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Full-Text Articles in Life Sciences
Disruption Of Daily Rhythms By High-Fat Diet Is Reversible, Katrina L. Branecky, Kevin D. Niswender, Julie S. Pendergast
Disruption Of Daily Rhythms By High-Fat Diet Is Reversible, Katrina L. Branecky, Kevin D. Niswender, Julie S. Pendergast
Biology Faculty Publications
In mammals a network of circadian clocks coordinates behavior and physiology with 24-h environmental cycles. Consumption of high-fat diet disrupts this temporal coordination by advancing the phase of the liver molecular clock and altering daily rhythms of eating behavior and locomotor activity. In this study we sought to determine whether these effects of high-fat diet on circadian rhythms were reversible. We chronically fed mice high-fat diet and then returned them to low-fat chow diet. We found that the phase of the liver PERIOD2::LUCIFERASE rhythm was advanced (by 4h) and the daily rhythms of eating behavior and locomotor activity were altered …
Kidney-Specific Reduction Of Oxidative Phosphorylation Genes Derived From Spontaneously Hypertensive Rat, Jason A. Collett, Jiffin K. Paulose, Vincent M. Cassone, Jeffrey L. Osborn
Kidney-Specific Reduction Of Oxidative Phosphorylation Genes Derived From Spontaneously Hypertensive Rat, Jason A. Collett, Jiffin K. Paulose, Vincent M. Cassone, Jeffrey L. Osborn
Biology Faculty Publications
Mitochondrial (Mt) dysfunction contributes to the pathophysiology of renal function and promotes cardiovascular disease such as hypertension. We hypothesize that renal Mt-genes derived from female spontaneously hypertensive rats (SHR) that exhibit hypertension have reduced expression specific to kidney cortex. After breeding a female Okamoto-Aoki SHR (SAP = 188mmHg) with Brown Norway (BN) males (SAP = 100 and 104 mmHg), hypertensive female progeny were backcrossed with founder BN for 5 consecutive generations in order to maintain the SHR mitochondrial genome in offspring that contain over increasing BN nuclear genome. Mt-protein coding genes (13 total) and nuclear transcription factors mediating Mt-gene transcription …
The Sea Lamprey Meiotic Map Improves Resolution Of Ancient Vertebrate Genome Duplications, Jeramiah James Smith, Melissa C. Keinath
The Sea Lamprey Meiotic Map Improves Resolution Of Ancient Vertebrate Genome Duplications, Jeramiah James Smith, Melissa C. Keinath
Biology Faculty Publications
It is generally accepted that many genes present in vertebrate genomes owe their origin to two whole-genome duplications that occurred deep in the ancestry of the vertebrate lineage. However, details regarding the timing and outcome of these duplications are not well resolved. We present high-density meiotic and comparative genomic maps for the sea lamprey (Petromyzon marinus), a representative of an ancient lineage that diverged from all other vertebrates ~550 million years ago. Linkage analyses yielded a total of 95 linkage groups, similar to the estimated number of germline chromosomes (1n ~ 99), spanning a total of 5570.25 cM. …