— Early sign of Alzheimer's reversed in lab — One of the earliest known impairments caused by Alzheimer's disease - loss of sense of smell - can be restored by removing a plaque-forming protein in a mouse model of the disease,…
— Parental controls on embryonic development? — When a sperm fertilises an egg, each contributes a set of chromosomes to the resulting embryo, which at these very early stages is called a zygote. Early on, zygotic genes are inert,…
— Newly discovered heart stem cells make muscle and bone — Researchers have identified a new and relatively abundant pool of stem cells in the heart. The findings in the December issue of Cell Stem Cell, a Cell Press publication, show that…
— BUSM researchers develop blood test to detect membranous nephropathy — Research conducted by a pair of physicians at Boston University School of Medicine (BUSM) and Boston Medical Centre (BMC) has led to the development of a test that can help diagnose…
— New hip implants no better than traditional implants — New hip implants appear to have no advantage over traditional implants, suggests a review of the evidence published on bmj.com today…
— Action needed to improve men's health in Europe — Policies aimed specifically at men are urgently needed to improve the health of Europe's men, say experts on bmj.com today…
— Probiotics reduce infections for patients in intensive care — Traumatic brain injury is associated with a profound suppression of the patient's ability to fight infection. At the same time the patient also often suffers hyper-inflammation, due…
— High blood sugar levels in older women linked to colorectal cancer — Elevated blood sugar levels are associated with an increased risk of colorectal cancer, according to a study led by researchers at Albert Einstein College of Medicine of Yeshiva University.…
— Engineered botulism toxins could have broader role in medicine — The most poisonous substance on Earth - already used medically in small doses to treat certain nerve disorders and facial wrinkles - could be re-engineered for an expanded role in helping…
Your body recycling itself - captured on film
Our bodies recycle proteins, the fundamental building blocks that enable cell growth and development. Proteins are made up of a chain of amino acids, and scientists have known since the 1980s that first one in the chain determines the lifetime of a protein. McGill researchers have finally discovered how the cell identifies this first amino acid - and caught it on camera.
'There are lots of reasons cells recycle proteins - fasting, which causes loss of muscle, growth and remodelling during development, and normal turnover as old proteins are replaced to make new ones,' explained lead researcher, Dr Kalle Gehring, from McGill's Department of Biochemistry. 'One way that cells decide which proteins to degrade is the presence of a signal known as an N-degron at the start of the protein. By X-ray crystallography, we discovered that the N-degron is recognised by the UBR box, a component of the cells' recycling system.' The powerful technique can pinpoint the exact location of atoms and enabled the team to capture an image of the UBR box, providing insight to this incredibly tiny yet essential part of our bodies' chemical mechanics.
Aside from representing a major advance in our understanding of the life cycle of proteins, the research has important repercussions for Johanson-Blizzard syndrome, a rare disease that causes deformations and mental retardation. This syndrome is caused by a mutation in the UBR box that causes it to lose an essential zinc atom. Better understanding of the structure of the UBR box may help researchers develop treatments for this syndrome.
Or subscribe for our Newsletter, a free e-mail publication. It is published practically every day.
Scientists create energy-burning brown fat in mice
Genome of parasitic flatworm that causes schistosomiasis decoded
MTV survey cranks up the volume on loud music's impact on hearing
New method may accelerate drug discovery for difficult diseases like Parkinson's