Project description:This study investigates the role of endothelial cell (EC) gene expression in the focal origin of atherosclerosis, particularly in response to local hemodynamics. Differential gene expression was profiled in EC isolated from athero-susceptible and athero-protected regions of the normal pig aorta. Specifically, a region of disturbed flow (DF, the inner aortic arch) was compared to a region of undisturbed flow (UF, descending thoracic aorta). Linearly amplified RNA was used to screen nylon filter arrays of 13,824 human cDNAs.

Project description:Recently, we showed that disturbed flow caused by a partial ligation ofmouse carotid artery rapidly induces atherosclerosis. Analysis of mechanosenstive microRNA in the mouse carotid endothelium. In this study, we examined the microRNAs that respond differentially to blood flow pattern in the mouse carotid endothelium. We surgically induced disturbed blood flow in the left common carotid cartery (LCA) using partial carotid ligation surgery while the right carotid artery was left undisturbed. The hypothesis tested here is that turbulent or disturbed blood flow across the left carotid artery endothelium will affect endothelial genes and microRNAS. Identifying flow-sensitive microRNAs will provide important information about how endothelium responds to d-flow and regulates endothelial function and progression of atherosclerosis. Deter- mining the functional importance of these novel mechanosensitive microRNAS may provide important insights into understanding vascular biology and atherosclerosis.

Project description:Methanotrophs, which help regulate atmospheric levels of methane, are active in diverse natural and man-made environments. This range of habitats and the feast-famine cycles seen by many environmental methanotrophs suggest that methanotrophs dynamically mediate rates of methane oxidation. Global methane budgets require ways to account for this variability in time and space. Functional gene biomarker transcripts are increasingly being studied to inform the dynamics of diverse biogeochemical cycles. Previously, per-cell transcript levels of the methane oxidation biomarker, pmoA, were found to vary quantitatively with respect to methane oxidation rates in model aerobic methanotroph, Methylosinus trichosporium OB3b. In the present study, these trends were explored for two additional aerobic methanotroph pure cultures, Methylocystis parvus OBBP and Methylomicrobium album BG8. At steady-state conditions, per cell pmoA mRNA transcript levels strongly correlated with per cell methane oxidation across the three methanotrophs across many orders of magnitude of activity (R2 = 0.91). Additionally, genome-wide expression data (RNA-seq) were used to explore transcriptomic responses of steady state M. album BG8 cultures to short-term CH4 and O2 limitation. These limitations induced regulation of genes involved in central carbon metabolism (including carbon storage), cell motility, and stress response.

Project description:Active Methanotrophs in tidal mangrove forest soils.

Project description:permafrost and active layer

Project description:Recently, we showed that disturbed flow caused by a partial ligation ofmouse carotid artery rapidly induces atherosclerosis. Analysis of mechanosenstive microRNA in the mouse carotid endothelium. In this study, we examined the microRNAs that respond differentially to blood flow pattern in the mouse carotid endothelium. We surgically induced disturbed blood flow in the left common carotid cartery (LCA) using partial carotid ligation surgery while the right carotid artery was left undisturbed. The hypothesis tested here is that turbulent or disturbed blood flow across the left carotid artery endothelium will affect endothelial genes and microRNAS. Identifying flow-sensitive microRNAs will provide important information about how endothelium responds to d-flow and regulates endothelial function and progression of atherosclerosis. Deter- mining the functional importance of these novel mechanosensitive microRNAS may provide important insights into understanding vascular biology and atherosclerosis. We used 6- to 8-week-old male C57Bl/6 mice (The Jackson Laboratory) according to the approved Institutional Animal Care and Use Committee protocol by Emory University. Mice were subjected to partial carotid ligation surgery under anesthesia. Briefly, 3 of 4 caudal branches of LCA (left external carotid, internal carotid, and occipital artery) were ligated with 6-0 silk suture, although the superior thyroid artery was left intact. Development of low and oscillatory blood flow in the Left Carotid Artery of each mouse was determined by ultrasound measurements.

Project description:We performed microarray transcriptional profiling of rat prefrontal cortex after acute inescapable footshock (FS) stress Samples were collected from rats exposed to FS stress and sacrificed immediately after the 40-minutes stress section and from controls left undisturbed in their cage

Project description:We performed microarray transcriptional profiling of rat prefrontal cortex 24 hours after the beginnig of acute inescapable footshock (FS) stress Samples were collected from rats exposed to FS stress and sacrificed 24 hours after the beginnig of 40-minutes stress section and from controls left undisturbed in their cage

Project description:We performed microarray transcriptional profiling of rat prefrontal cortex 2 hours after the beginnig of acute inescapable footshock (FS) stress Samples were collected from rats exposed to FS stress and sacrificed 2 hours after the beginnig of 40-minutes stress section and from controls left undisturbed in their cage

Project description:Diversity of Phytophthora species detected in disturbed and undisturbed British soils using high-throughput sequencing targeting ITS rRNA regions