Catabolic processes in cells: Controlling the danger within
Trillions of cells in our body work non-stop to keep us alive. This generates waste that is decomposed in specialized cellular organs. But what happens if the cellular trash cans don't work? Researchers assume that this is the cause of numerous disea.....»»
New approach uses "cloaked" proteins to deliver cancer-killing therapeutics into cells
An interdisciplinary collaboration has designed a way to "cloak" proteins so that they can be captured by lipid nanoparticles, which are akin to tiny bubbles of fat. These bubbles are small enough to sneak their hidden cargo into living cells, where.....»»
A change of direction: Research reveals a new method to manipulate cell movement in embryos
As embryos grow from conception to birth, cells multiply rapidly and move in a highly organized manner to create the skeleton, organs and other crucial systems. But how do cells know to move in precisely the right direction at the right time to creat.....»»
5 action movie characters I’d hire to be my bodyguard
When your life is in danger, which cinematic heroes would you call on for help? Here are five action movie characters I'd hire to be my bodyguard......»»
Slow Response to Bird Flu in Cows Worries Scientists
The H5N1 virus is a long way from becoming adapted to humans, but limited testing and tracking mean we could miss danger signs.....»»
Are the Microplastics Found in Testicles a Health Danger?
Evidence shows microplastics can end up in many different organs and may harm reproductive health.....»»
Researchers reveal how acetylation regulates centromere dynamics, chromosome segregation and mitotic progression
Cell division produces new cells, which underpin life proliferation and development. Mitosis is the shortest and the most dynamic phase of the cell cycle. During mitosis, chromosomes are evenly distributed between the two daughter cells, preserving t.....»»
New study offers a cleaner path for controlling water, transforming greenhouse gases
Scientists looking to convert carbon dioxide into clean fuels and useful chemicals often make hydrogen gas and carbonates as unwanted byproducts. A new paper from the UChicago Pritzker School of Molecular Engineering has found a cleaner path......»»
Observing mammalian cells with superfast soft X-rays
Researchers have developed a new technique to view living mammalian cells. The team used a powerful laser, called a soft X-ray free electron laser, to emit ultrafast pulses of illumination at the speed of femtoseconds, or quadrillionths of a second......»»
Droplets that swim toward dissolution could inspire fluid microbots
Researchers discovered that microscopic liquid droplets swim toward solvent conditions that favor their dissolution. This mechanism may underlie some transport processes within living cells, and could be exploited to develop fluid micro robots......»»
Deciphering how crystals form in non-classical ways
Soft and organic crystals are a diverse group of materials with connections to biological, environmental, and industrial processes with a wide range of applications, from pharmaceuticals to flexible electronics. Understanding the details of their cry.....»»
New resource pinpoints inner workings of sorghum plant cells for designing better bioenergy feedstock
Bioenergy sorghum is an important resource for the production of biofuels and bioproducts and a critical component of a sustainable agricultural future. Researchers have been working hard to make this tall, drought-tolerant plant even more productive.....»»
Unlocking complex sulfur molecules: A novel approach for synthesis of functionalized benzenethiol equivalents
Organosulfur compounds, organic compounds containing sulfur, are vital in biological processes and research fields like pharmaceuticals, biomedical imaging, agriculture, and electronics. Compounds like phenothiazine, thianthrene and thienothiophene,.....»»
New insights into the interaction of femtosecond lasers with living tissue
Nonlinear light microscopy has revolutionized our ability to observe and understand complex biological processes. However, light can also damage living matter. Yet, the mechanism behind the irreversible perturbation of cellular processes by intense l.....»»
Redwood partners with GM joint venture Ultium to recycle battery scrap
Production scrap from cell factories in Ohio and Tennessee will be recycled. Enlarge / These minerals were once part of lithium-ion battery cells and will be once again. (credit: Redwood Materials) Battery recycling comp.....»»
Redwood to recycle battery materials from Ultium Cells
Ultium Cells will send about 10,000 tons of scrap to Redwood. That's on top of the more than 40,000 tons of scrap Redwood already recycles annually......»»
Scientists develop novel approach to interrogate tissue-specific protein–protein interactions
Multicellular organisms, like animals and plants, have complex cells with diverse functions. This complexity arises from the need for cells to produce distinct proteins that interact with each other. This interaction is crucial for cells to carry out.....»»
Proteins modified in lungs offer clues to biological functions of bromine
Researchers at the Center for Research on Redox Processes in Biomedicine (Redoxome) in Brazil have identified extracellular matrix proteins modified by the action of hypobromous acid in normal and fibrotic lung tissues, suggesting a possible physiolo.....»»
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-.....»»
Repurposed protease controls important signaling molecule-activating protein
Efficient communication between cells is vital for many biological processes, such as recruiting immune cells to combat disease. The rapid release of at least 80 signaling molecules, including tumor necrosis factor and epidermal growth factor, is con.....»»
New technique enables successful cultivation of stem cells on the surface of ionic liquids
The National Institute for Materials Science (NIMS) has established a technique for cultivating human mesenchymal stem cells, widely used in regenerative medicine, on the surface of an ionic liquid......»»