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Categories: Biology: Molecular, Energy: Nuclear
Published Scientists harness flower 'super power' to pave the way for new drug treatments



Researchers have developed a way of joining up the head and tail of a protein, making it more stable and easier to get into cells.
Published Scientist discovers potential brain link between stress, emotional eating



Scientists describe how they identified a molecule that may trigger over-consumption of comfort foods after a threatening event.
Published New clues into the head-scratching mystery of itch



Scientists show for the first time that bacteria can cause itch by activating nerve cells in the skin. The findings can inform new therapies to treat itch that occurs in inflammatory skin conditions like eczema and dermatitis.
Published Revolutionary breakthrough in the manufacture of photovoltaic cells



Engineers have achieved a world first by manufacturing the first back-contact micrometric photovoltaic cells.
Published Nutrient found in beef and dairy improves immune response to cancer



Trans-vaccenic acid (TVA), a long-chain fatty acid found in meat and dairy products from grazing animals such as cows and sheep, improves the ability of CD8+ T cells to infiltrate tumors and kill cancer cells, according to a new study.
Published Team discovers rules for breaking into Pseudomonas



Researchers report that they have found a way to get antibacterial drugs through the nearly impenetrable outer membrane of Pseudomonas aeruginosa, a bacterium that -- once it infects a person -- is notoriously difficult to treat.
Published Laser-powered 'tweezers' reveal universal mechanism viruses use to package up DNA



Researchers have used laser-powered ‘optical tweezers’ to reveal a universal motor mechanism used by viruses for packaging their DNA into infectious particles.
Published Unearthing how a carnivorous fungus traps and digests worms



A new analysis sheds light on the molecular processes involved when a carnivorous species of fungus known as Arthrobotrys oligospora senses, traps and consumes a worm.
Published Coffee grounds may hold key to preventing neurodegenerative diseases



A team of researchers found that caffeic-acid based Carbon Quantum Dots (CACQDs), which can be derived from spent coffee grounds, have the potential to protect brain cells from the damage caused by several neurodegenerative diseases.
Published Heart repair via neuroimmune crosstalk



Unlike humans, zebrafish can completely regenerate their hearts after injury. They owe this ability to the interaction between their nervous and immune systems, as researchers now report.
Published New method to help with analysis of single cell data



CITE-seq (cellular indexing of transcriptomes and epitopes) is an RNA sequencing-based method that simultaneously quantifies cell surface protein and transcriptomic data within a single cell readout. The ability to study cells concurrently offers unprecedented insights into new cell types, disease states or other conditions. While CITE-seq solves the problem of detecting a limited number of proteins while using single-cell sequencing in an unbiased way, one of its limitations is the high levels of background noise that can hinder analysis.
Published Genomic tug of war could boost cancer therapy



Researchers have discovered a 'genomic tug of war' in animal studies that could influence how well certain patients -- or certain cancers -- respond to decitabine, a drug used to treat myelodysplastic syndromes that is plagued by drug resistance issues. For the first time, researchers show that decitabine causes coding and non-coding regions of DNA to engage in a tug of war for a gene activator, called H2A.Z. Typically, deticabine draws this gene activator away from coding DNA, causing gene expression to grind to a halt and cells to die. However, many types of cancer have very high levels of H2A.Z, which may help them overcome this decitabine-induced tug of war, allowing the cancer to grow.
Published How cell identity is preserved when cells divide



A new theoretical model helps explain how epigenetic memories, encoded in chemical modifications of chromatin, are passed from generation to generation. Within each cell's nucleus, researchers suggest, the 3D folding patterns of its genome determines which parts of the genome will be marked by these chemical modifications.
Published Much more than waste: Tiny vesicles exchange genetic information between cells in the sea



Researchers take a look at data that has so far been mostly discarded as contamination, revealing the previously underestimated role of extracellular vesicles (EVs). These are important for the exchange of genetic information between cells and thus for the microbial community in the sea.
Published Hormones have the potential to treat liver fibrosis



Researchers have discovered previously unknown changes in a specific type of liver cells, potentially opening avenues for a new treatment for liver fibrosis, a potentially life-threatening condition. Currently, there are no drugs available to treat liver fibrosis.
Published Nuclear expansion failure shows simulations require change



A team of researchers looked back at a model that predicted nuclear power would expand dramatically in order to assess the efficacy of energy policies implemented today.
Published How bacteria recognize viral invasion and activate immune defenses



Bacteria have an array of strategies to counter viral invasion, but how they first spot a stranger in their midst has long been a mystery.
Published A novel system for slip prevention of unmanned rovers



Planetary rovers, which help humanity explore other planets, can deviate from their targeted paths or get stuck due to slipping on loose soil. To combat this problem, researchers have developed a novel system for rovers to detect their slip condition from the change in the shape of their chassis. This novel technology, inspired by human muscles, can lead to advanced sensing technologies that make travel safer for unmanned vehicles.
Published Colliding ribosomes activate RNA repair



Researchers discover how ribosomes contribute to the recognition and removal of RNA crosslinking damage.
Published Novel C. diff structures are required for infection, offer new therapeutic targets



Newly discovered iron storage 'ferrosomes' inside the bacterium C. diff -- the leading cause of hospital-acquired infections -- are important for infection in an animal model and could offer new targets for antibacterial drugs. They also represent a rare demonstration of a membrane-bound structure inside a pathogenic bacterium, upsetting the biological dogma that bacteria do not contain organelles.