Modeling the collective movement of bacteria to better understand the formation of troublesome biofilms
Biofilms form when microorganisms such as certain types of bacteria adhere to the surface of objects in a moist environment and begin to reproduce resulting in the excretion of a slimy glue-like substance......»»
City birds found to be carriers of antimicrobial resistant bacteria
Research led by scientists at the Ineos Oxford Institute for antimicrobial research at Oxford University has found that wild birds such as ducks and crows living close to humans, for example in cities, are likely to carry bacteria with antimicrobial.....»»
Newly discovered ability of comammox bacteria could help reduce nitrous oxide emissions in agriculture
An international research team led by the Centre for Microbiology and Environmental Systems Science (CeMESS) at the University of Vienna has discovered that comammox bacteria, first identified by them in 2015, can grow using guanidine, a nitrogen-ric.....»»
Scientist performs the first nonlinear study of black hole mimickers
In recent research, a scientist from Princeton University has performed the first nonlinear study of the merger of a black hole mimicker, aiming to understand the nature of gravitational wave signals emitted by these objects, which could potentially.....»»
A water tracer tool to understand the role of lateral flow in hydrologic simulations
Lateral water movement from ridges to valleys plays a key role in organizing water and energy at the watershed scale. But it has long been neglected in traditional land models......»»
AI, computation, and the folds of life: Supercomputers help train a software tool for the protein modeling community
Form follows function, and this is especially true for life's building blocks—proteins. The folds and shape of molecular proteins reveal their function in supporting life......»»
Starvation and adhesion drive formation of keratinocyte patterns in skin, research reveals
Fingerprints are one of the best-recognized examples of pattern formation by epithelial cells. The primary cells in the epithelium are the keratinocytes, and they are known to form patterns at the microscopic and macroscopic levels. While factors aff.....»»
I tested the Samsung Galaxy Watch 7. Here’s why you shouldn’t ignore it
If you haven't heard much about the Galaxy Watch 7 I understand, but I want to change that because it doesn't deserve to be ignored......»»
Bacteria encode hidden genes outside their genome; do we?
Since the genetic code was first deciphered in the 1960s, our genes have seemed like an open book. By reading and decoding our chromosomes as linear strings of letters, like sentences in a novel, we can identify the genes in our genome and learn why.....»»
Smooth sailing for eggplant: Breakthrough in understanding prickle formation
Scientists have discovered the gene responsible for prickles in eggplants, a trait that complicates farming. Using advanced genetic techniques, they identified the Prickly Eggplant (PE) gene on chromosome 6 and pinpointed SmLOG1 as the key factor......»»
Ancient grains of dust from space can be found on Earth—and provide clues about the life cycle of stars
In space, there are clouds that contain gas and dust ejected from stars. Our solar system was formed 4.6 billion years ago from such a molecular cloud. Most of these dust grains were destroyed during solar system formation. However, a very small amou.....»»
Non-biting midges help us understand how to protect Lake Balaton
What was Lake Balaton like in its natural state, and when did it change? Can its near-natural condition still be restored? These are the questions the researchers from ELTE Science Faculty's Paleoenvironment and Climate Change Research Group sought t.....»»
New study is helping to understand and achieve species elements in the Kunming–Montreal Global Biodiversity Framework
Experts provide clarity on key terms for urgent species recovery actions to support the implementation of the Global Biodiversity Framework......»»
Predicting metabolic potential in bacteria from limited genome data
How bacteria eat food, and what kinds of products they can make from that food, is dictated by the metabolic network of enzyme patterns encoded in their genomes. Using computational methods to learn these patterns across a large number of known bacte.....»»
Swimming trunks: transparent tank shows paddling pachyderms
Paddling with chunky legs and using their trunks as a snorkel, the elephants at Fuji Safari Park in Japan are taking a dip in their summer swimming pool—with each graceful movement visible thanks to a special see-through tank......»»
Model suggests spewing metal nanorods into Mars" atmosphere could warm the planet by 30 K
A small team of engineers and geophysicists from Northwestern University, the University of Chicago, and the University of Central Florida has found, via modeling, that creating millions of metal nanorods from material on the Martian surface and then.....»»
Science is Solving Iceland"s Dangerous Volcanic Mystery
We take you down below Iceland's erupting surface with the researchers who are trying to understand what's going to happen next......»»
Smells may prime our gut to fight off infection
Many organisms react to the smell of deadly pathogens by reflexively avoiding them. But a recent study from the University of California, Berkeley, shows that the nematode C. elegans also reacts to the odor of pathogenic bacteria by preparing its int.....»»
Researchers create new device for on-the-spot water testing
Researchers at University of Galway have developed a new, portable technology for on-the-spot testing of water quality to detect one of the most dangerous types of bacteria......»»
Lasers deliver powerful shocking punch in material experiments
Shock experiments are widely used to understand the mechanical and electronic properties of matter under extreme conditions, like planetary impacts by meteorites. However, after the shock occurs, a clear description of the post-shock thermal state an.....»»
New nasal microbiome: Depriving multi-resistant bugs of iron
A research team led by Simon Heilbronner, Professor of Microbiology at LMU's Biocenter, has investigated how various bacteria that colonize the nasal cavity deal with the lack of iron there and interact with one another......»»