Cancer cells fundamentally rewire their electrical properties to drive malignant progression. New computational models reveal how environmental stressors trigger this electrical transformation, creating opportunities for novel bioelectric cancer therapies.
Yale neuroscientists have identified the precise origin of gamma brain waves, tracing them to interactions between the thalamus and cortex. The breakthrough could reshape understanding of neurological disorders and cognitive processing.
For over a hundred years, scientists have been tracking the brain’s rhythmic electrical patterns without fully understanding where they come from or exactly what they do. Now, according to research published in Nature, Yale University neuroscientists have cracked one of neuroscience’s enduring mysteries by pinpointing the origin of gamma waves and linking them directly to behavior.
For the first time, astronomers have detected complex organic molecules frozen in ice beyond the Milky Way. The discovery around a young star in the Large Magellanic Cloud suggests the chemical precursors to life may be widespread throughout the cosmos.
In a breakthrough that expands our understanding of life’s potential throughout the cosmos, astronomers have reportedly detected the frozen building blocks of life circling a newborn star in another galaxy for the first time. The findings, led by NASA astrophysicist Marta SewiĆo and her team, suggest that the chemical ingredients needed for life may be far more widespread and robust than previously understood.
Researchers have uncovered that insects without bones maintain calcium levels through specialized endocrine systems. The discovery in fruit flies reveals striking similarities to vertebrate calcium regulation mechanisms. This breakthrough provides new insights into calcium homeostasis across the animal kingdom.
Scientists have made a groundbreaking discovery that challenges conventional understanding of calcium management in animals without skeletal systems. According to research published in Nature, insects possess sophisticated endocrine systems for calcium regulation that parallel those found in vertebrates, despite their boneless anatomy.
The carbon removal industry is experiencing a significant market correction after years of rapid growth. Multiple companies have shuttered operations or downsized as venture investments decline, signaling the end of the initial hype phase.
The carbon dioxide removal sector is facing a substantial market correction after several years of expansion that produced hundreds of startups, according to recent analysis. Sources indicate that the industry appears to be entering what experts describe as an inevitable clearing-out cycle, moving beyond the initial hype phase into more turbulent business conditions.
Advanced machine learning models can predict secondary cancer risk following radiation therapy with unprecedented accuracy, according to new research. The study identifies radiation dose, patient age, and specific genetic mutations as crucial predictive factors. These findings could revolutionize long-term monitoring for cancer survivors.
Machine learning algorithms are demonstrating remarkable accuracy in predicting which cancer patients might develop secondary cancers following radiation therapy, according to a comprehensive study published in Scientific Reports. The research indicates that random forest, gradient boosting, and support vector machine models achieved approximately 98% accuracy in forecasting secondary cancer risk when properly trained on comprehensive clinical data.
Researchers are harnessing nature’s blueprint for enzyme efficiency through innovative multiscale confinement strategies. These approaches enable programmable biocatalysis that could transform sustainable chemical manufacturing and organic synthesis.
Scientists are revolutionizing enzyme catalysis by implementing multiscale confinement strategies that mimic nature’s highly efficient cellular environments, according to a recent review published in Nature Synthesis. The report states that this innovative approach enables programmable biocatalysis with enhanced performance, stability, and specificity that could transform sustainable chemical manufacturing.
Scientists have engineered artificial photoenzymes that compartmentalize energy transfer catalysis, enabling highly enantioselective photocycloadditions. The system uses strategic triplet quenching to suppress background reactions while maintaining high yields and stereochemical control across diverse substrates.
Researchers have developed a novel approach to enantioselective energy transfer catalysis using compartmentalized triplet photoenzymes, according to a recent study published in Nature Catalysis. The system reportedly addresses longstanding challenges in controlling stereochemistry during photochemical reactions by creating protected environments within engineered protein scaffolds.
A major study reveals cancer patients receiving immune checkpoint inhibitors experienced significantly improved survival when vaccinated with mRNA COVID-19 vaccines. Researchers report vaccinated patients were approximately twice as likely to be alive three years later compared to unvaccinated counterparts. The findings suggest potential dual benefits from widely available vaccines.
Cancer patients undergoing immunotherapy had double the three-year survival rate when they received at least one mRNA COVID-19 vaccine during treatment, according to a new study led by researchers from the University of Texas MD Anderson Cancer Center and the University of Florida’s McKnight Brain Institute. The research suggests commercially available COVID vaccines may provide significant benefits beyond viral protection for immunocompromised patients.
China is rapidly advancing in the quantum technology race that analysts suggest could reshape global power dynamics. Quantum systems promise exponential computing power with potential applications across medicine, finance, and artificial intelligence.
While artificial intelligence dominates technology headlines, the parallel race for quantum technology supremacy could have even greater implications for the global balance of power, according to industry analysts. Sources indicate that although the United States currently maintains leadership in this emerging field, China is closing the technological gap at an accelerated pace.
