Individuals within a species vary in complex phenotypes, such as responses to toxins. This drug-response variation causes patients who are treated with the same medicine to experience a range of side effects, ultimately decreasing the efficacy of some drugs. Particular genetic variants among individuals might contribute to differential drug responses,...
The epidemic of obesity and associated metabolic diseases have led to increased scrutiny of adipose tissue and its primary cell type, the adipocyte. However, studies show that regional adipose tissue distribution rather than obesity per se is a major determinant of metabolic disease risk. Despite having an obese body mass...
Inter-organelle contacts facilitate communication between organelles and impact fundamental cellular functions. Investigations into the molecular mechanisms of inter-organelle tethering are still in the early stages, and we are just beginning to appreciate the number and variety of inter-organelle tethers that exist. We have used budding yeast as a model polarized...
When a cell divides, it must assemble a microtubule-based structure called a spindle, which provides the forces that physically segregate the chromosomes. In most cell types the microtubules that comprise the spindle are nucleated and organized by centriole-containing centrosomes. In many species, however, oocyte meiosis is carried out in the...
The literature has established glucokinase (GCK) to be the principal hexokinase (HK) in the liver, operating as a glucose sensor to regulate glucose metabolism and lipid homeostasis. We have recently proposed Hexokinase Domain Containing-1 (HKDC1) to be a novel 5th HK with expression in the liver. Here, we reveal HKDC1...
Biological tubes are essential for animal survival, and their functions are highly dependent on tube shape. Analyzing the contributions of cell shape and organization to the morphogenesis of small tubes has been hampered by the limitations of existing programs in quantifying cell geometry on highly curved tubular surfaces and calculating...
Many human diseases are chronic and ultimately fatal because they damage organs and tissues beyond the body’s normal repair mechanisms. Therefore, there is significant medical interest in developing pharmaceuticals that enhance the body’s natural injury repair mechanisms and engineering organs in the lab for transplantation. However, comparatively little is known...
Cells are complex, autonomous machines that integrate many environmental cues to execute a desired response. Though this property makes cells versatile, it presents significant design challenges when, to treat diseases, we must alter cellular responses. To understand changes to the complex regulatory pathways that cause diseases, studies often investigate the...
Neurodegenerative diseases (NDs) commonly involve the accumulation and aggregation of neurotoxic proteins that impair and ultimately destroy specific neurons. Considerable evidence from human and animal studies indicates that many NDs show disrupted circadian and sleep as symptoms. Yet little is known about the molecular mechanisms by which genes cause NDs...
Spinal cord injury (SCI) is a devastating injury, which can be caused by motor vehicle accidents, violence, and non-traumatic causes. These injuries can leave patients with lifelong paralysis, as well as incontinence and life threatening autonomic dysreflexia. There is currently no FDA approved treatment for SCI. Spinal injury disrupts the...