]

Project description:We used a reference design with a dye swap. We used 6 experimental probes grouped by treatment and sample day. "Treatment" fish consisted of rockfish exposed to forced decompression resulting in barotrauma, followed by subsequent recompression to their original depth. Control fish did not experience forced decompression. Fish were sampled at day 3, day 15 and day 31 post-decompression.

Project description:Venoms have convergently evolved in all major animal lineages and are ideal candidates to unravel the underlying genomic processes of convergent trait evolution. However, few animal groups have been studied in detail, and large-scale comparative genomic analyses to address toxin gene evolution are rare. Hyper-diverse hymenopterans are the most speciose group of venomous animals, but the origin of their toxin genes have been largely overlooked. We combined proteo-transcriptomics with comparative genomics compiling an up-to-date list of core bee venom proteins to investigate the origin of 11 venom genes in 30 hymenopteran genomes including two new stingless bees.

Project description:Venoms have convergently evolved in all major animal lineages and are ideal candidates to unravel the underlying genomic processes of convergent trait evolution. However, few animal groups have been studied in detail, and large-scale comparative genomic analyses to address toxin gene evolution are rare. Hyper-diverse hymenopterans are the most speciose group of venomous animals, but the origin of their toxin genes have been largely overlooked. We combined proteo-transcriptomics with comparative genomics compiling an up-to-date list of core bee venom proteins to investigate the origin of 11 venom genes in 30 hymenopteran genomes including two new stingless bees.

Project description:Cooperative research sheds light on population structure and listing status of threatened and endangered rockfish species