Culture
Jeremy Edwards, director of the Computational Genomics and Technology (CGaT) Laboratory at The University of New Mexico, and his colleagues at Centrillion Technologies in Palo Alto, Calif. and West Virginia University, have developed a chip that provides a simpler and more rapid method of genome sequencing for viruses like COVID-19.
Boston, MA (April 30, 2021) - A new study, presented today at the AATS 101st Annual Meeting, shows that non-invasive cell-free DNA tests can reduce the need for regular surveillance biopsies to detect early rejection in heart transplant patients. The study was the first of its kind to be performed on both adult and pediatric patients.
Boston, MA (April 30, 2021) - A new study, presented today at the AATS 101st Annual Meeting, found that severely ill COVID-19 patients treated with ECMO did not suffer worse long-term outcomes than other mechanically-ventilated patients. The multidisciplinary team included cardio thoracic surgeons, critical care doctors, medical staff at long-term care facilities, physical therapists and other specialists, and followed patients at five academic centers: University of Colorado; University of Virginia; University of Kentucky; Johns Hopkins University; and Vanderbilt University.
A new study finds Black patients are more likely to die after their heart bypass surgery if they're at a hospital where some care teams see mostly white patients and others see mostly Black patients. On the other hand, mortality rates are comparable between Black and white patients after heart bypass surgery when the teams of health care providers at their hospitals all care for patients of all races.
LA JOLLA--(April 30, 2021) Scientists have known for a while that SARS-CoV-2's distinctive "spike" proteins help the virus infect its host by latching on to healthy cells. Now, a major new study shows that the virus spike proteins (which behave very differently from those safely encoded by vaccines) also play a key role in the disease itself.
While the CRISPR-Cas9 gene editing system has become the poster child for innovation in synthetic biology, it has some major limitations. CRISPR-Cas9 can be programmed to find and cut specific pieces of DNA, but editing the DNA to create desired mutations requires tricking the cell into using a new piece of DNA to repair the break. This bait-and-switch can be complicated to orchestrate, and can even be toxic to cells because Cas9 often cuts unintended, off-target sites as well.
Mitochondria are the energy suppliers of our body cells. These tiny cell components have their own genetic material, which triggers an inflammatory response when released into the interior of the cell. The reasons for the release are not yet known, but some cardiac and neurodegenerative diseases as well as the ageing process are linked to the mitochondrial genome.
Scientists at the University of Nottingham have developed an ultrasonic imaging system, which can be deployed on the tip of a hair-thin optical fibre, and will be insertable into the human body to visualise cell abnormalities in 3D.
The new technology produces microscopic and nanoscopic resolution images that will one day help clinicians to examine cells inhabiting hard-to-reach parts of the body, such as the gastrointestinal tract, and offer more effective diagnoses for diseases ranging from gastric cancer to bacterial meningitis.
Successful navigation requires the ability to separate memories in a context-dependent manner. For example, to find lost keys, one must first remember whether the keys were left in the kitchen or the office. How does the human brain retrieve the contextual memories that drive behavior? J.B. Julian of the Princeton Neuroscience Institute at Princeton University, USA, and Christian F.
The human immune system comprises functionally specialised cellular defence mechanisms that protect the body against disease. These include the dendritic cells. Their main function is to present antigens to other immune cells, especially T cells, thereby activating a primary immune response. Dendritic cells are divided into Type 1 (DC1) and Type 2 (DC2) dendritic cells. Each type fulfils different functions: DC1 provide an immune response to bacteria and viruses, DC2 protect against fungal or parasitic infections.
Researchers at Karolinska Institutet in Sweden have discovered a mechanism through which meningitis-causing bacteria can evade our immune system. In laboratory tests, they found that Streptococcus pneumoniae and Haemophilus influenzae respond to increasing temperatures by producing safeguards that keep them from getting killed. This may prime their defenses against our immune system and increase their chances of survival, the researchers say. The findings are published in the journal PLoS Pathogens.
WASHINGTON, D.C, (April 29, 2021) - An analysis of growth patterns in transcatheter aortic valve replacement (TAVR) programs across United States hospitals is being presented as late-breaking clinical science at the Society for Cardiovascular Angiography& Interventions (SCAI) 2021 Scientific Sessions. The findings indicate that TAVR hospital programs are predominately located in metropolitan areas serving patients with higher socioeconomic status, potentially contributing to the disparities in cardiac care.
Improved Desalination Process Also Removes Toxic Metals to Produce Clean Water
-Adapted from UC Berkeley news release by Bob Sanders
Desalination - the removal of salt - is only one step in the process of producing drinkable water, or water for agriculture or industry, from ocean water or wastewater. Either before or after the removal of salt, the water often has to be treated to remove boron, which is toxic to plants, and heavy metals like arsenic and mercury, which are toxic to humans. Often, the process leaves behind a toxic brine that can be difficult to dispose of.
Lacticaseibacillus rhamnosus GG, or LGG, is the most studied probiotic bacterium in the world. However, its features are not perfect, as it is unable to utilise the milk carbohydrate lactose or break down the milk protein casein. This is why the bacterium grows poorly in milk and why it has to be separately added to probiotic dairy products.
In fact, attempts have been made to make L. rhamnosus GG better adjust to milk through genetic engineering. However, strict restrictions have prevented the use of such modified bacteria in human food.