News by Subject Biology

News Release 4-Aug-2020

Reducing the adverse impact of water loss in cells

A University of Houston College of Medicine researcher has found how a protein inside the body reduces the adverse effects of hypertonicity, an imbalance of water and solutes inside cells, which leads to cell death.

Journal: Proceedings of the National Academy of Sciences

News Release 4-Aug-2020

Researchers create artificial organelles to control cellular behavior

Duke University

Biomedical engineers at Duke University have demonstrated a method for controlling the phase separation of an emerging class of proteins to create artificial membrane-less organelles within human cells. The advance, similar to controlling how vinegar forms droplets within oil, creates opportunities for engineering synthetic structures to modulate existing cell functions or create entirely new behaviors within cells.

Journal: Nature Chemistry
Funder: National Institutes of Health, National Science Foundation

News Release 4-Aug-2020

Easy to overdose on paracetamol if you're selenium deficient, says research

University of Bath

A lack of the mineral selenium in the diet puts people at risk of paracetamol overdose, even when the painkiller is taken at levels claimed to be safe on the packaging, according to collaborative research emerging from the University of Bath and Southwest University in China.

Journal: Antioxidants and Redox Signaling

News Release 4-Aug-2020

Decoy receptor neutralizes coronavirus in cell cultures

University of Illinois at Urbana-Champaign, News Bureau

As the COVID-19 pandemic continues to spread, scientists and health care providers are seeking ways to keep the coronavirus from infecting tissues once they're exposed. A new study suggests luring the virus with a decoy -- an engineered, free-floating receptor protein - binds the virus and blocks infection.

Journal: Science
Funder: National Institutes of Health

News Release 4-Aug-2020

Blood-thinner with no bleeding side-effects is here

Ecole Polytechnique Fédérale de Lausanne

In a study led by EPFL, scientists have developed a synthetic blood-thinner that, unlike all others, doesn't cause bleeding side-effects. The highly potent, highly selective, and highly stable molecule can suppress thrombosis while letting blood clot normally following injury.

Journal: Nature Communications
Funder: Swiss National Science Foundation, NCCR Chemical Biology, Marie Sklodowska-Curie individual fellowship

News Release 3-Aug-2020

Drug discovery: First rational strategy to find molecular glue degraders

CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences

Targeted protein degradation (TPD) represents a novel paradigm in drug discovery that could lead to more efficient medicines to treat diseases such as cancer. "Molecular glue degrader" are an emerging but understudied class of small molecules that have been shown to induce degradation of proteins commonly considered "undruggable". CeMM Researchers have described a strategy that, for the first time, enables the rational and highly scalable discovery of novel molecular glue degraders.

Journal: Nature Chemical Biology
Funder: Austrian Academy of Sciences, the European Research Council (ERC), Austrian Science Fund, Marie Sk?odowska-Curie postdoctoral fellowship

News Release 3-Aug-2020

Diverse amyloid structures and dynamics revealed by high-speed atomic force microscopy

Kanazawa University

Researchers at Kanazawa University report in ACS Nano a high-speed atomic-force microscopy study of the formation of protein fibrils (amyloids) associated with pathologies in collaborated research with Showa University. Mixing different variants of a single protein and changing the acidity of its environment is shown to result in significant variations in amyloid structure and elongation rates.

Journal: ACS Nano
Funder: Brain Science Foundation (Japan), MEXT/JSPS KAKENHI, World Premier International Research Center Initiative (WPI), MEXT, Japan, the Kanazawa University CHOZEN project, Strategic Research Program for Brain Sciences, AMED, Japan

News Release 3-Aug-2020

Light shines on chemical production method

Yokohama National University

A team of researchers from Japan has demonstrated a light-based reaction that yields high numbers of the base chemical component required to produce bioactive compounds used in common industry products. They published their results on June 11, 2020 in Organic Letters.

Journal: Organic Letters
Funder: Ministry of Education Culture Sports Science and Technology Japan, Yokohama National University Japan

News Release 3-Aug-2020

Novel magnetic stirrer speaks to lab equipment

University of Warwick

A small device, called "Smart Stirrer", performed a function of a conventional laboratory stir bar, has an integrated microprocessor and various sensors capable of wireless and autonomous report the conversion of properties of a solution. Results are sent to a computer over Bluetooth, and any changes notify the user wirelessly.

Journal: ACS Sensors

News Release 3-Aug-2020

Mathematical modeling revealed how chitinase, a molecular monorail, obeys a one-way sign

National Institutes of Natural Sciences

A novel mathematical modeling method has been developed to estimate operation models of biomolecular motors from single-molecule imaging data of motion with the Bayesian inference framework. The operation mechanism of a linear molecular motor "chitinase", which moves one-way on a chitin chain with degrading the chain passed by, was elucidated by mathematical modeling of experimental imaging data with the method.

Journal: Journal of Physical Chemistry B
Funder: Interdisciplinary Research Promotion Project of the National Institutes of Natural Sciences,Grant-in-Aid for Scientific Research,Building of Consortia for the Development of Human Resources in Science and Technology of MEXT Japan

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