Project description:Seawater biofilms on 316L SS

Project description:Yeast whole cells have been widely used in modern biotechnology as biocatalysts to generate numerous compounds of industrial, chemical, and pharmaceutical importance. Since many of the biocatalysis utilizing manufactures have become more concerned about environmental issues, seawater is now considered a sustainable alternative to freshwater for biocatalytic processes. This approach plausibly commenced new research initiatives into exploration of salt tolerant yeast strains. Recently, there has also been a growing interest in possible applications of microbial biofilms in the field of biocatalysis. In these complex communities, cells demonstrate higher resistance to adverse environmental conditions due to their embedment in an extracellular matrix, in which physical, chemical, and physiological gradients exist. Considering these two topics, seawater and biofilms, in this work we characterized biofilm formation in seawater-based growth media by several salt tolerant yeast strains with previously demonstrated bocatalytic capacities. The tested strains formed both air-liquid-like biofilms and biofilms on silicone surfaces, with Debaryomyces fabryi, Schwanniomyces etchellsii, S. polymorphus and Kluyveromyces marxianus showing the highest biofilm formation. The extracted biofilm extracellular matrices mostly consisted of carbohydrates and proteins. The latter group was primarily represented by enzymes involved in metabolic processes, particularly the biosynthetic ones, and in the response to stimuli. Specific features were also found in the carbohydrate composition of the extracellular matrix, which were dependent both on the yeast isolate and the nature of formed biofilms. Overall, our findings presented herein provide a unique data resource for further development and optimization of biocatalytic processes and applications employing seawater and halotolerant yeast biofilms.

Project description:Transcripts of the gill epithelium from three different stocks of Atlantic salmon (Salmo salar) migrating from freshwater river to lake (Saimaa stock, SS), brackish water (Neva stock, NS) or seawater (Teno stock, TS) were compared at three successive developmental stages (parr, smolt and postsmolt) using the 16K GRASP cDNA microarray platform.

Project description:Corrosive Biofilms in Seawater Conditions

Project description:We have utilized a HDAC class-I specific inhbitor 4SC-202 and revealed a potential involvement of BRD4 and MYC in regulating the expression of induced genes in response to 4SC-202 treatment.

Project description:Epigenetic changes deregulate gene expression to drive oncogenesis. The reversible nature of these changes enables therapeutic targeting, as in cutaneous T-cell lymphoma (MF/SS), Histone deacetylase inhibitors (HDACi), which alter epigenetic modifications, are effective in ~30% of MF/SS patients. However, there are no markers that predict MF/SS progression or therapy resistance. We hypothesized that epigenetic alterations drive MF/SS progression and promote HDACi drug resistance. Therefore, we profiled the epigenomes and transcriptomes of malignant T cell purified from skin biopsies and peripheral blood from MF/SS patients (N=21) before and after treatment with HDACi, as well as in vitro HDACi-treated CD4+ T cells from healthy donors. Here we report for the first time the epigenome-wide map of acetylation changes in MF/SS patients treated with HDACi, and define the significant differences in regulatory element activity and corresponding transcriptional changes in HDACi-sensitive versus resistant tumors. Our studies identified genes not previously  associated with MF/SS, nor with disease progression or HDACi resistance, and were enriched in pathways that regulate apoptosis (BIRC5), cell cycle (RRM2), and chromosome cohesion (CENPH). We also identified a striking number of genes whose products are involved in cell adhesion and migration, including CCR6, LAIR2, VCAM1, and EPCAM. The mRNA of LAIR2, which encodes a receptor protein secreted by activated T cells that binds collagen and prevents binding of the inhibitory receptor LAIR1, was significantly upregulated in MF/SS tumors that were resistant to HDACi therapy and manifested in both skin and peripheral blood. We also detected elevated levels of LAIR2 protein in the plasma of MF/SS patients with progressive disease. Taken together, these studies defined the first epigenome-wide acetylation landscape of HDACi responsive and resistant MF/SS tumors, identified significantly altered patterns of epigenetic regulation and corresponding gene expression in HDACi resistant MF/SS tumors, and connected them to novel pathways of disease progression, particularly in cell adhesion and migration. These findings may represent novel predictive markers for MF/SS progression that are also targets for future therapeutic development.

Project description:DNA methylation profiling in Wild Type (WT), mutant (ddm1) and epiRILs (060-098-202-260-344-480) 1 biological replicate per sample - Bisulfite-seq

Project description:Simple steatosis (SS) and non-alcoholic steatohepatitis (NASH) are subtypes of non-alcoholic fatty liver disease. The difference in pathogenesis between SS and NASH is still not clear. MicroRNAs (miRNAs) are endogenous, non-coding short RNAs that regulate gene expression. The aim of this study was to examine the relationship of miRNA expression profiles with SS and NASH in animal models and humans.

Project description:ss

Project description:Seawater drowning is a leading cause of accidental injury and death, and the resulting acute lung injury (ALI) is a serious clinical syndrome for which there are no effective treatments. This aim is to investigate the potential mechanism of seawater drowning-induced ALI.