Seaports found to be hotspots of contagious cancer in mussels
Seaports act as hubs for the global spread of MtrBTN2, a rare contagious cancer affecting mussels. In this disease, cancer cells can be transmitted, like parasites, from one mussel to another nearby......»»
‘I"m an Oncologist and This Is the Vegetable I Swear by for Cancer Prevention’
‘I"m an Oncologist and This Is the Vegetable I Swear by for Cancer Prevention’.....»»
Q&A: Investigating the remarkable reproductive cycle of Michigan"s threatened mollusks
Michigan is home to 43 species of native freshwater mussels, 30 of which are considered to be at risk of extinction. Among the many factors that threaten the hard-shelled bottom dwellers are competition from invasive zebra and quagga mussels, water p.....»»
Common heartburn medications may help fight cancer and other immune disorders in dogs, researchers find
Researchers at the Texas A&M School of Veterinary Medicine and Biomedical Sciences (VMBS) have discovered that proton pump inhibitors (PPIs)—medications commonly used to treat heartburn and acid reflux in people and animals—may be effective at fi.....»»
Unveiling a novel AAK1 inhibitor: How chemical proteomics unlock therapeutic potential
Enhancing drug development for life-threatening diseases like cancer hinges on a deep understanding of protein kinases, making it a focal point for researchers. These enzymes, encoded by more than 500 human genes, serve as critical players in cellula.....»»
How yeasts manage to compensate for the genetic imbalance of extra chromosomes
Having extra chromosomes is typically an issue for an organism and can disrupt development or cause disease. But some cells benefit instead. For example, cancer cells or pathogenic yeasts can use extra chromosomes to escape treatment and become drug-.....»»
Designing a tiny new tool to map and treat children"s brain cancer
Medulloblastoma is the most common cancerous brain tumor in children, and fighting it requires an approach that is delicate, durable, and direct. Now a group of researchers at UQ's Australian Institute for Bioengineering and Nanotechnology (AIBN) bel.....»»
Study reveals promising development in cancer-fighting nanotechnologies
A new study conducted by the Wilhelm Lab at the University of Oklahoma examines a promising development in biomedical nanoengineering. Published in Advanced Materials, the study explores new findings on the transportation of cancer nanomedicines into.....»»
Using hybrid nanotubes to enhance cancer treatment with intracellular protein delivery
The intracellular delivery of proteins is an important technique for unveiling the cellular functions, protein complex structure, and therapeutics. However, conventional delivery methods have several limitations......»»
Cancer drug pollution is a growing global concern
As incidence of cancer increases globally, the use of cancer drugs is also growing at a rate of approximately 10 percent per year in developed countries......»»
Stiffness and viscosity of cells found to differ in cancer and other diseases
During illness, the stiffness or viscosity of cells can change. Tom Evers demonstrated this by measuring such properties of human immune cells for the first time. "The stiffness of certain cells could be a way to make a diagnosis," Evers said......»»
Researchers discover new family of bacteria with high pharmaceutical potential
Most antibiotics used in human medicine originate from natural products derived from bacteria and other microbes. Novel microorganisms are therefore a promising source of new active compounds, also for the treatment of diseases such as cancer or vira.....»»
Places with more college graduates tend to foster better lifestyle habits overall, research finds
Having more education has long been linked to better individual health. But those benefits are also contagious, say the co-authors of a new working paper......»»
Self-assembled Na-doped zinc oxide for the detection of lung cancer biomarker VOCs at low concentrations
Developing high-performance gas sensors for the detection of lung cancer markers at low concentrations is a crucial step towards achieving early lung cancer monitoring through breath tests. Metal oxide semiconductors (MOS) have long been sensitive to.....»»
New method unravels the mystery of slow electrons
Slow electrons are used in cancer therapy as well as in microelectronics. It is very hard to observe how they behave in solids. But scientists at TU Wien have made this possible......»»
Researchers discover new function of oncoproteins
Researchers at the University of Würzburg have discovered a new function of the oncoprotein MYCN: It not only helps cancer cells to grow stronger, but also makes them more resistant to drugs. The study is published in Molecular Cell......»»
Study sheds light on cancer cell "tug-of-war"
Understanding how cancerous cells spread from a primary tumor is important for any number of reasons, including determining the aggressiveness of the disease itself. The movement of cells into the extracellular matrix (ECM) of neighboring tissue is a.....»»
Laboratory and natural strains of intestinal bacterium turn out to have similar mutational profiles
Understanding mutational processes in a cell offers clues to the evolution of a genome. Most actively, mutation processes are studied in human cancer cells, while other genomes are often neglected......»»
Dogma-challenging telomere findings may offer new insights for cancer treatments
A new study led by University of Pittsburgh and UPMC Hillman Cancer Center researchers shows that an enzyme called PARP1 is involved in repair of telomeres, the lengths of DNA that protect the tips of chromosomes, and that impairing this process can.....»»
Geologists, biologists unearth the atomic fingerprints of cancer
Scientists at the University of Colorado Boulder and Princeton University have, for the first time, employed a tool often used in geology to detect the atomic fingerprints of cancer......»»
Researchers develop a nanoparticle that can penetrate the blood-brain barrier
Researchers at Sylvester Comprehensive Cancer Center at the University of Miami Miller School of Medicine have developed a nanoparticle that can penetrate the blood-brain barrier. Their goal is to kill primary breast cancer tumors and brain metastase.....»»