News by Subject Biology

News Release 15-Jan-2021

CHOP researchers Find NTRK fusions more common than expected in pediatric tumors

Children's Hospital of Philadelphia
Research News Release

Researchers from Children's Hospital of Philadelphia (CHOP) have found that NTRK fusions are more common in pediatric tumors and also involve a wider range of tumors than adult cancers, information that could help prioritize screening for NTRK fusions in pediatric cancer patients who might benefit from treatment with TRK inhibitors.

Journal: JCO Precision Oncology
Funder: National Institutes of Health

News Release 14-Jan-2021

Snakes evolve a magnetic way to be resistant to venom

University of Queensland
Research News Release

Certain snakes have evolved a unique genetic trick to avoid being eaten by venomous snakes, according to University of Queensland research. Associate Professor Bryan Fry from UQ's Toxin Evolution Lab said the technique worked in a manner similar to the way two sides of a magnet repel each other.

Journal: Proceedings of the Royal Society B

News Release 14-Jan-2021

Scientists uncover new path toward treating a rare but deadly neurologic condition

Massachusetts General Hospital
Research News Release

Molybdenum cofactor (Moco) is a compound that is little known but is essential for life. Children born without the ability to synthesize Moco die young. It has not been possible to create Moco supplements because the compound is so unstable. Studies in the nematode Caenorhabditis elegans suggest that by combining, Moco with certain proteins, it becomes stable and can repair deficiency.

Journal: Genes & Development
Funder: National Institutes of Health, DFG, Damon Runyon Fellowship

News Release 14-Jan-2021

Research breaks new ground in understanding how a molecular motor generates force

University of Massachusetts Amherst
Research News Release

A team of biophysicists set out to tackle the long-standing question about the nature of force generation by myosin, the molecular motor responsible for muscle contraction. The key question they addressed - one of the most controversial topics in the field - was: how does myosin convert chemical energy, in the form of ATP, into mechanical work? The answer revealed new details into how myosin, the engine of muscle and related motor proteins, transduces energy.

Journal: Journal of Biological Chemistry

News Release 14-Jan-2021

Toadlet peptide transforms into a deadly weapon against bacteria

European Molecular Biology Laboratory
Research News Release

Researchers at the Technion - Israel Institute of Technology and the European Molecular Biology Laboratory in Hamburg have discovered remarkable molecular properties of an antimicrobial peptide from the skin of the Australian toadlet. The discovery could inspire the development of novel synthetic drugs to combat bacterial infections

Journal: PNAS

News Release 14-Jan-2021

The regulatory network of sugar and organic acid in watermelon fruit is revealed

Nanjing Agricultural University The Academy of Science
Research News Release

The innovation project watermelon and melon cultivation and physiology team of Zhengzhou Fruit Research Institute has made new progress in the metabolism regulation of sugar and organic acid in watermelon fruit.

Journal: Horticulture Research

News Release 14-Jan-2021

Not as simple as thought: How bacteria form membrane vesicles

University of Tsukuba
Research News Release

Researchers from the University of Tsukuba identified a novel mechanism by which bacteria form membrane vesicles, which bacteria employ to communicate with each other or to defend themselves against antibiotics. By studying mycolic acid-containing bacteria (MCB), which also includes tuberculosis-causing bacteria, the researchers demonstrated that environmental stimuli dictate the route by which the MCB form membrane vesicles. Further, their observations were consistent among various MCB. This study has implications for vaccine development as well as novel therapies.

Journal: iScience

News Release 14-Jan-2021

MicroRNA may serve as therapeutic targets for traumatic brain injury

Walter Reed Army Institute of Research
Research News Release

WRAIR scientists have shown that traumatic brain injury causes coordinated microRNA dysregulation followed by increased amounts of the beta-site amyloid cleaving enzyme, or BACE1, and loss of amyloid precursor protein. BACE-1 cleaves APP to generate amyloid beta peptides, a hallmark of neurodegenerative disease pathology and brain cells loss, which are the focus of several clinical trials for Alzheimer's disease. Future research will characterize the direct role of miRNAs and their relationship to BACE1 within TBI.

Journal: Frontiers in Neuroscience
Funder: Combat Casualty Care Research Programs

News Release 14-Jan-2021

How plants produce defensive toxins without harming themselves

Max Planck Institute for Chemical Ecology
Research News Release

Scientists from the Max Planck Institute for Chemical Ecology in Jena and the University of Muenster, Germany, describe the biosynthesis and exact mode of action of diterpene glycosides in wild tobacco. These antiherbivory compounds attack the cell membrane. To protect themselves from their own toxins, tobacco plants store them in a non-toxic form. Autotoxicity and the protection against it seem to play a greater role in the evolution of plant defenses than previously thought.

Journal: Science
Funder: Max Planck Society, University of Muenster, European Research Council, Deutsche Forschungsgemeinschaft

News Release 13-Jan-2021

New insights into pancreatitis

Flinders University
Research News Release

Acute Pancreatitis (AP) is one of the most common diseases around the world. Associated with a considerable risk of morbidity and even death in patients who suffer a severe form of the disease, to date there is no specific treatment for it. Now international AP experts have published a roadmap in the journal Gut (BMJ) pinpointing the two most significant thresholds in the disease that could serve as a starting point for targeting treatment strategies for this extremely painful condition.

Journal: Pancreatology
Funder: UO1, DoD, National Research, Development and Innovation Office project grants (VV and PH), GINOP STAY ALIVE

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