Artificial photosynthesis with engineering of protein crystals in bacteria
In-cell engineering can be a powerful tool for synthesizing functional protein crystals with promising catalytic properties, show researchers at Tokyo Tech. Using genetically modified bacteria as an environmentally friendly synthesis platform, the re.....»»
How a stubborn computer scientist accidentally launched the deep learning boom
"You’ve taken this idea way too far," a mentor told Prof. Fei-Fei Li. During my first semester as a computer science graduate student at Princeton, I took COS 402: Artificial In.....»»
Implementing topologically ordered time crystals on quantum processors
In a new study published in Nature Communications, scientists have implemented the topologically ordered time crystal on a quantum processor for the first time......»»
Industrial companies in Europe targeted with GuLoader
A recent spear-phishing campaign targeting industrial and engineering companies in Europe was aimed at saddling victims with the popular GuLoader downloader and, ultimately, a remote access trojan that would permit attackers to steal information from.....»»
Computational chemistry promises to upset traditional methods of chemical synthesis
The process of discovering and designing new chemicals has always been arduous—Sijia Dong wants to change that. As an assistant professor in the department of chemistry and chemical biology, with affiliations in physics and chemical engineering, Do.....»»
Novel AI framework incorporates experimental data and text-based narratives to accelerate search for new proteins
Harnessing the power of artificial intelligence (AI) and the world's fastest supercomputers, a research team led by the U.S. Department of Energy's (DOE) Argonne National Laboratory has developed an innovative computing framework to speed up the desi.....»»
Artificial receptors made from coronavirus DNA open up new avenues for research
A team of microbiologists and virologists at Wuhan University, working with colleagues from the Chinese Academy of Sciences, the University of Washington and Humabs BioMed SA, has found that it is possible to use coronavirus DNA to create receptors t.....»»
Bioinspired hydrogels harness sunlight: A step closer to artificial photosynthesis
Mimicking how plants convert sunlight into energy has long been a dream for scientists aiming to create renewable energy solutions. Artificial photosynthesis is a process that seeks to replicate nature's method, using sunlight to drive chemical react.....»»
Apple in talks with Foxconn to build Apple Intelligence servers in Taiwan
Apple wants to tap the talent at Foxconn to power its Apple Intelligence servers, though the supplier may already be at capacity.Apple IntelligenceApple has been ramping up efforts for Apple Intelligence, its user-centric suite of artificial intellig.....»»
Scientists find key to engineering water-responsive biopolymers
Scientists at the Advanced Science Research Center at the CUNY Graduate Center (CUNY ASRC) have developed a novel approach to better understand and predict the behaviors of water-responsive materials—solid matter that can change shape by absorbing.....»»
Flow of the future: AI models tackle complex particle drag coefficients
Accurately modeling particle movement through fluids is crucial in fields ranging from chemical engineering to aerospace. The drag coefficient, which influences how particles settle and move in fluid environments, is a core factor in these calculatio.....»»
Enzyme engineering has the potential to drive more sustainable and efficient drug manufacturing
Researchers have found a new way to use biocatalysis to improve the production of critical raw materials required for essential drugs, making the process quicker, more efficient, and environmentally friendly. Biocatalysis is a process that uses enzym.....»»
Bacteria discovery could accelerate mosquito control schemes
Mosquito larvae grow faster if they're exposed to particular bacteria, according to a new study that could help global health programs......»»
Artificial intelligence: A double-edged sword for the environment?
As AI technology progresses, the energy demands of training complex AI models have surged, raising widespread concerns about associated carbon emissions. This rapid growth is fueled by global demand across industries and academia, leading to exponent.....»»
The secrets of baseball"s magic mud: Study quantifies its properties to show it"s not simply a superstition
The unique properties of baseball's famed "magic" mud have never been scientifically quantified—until now. In a paper in Proceedings of the National Academy of Sciences, researchers at the University of Pennsylvania School of Engineering and Applie.....»»
Advanced AI techniques enhance crop leaf disease detection in tropical agriculture
Researchers have made significant progress in the field of artificial intelligence by applying deep learning techniques to automate the detection and classification of crop leaf diseases......»»
Lethal bacteria could be lurking in your garden: Experts fear US spread after 5 deaths
Lethal bacteria could be lurking in your garden: Experts fear US spread after 5 deaths.....»»
Deep sea rocks suggest oxygen can be made without photosynthesis, deepening the mystery of life
Oxygen, the molecule that supports intelligent life as we know it, is largely made by plants. Whether underwater or on land, they do this by photosynthesizing carbon dioxide. However, a recent study demonstrates that oxygen may be produced without th.....»»
Human histones show promise in fighting bacterial infections
Antibiotics have saved millions of lives from infectious diseases and are considered one of the most important discoveries of the 20th century. However, as the use (and abuse) of antibiotics has increased over the years, many bacteria have developed.....»»
Biotech approach enhances nutritional value of black soldier fly larvae
With the rapid increase in the global population, a "protein crisis" is expected in the near future, where the supply of protein will not be able to meet the rising demand......»»
Mathematical model decodes protein interactions to show how condensates form
Biological cells are incredibly complex mixes of proteins, nucleic acids, lipids and carbohydrates. A model developed by two RIKEN researchers helps explain why components of the same type sometimes do and sometimes don't spontaneously come together.....»»