Repairing altered novel brain circuit could tackle coinciding obesity and depression
Study reveals key regulatory mechanism for coinciding obesity and mental disorders and suggests the possibility of pharmacological treatment.
Read More
Research
Gene Rev-erb in the brain sets the rhythm of the liver’s response to insulin
The findings support that an altered daily rhythm of expression of the Rev-erb gene in the brain may underlie dawn phenomenon in diabetes.
Read More
Image of the Month: Bovine endothelial cells dividing
The image is an example of the cutting-edge imaging and image analysis tools offered by Baylor’s Optical Imaging & Vital Microscopy Core.
Read More
What has COVID-19 taught us about disaster research and prevention?
Health experts from the U.S. and France hosted the COVID-19 Disaster Research and Prevention Symposium to share what they have learned during the pandemic.
Read More
NANOS2 and failed sperm development linked to testicular cancer
NANOS2-deficient germ cells failed to mature into sperm, remained pluripotent and were more likely to transform into embryonic cancer cells.
Read More
The bone microenvironment ‘empowers’ cancer cells to become metastatic
The bone microenvironment prompts changes in breast cancer cells that help them escape treatment and become more invasive.
Read More
The Cardiovascular Research Institute 8th Annual Symposium
Review the symposium highlights, visit the virtual poster session and meet the winners of the first Dr. Mark L. Entman Award for Excellence in Cardiovascular Education.
Read More
Novel marker identifies cells that generate new neurons throughout life
Membrane-bound BASP-1 protein is a possible biomarker of neural stem cells that would allow the study of adult human neurogenesis.
Read More
In a cell-eat-cell world calcium ions regulate exposure of ‘eat-me’ signal in necrotic cells
New insights into the process of necrosis suggest that modulating the ‘eat-me’ signal may help reduce the toxic effects of cell death.
Read More
Image of the Month: Brain of a mouse model of Huntington’s Disease
This confocal microscopy image shows a section of the brain of a mouse model of Huntington’s disease, with the astrocytes in green and cell nuclei in blue.
Read More