Project description:Comparative transcriptomic analysis of A549 cell after H5N1 infection alone and H5N1 infection with PM10 exposure respectively

Project description:This study aimed to shed light on the gene regulatory networks underlying plant leaf responses to air particulate matter. Our investigation focused on autochthonous shrubs of laurel (Laurus nobilis L.) grown in pots located in two contrasting areas: a highly polluted traffic road and rural countryside within the same town (Altopascio, Lucca, Italy). RNA-seq data were related to leaf morphological traits and air particulate matter, allowing to identify key players in modulating the capabilities of plants to phyllo-remediate high air particulate matter levels in urban environment.

Project description:Here we used next generation sequencing (NGS), to determine the transcriptional profile of blood cells exposed to particulate matter to contribute to the clarification of the importance of deregulated molecules in the molecular pathways involved in the inflammation. For this, blood cells from six adult healthy donors were treated with particulate matter.

Project description:suspended particulate matter Raw sequence reads

Project description:This study aimed to shed light on the gene regulatory networks underlying plant leaf responses to air particulate matter. Our investigation focused on shrubs of Photinia x fraseri grown in pots located in two contrasting areas: a highly polluted traffic road and rural countryside within the same town (Altopascio, Lucca, Italy). RNA-seq data were related to leaf morphological traitsand air particulate matter, allowing to identify key players in modulating the capabilities of plants to phyllo-remediate high air particulate matter levels in urban environment.

Project description:Open tenotomy of the Achilles tendon of 6 rats was performed. The animals were divided into two groups according to exposure of PM2.5 (particulate matter less than 2.5 µm): control group (Non-PM group) or PM exposure group (PM group). After 6 weeks of PM exposure, the tendon RNA was extracted and anlyzed.

Project description:Open tenotomy of the Achilles tendon of 6 rats was performed. The animals were divided into two groups according to exposure of PM2.5 (particulate matter less than 2.5 µm): control group (Non-PM group) or PM exposure group (PM group). After 6 weeks of PM exposure, the tendon DNA was extracted and anlyzed. Genome-wide DNA methylation profiles were determinen. DNA amplicons were prepared using Differential Methylation Hybridization (DMH) method, subsequently hybridized on to the Customized Agilent Rat CpG island Microarray. The goal was to unravel the DNA methylation patterns in different subgropus of tendon tissue according to partciulate matter exposure.

Project description:Purpose: Determine the mechanism of particulate matter-induced signaling in melanocytes. Method: Primary human epidermal melanocytes were treated with particulate matter (5 μg/cm2) and incubated for 24 h. Total RNA (1 ug) from melanocytes were extracted and subjected to library synthesis. Results: Particulate matter-treated melanocytes exhibited upregulation of ER stress, unfolded protein response, and melanogenesis-related molecules. Conclusion: Particulate matter-induced melanocyte signaling was well evaluated using RNA sequencing.

Project description:Urban particulate matter (UPM) is known to be a risk factor for respiratory and cardiovascular diseases, but recent studies report that UPM exposure is associated with the development of brain disorders. In this study, we performed bioinformatic analysis to elucidate the molecular mechanisms of the effects of UPM exposure on the brain.

Project description:We report the biological effect of particulate matter on ferret lung epithelial cells with different concentration 500 ug/mL and 250 ug/mL. Treatment time is 48 h.