Project description:Complete genome sequences of four Streptococcus parauberis isolates belonging to serotype Ia, Ib/Ic and II

Project description:In previous studies, we employed multiple behavior assays, including propensity to feed, simulated trawl capture and escape response, to prove the presence of bold and shy personality in olive flounder. However, the molecular mechanism of the different personality has not been elucidated. In the present study, the transcriptomic profiles of the hindbrain from flounder with distinct personalities were compared. A total of 144 differently expressed genes were identified, including 74 up-regulated and 70 downregulated genes. Genes involved in hypoxia stress were detected in SP flounder, accompanied by down-regulation of ribosomal RNA synthesis. In addition, genes related to calcium signaling pathway, including endothelin, b-Fos, c-Fos and c-Jun were up-regulated in SP flounder. Furthermore, personality-related genes, including UI, CCK, c-Fos showed a significantly higher level in SP flounder compared with BP flounder. GO enrichment analysis indicated that the GO categories “the tight junction pathway” and “lipid transport or localization pathway” are enriched in SP flounder, suggesting that the central nervous system homeostasis would be compromised. Finally, a simple and scalable DNA methylation profiling allows for methylation analysis for different genes. The results found that part of gene expression is negatively related to methylation of promoter. Altogether, identification of the related genes in flounder with different personalities will shed new light to improve critical industry issues related to stress and increase aquaculture production of flounder.

Project description:Using the GENIPOL flounder cDNA microarray, we assessed the temporal transcriptomic responses of Platichthys flesus to model toxicants over a 16 day timespan. Immature fish were treated by intraperitoneal injection with cadmium chloride (50 micrograms/kg in saline), 3-methylcholanthrene (25mg/kg in olive oil), Aroclor 1254 (50mg/kg in olive oil), tert-butyl-hydroperoxide (5mg/kg in saline), lindane (25 mg/kg in olive oil), perfluoro-octanoic acid (100mg/kg in olive oil), olive oil or saline (0.9%). Hepatic gene expression changes were determined 1,2,4,8 and 16 days post-injection in comparison with time-matched carrier controls.

Project description:In this study, we applied high-throughput sequencing technology to examine miRNAs in Japanese flounder (Paralichthys olivaceus) infected with Streptococcus iniae at different times.

Project description:olive flounder gonadal transcriptome

Project description:Olive flounder CNSS transcriptome

Project description:Trichuris trichiura complete mitogenome - South Korea

Project description:Agelena koreana is indigenous spider in South Korea that lives on piles of trees building webs. RNA-sequencing was performed for venom gland tissue and whole body except venom gland.

Project description:The delineation of the olive pollen proteome and its allergogram can improve the clinical management of patients with this pollinosis. We here integrated the recently described wild olive genomic data in a comprehensive proteomic approach to get the annotated olive (Olea europaea) pollen proteome and complete its complex allergogram. Olive pollen proteins were identified by LC-MS/MS using predicted protein sequences from its genome. GO annotation, KEGG Pathway analysis and identification of allergen families were performed by bioinformatics. Recombinant DNA, protein expression and purification, and immunological analyses were used to characterize putative allergens. A total of 1,907 proteins were identified. 60% of the proteins were predicted to possess catalytic activity and be involved in metabolic processes. 203 proteins belonging to 47 allergen families were found, with 37 non-previously described in olive pollen. Of four potential allergens produced in Escherichia coli, a peptidyl-prolyl cis-trans isomerase -cyclophilin-, masked in the protein extract by the major allergen Ole e 1, was found as a new olive pollen allergen (Ole e 15). 63% of the Ole e 15-sensitized patients were children and showed strong IgE recognition of the allergen. Ole e 15 shared high sequence identity with other plant, animal and fungal cyclophilins and a high IgE cross-reactivity with pollen, plant food and animal extracts. Taken together, the combination of available genomic data with proteomics permitted the profiling of the olive pollen proteome, revealing the spectrum of allergen families and cyclophilin as a new relevant allergen implicated in cross-reactivity.

Project description:The delineation of the olive pollen proteome and its allergogram can improve the clinical management of patients with this pollinosis. We here integrated the recently described wild olive genomic data in a comprehensive proteomic approach to get the annotated olive (Olea europaea) pollen proteome and complete its complex allergogram. Olive pollen proteins were identified by LC-MS/MS using predicted protein sequences from its genome. GO annotation, KEGG Pathway analysis and identification of allergen families were performed by bioinformatics. Recombinant DNA, protein expression and purification, and immunological analyses were used to characterize putative allergens. A total of 1,907 proteins were identified. 60% of the proteins were predicted to possess catalytic activity and be involved in metabolic processes. 203 proteins belonging to 47 allergen families were found, with 37 non-previously described in olive pollen. Of four potential allergens produced in Escherichia coli, a peptidyl-prolyl cis-trans isomerase -cyclophilin-, masked in the protein extract by the major allergen Ole e 1, was found as a new olive pollen allergen (Ole e 15). 63% of the Ole e 15-sensitized patients were children and showed strong IgE recognition of the allergen. Ole e 15 shared high sequence identity with other plant, animal and fungal cyclophilins and a high IgE cross-reactivity with pollen, plant food and animal extracts. Taken together, the combination of available genomic data with proteomics permitted the profiling of the olive pollen proteome, revealing the spectrum of allergen families and cyclophilin as a new relevant allergen implicated in cross-reactivity.