Project description:RNA-seq was performed to examine the overall gene expression in a S. mutans FR strain and to identify potential genes that can mainly contribute to the generation of a fluoride resistance in S. mutans. Using RNA-seq technique, the differentially expressed genes that are implicated in phenotypic changes of the FR strain were studied.

Project description:Transcriptome analysis of Streptococcus mutans fluoride-resistant (FR) strain

Project description:Though fluoride is considered an essential trace element, chronic exposure to fluoride is known to cause toxic effects. Chronic exposure of high concentration of fluoride may leads to fluorosis. To understand the molecular mechanism of fluoride induced toxicity gene expression profiling was performed on osteosarcoma cells (HOS). Cells were exposed to sub-lethal concentration of fluoride (8 ppm) for 30 days. Our result demonstrates that fluoride alters multiple biological pathways including bone development, osteoblast differentiation and apoptotic pathways.

Project description:Though fluoride is considered an essential trace element, chronic exposure to fluoride is known to cause toxic effects. Chronic exposure of high concentration of fluoride may leads to fluorosis. To understand the molecular mechanism of fluoride induced toxicity gene expression profiling was performed on osteosarcoma cells (HOS). Cells were exposed to sub-lethal concentration of fluoride (8 ppm) for 30 days. Our result demonstrates that fluoride alters multiple biological pathways including bone development, osteoblast differentiation and apoptotic pathways. HOS cells grown in MEM were treated with fluoride and total RNA was isolated from cells after 30 days exposure. Three replicates per group were used for the experiment.

Project description:Purpose: The goal of this study was to identify the differentially expressed genes (DEGs) in the fluoride susceptible indica rice cultivar IR-64 in response to prolonged fluoride stress. The genes exhibiting high significance of relative expression were further analyzed by RT-PCR. Results: De novo transcriptome assembly by Trinity v2.8.3 led to the identification of 158411 transcripts. The Percent GC was 49.67, contig N50 was 1327, Median contig length was 422, average contig was 768.66 and total assembled bases were 121764099. After refinement and open reading frame detection with TransDecoder 70578 transcripts were retained. Among them, 68009 transcripts had at least one hit from Uniref100, Uniprot or Pfam. Differential expression analysis identified 1303 genes to be overexpressed and 93 genes to be down regulated in response to fluoride stress. After filtering, the transcripts with absolute log2 fold change 2 or more and p-value < 0.05 were considered as significantly differentially expressed. A total of 1396 transcripts with differential expression (majority overexpressed and some down regulated) were considered for further analysis. Next, PCR analysis with gene-specific primers was performed with some of the significant DEGs associated with transport, cytoskeletal organization and signaling to identify the genes/transcripts that are involved in stress

Project description:Fluoride is a highly abundant, naturally occurring toxicant that causes oxidative stress, cell cycle arrest, and apoptosis at high concentrations. Our lab has created a fluoride-sensitized yeast model lacking fluoride exporters, FEX1 and FEX2. These yeast undergo cell cycle arrest and apoptosis at over 1000-fold less fluoride concentration than in wild type, and oxidative stress within four hours. To determine the mechanism by which fluoride triggers oxidative stress, we grew cells in 25 mL YPD media at starting O.D. 0.1 in +/- 50 uM NaF. After four hours, the cells were washed twice with sterile water, and RNA was harvested and treated with DNAse. RNA was then sent to the the Yale Center for Genome Analysis for quality analysis with a Bioanalyzer and subsequent poly-A sequencing.

Project description:Microarray study revealed 1324 genes that were up-regulated and 1550 genes that were down-regulated more than 1.5 fold change (corrected p<0.05) in MC3T3-E1-derived-mature Osteoblasts compared to control MC3T3-E1.

Project description:The deleterious fluoride ions, which released from fluoride in uranium during its bioleaching, strongly influenced microbial growth, energy intake, enzyme activity and relative metabolism. Whole-genome microarrays were used to obtain a comprehensive description of the molecular response by A. ferrooxidans ATCC 23270 at 4.8 mM fluoride stress.

Project description:The deleterious fluoride ions, which released from fluoride in uranium during its bioleaching, strongly influenced microbial growth, energy intake, enzyme activity and relative metabolism. Whole-genome microarrays were used to obtain a comprehensive description of the molecular response by A. ferrooxidans ATCC 23270 at 4.8 mM fluoride stress. The experimental group was introduced 4mM fluoride at the mid-log phase. RNA from control samples were compared to the experimental samples taken at 10, 30, 60, 120 and 240 min after fluoride added. It was used to analyze the genome-wide expression profiling at different time after fluoride was introduced.

Project description:Previously characterized ameloblast-lineage cells were used in this study to determine whether micromolar levels of fluoride could be directly affect these cells. Keywords: substance response