In order to survive, organisms must control the pressure inside them, from the single-cell level to tissues and organs. Measuring these pressures in living cells and tissues in physiological conditions is a challenge.
An international team of scientists led by researchers from the Department of Molecular Biosciences, The Wenner-Gren Institute, SciLifeLab, Stockholm University has published in PLoS Pathogens the first successful application of 2-photon intravital microscopy (IVM) to image the dynamics of fungal infections in the kidney of a living host.
Empa researchers are developing a dressing containing probiotic lactobacilli. These are intended to heal chronically infected wounds by destroying persistent biofilms, the scientists report in a study published in the scientific journal Microbes and Infection.
Investigators from Cedars-Sinai have made two important discoveries about fiber and the gut microbiome in patients with human immunodeficiency virus, or HIV.
Microbe-semiconductor biohybrids merge the power of living systems to produce biological products with the ability of semiconductors to harvest light. They use solar energy to convert carbon dioxide into useful chemicals such as bioplastics and biofuels. To better understand how biohybrids work, researchers developed a way to image these biohybrids with single-cell resolution.
Researchers have identified multiple species of bacteria that, when present in the gut, are linked to an increased risk of developing severe malaria in humans and mice. Their findings could lead to the development of new approaches targeting gut bacteria to prevent severe malaria and associated deaths.
Announcing a new article publication for Zoonoses journal. A multi-country cholera outbreak has occurred in several developing countries in Africa, Asia and Oceania since mid-2021.
Researchers report that a single, simplified model can predict population fluctuations in three realms: urban employment, human gut microbiomes, and tropical forests.
A research team from the UC Davis Comprehensive Cancer Center has identified a crucial epitope (a protein section that can activate the larger protein) on the CD95 receptor that can cause cells to die.
ST. LOUIS, MO, October 23, 2023 — Sustainable agricultural practices are necessary to mitigate climate change and produce more food, fiber, and renewable fuels. A promising new frontier in agriculture is to promote beneficial interactions with microbes as a sustainable mechanism of providing nutrients to crops.
Jennifer Wargo, M.D., professor of Surgical Oncology and Genomic Medicine at The University of Texas MD Anderson Cancer Center, has been elected to the National Academy of Medicine (NAM) for her contributions to the understanding of melanoma treatment response and resistance to cancer therapies, including groundbreaking discoveries that reveal how the gut microbiome influences responses to immunotherapy.
RUDN University agronomists and colleagues from Tunisia have discovered a way to stop the spread of a phytopathogenic fungus Botrytis cinerea. It affects crops, especially tomatoes. The Trichoderma fungus and the Pseudomonas bacterium can protect the crop from this pathogen
Significant quantities of microplastic particles are being trapped in riverbed sediments or carried through the air along major river systems, a new study has shown.
Single Cell Protein (SCP) is an alternative and eco-friendly protein source from microorganisms which can be produced by utilizing agro-industrial wastes. SCP presents multiple applications, including animal feed, human food, packaging and is characterized by a rich nutritional profile.
Researchers have shown in a mouse model and lab cultures that a compound derived from hops reduces the abundance of a gut bacterium associated with metabolic syndrome.
The University of Texas MD Anderson Cancer Center’s Research Highlights showcases the latest breakthroughs in cancer care, research and prevention. These advances are made possible through seamless collaboration between MD Anderson’s world-leading clinicians and scientists, bringing discoveries from the lab to the clinic and back.
Berkeley Lab scientists are accelerating and streamlining the process of engineering microbes to produce important compounds with commercial-ready efficiency.
A new filtration process that aims to extend milk’s shelf life can result in a pasteurization-resistant microbacterium passing into fluid milk if equipment isn’t properly cleaned early, Cornell food scientists have found.
An international team of scientists led by microbiologist Alexander Loy from the University of Vienna has discovered a new intestinal microbe that feeds exclusively on taurine and produces the foul-smelling gas hydrogen sulfide.
It is said that there is waste in haste, but researchers from Osaka Metropolitan University have proven that doing things rapidly does not necessarily mean working ineffectively.
Researchers have shown that high concentrations of key proteins in human breast milk, especially osteopontin and κ-casein, are associated with a greater abundance of two species of bacteria in the gut of babies: Clostridium butyricum and Parabacteroides distasonis, known to be beneficial for human health and used as probiotics. These results suggest that proteins in breast milk influence the abundance of beneficial gut microbes in infants, playing an important role in early immune and metabolic development.
Information Microbiome research has revolutionized our understanding of microbial communities and their impact on various scientific disciplines, including environmental protection, disease prevention, and water pollution monitoring.
A research team at the University of Illinois Urbana-Champaign suggests gut microbe communities may be responsible for variation in extracting benefits of broccoli and other brassica vegetables. With a new grant from the USDA’s National Institute of Food and Agriculture, the team plans to identify which microbes maximize the benefits of these vegetables.
Bees that build microbreweries, ride a miniature merry-go-round and possibly even wear diapers. In biologist Tobin Hammer’s UCI lab, all sorts of unusual projects unfold.
Several major childhood allergies may all stem from the community of bacteria living in our gut, according to a new study led by researchers at the University of British Columbia and BC Children’s Hospital.
Loss of habitat and human activities such as fishing and shipping pose a grave threat to wildlife but diseases driven by the smallest organisms in the ocean are a less understood side of marine conservation.
Cooking food thoroughly and avoiding some types of vegetables and salad during a course of antibiotic treatment could potentially reduce antibiotic resistance, by preventing bacteria carrying resistance genes getting into the gut, according to a new study.
Variations in the gut microbiome are linked to the incidence and mortality of diseases. A new study highlights a critical development window during which these differences emerge. The findings are based on analysis of data from 2,756 gut microbiome samples from 729 U.S. children between birth and 12 years of age.
Researchers at Albert Einstein College of Medicine have found that the virus responsible for chikungunya fever can spread directly from cell to cell—perhaps solving the longstanding mystery of how the virus, now emerging as a major health threat, can manage to escape antibodies circulating in the bloodstream.
The findings point to possible mechanisms behind intestinal conditions like Crohn’s disease and ulcerative colitis, and also suggest avenues to develop more effective probiotics.
Routinely cleaning wristbands is generally ignored. New research finds 95 percent of wristbands tested were contaminated. Rubber and plastic wristbands had higher bacterial counts, while gold and silver, had little to no bacteria. Bacteria found were common skin residents of the genera Staphylococcus and Pseudomonas, and intestinal organisms of the genera Escherichia, specifically E. coli. Staphylococcus was prevalent on 85 percent of the wristbands; researchers found Pseudomonas on 30 percent of the wristbands; and they found E. coli bacteria on 60 percent of the wristbands, which most commonly begins infection through fecal-oral transmission.
As Labor Day approaches, many people will go tubing and swimming, but do these delightful summertime activities impact streams and rivers? Today, scientists report that recreation can alter the chemical and microbial fingerprint of waterways. They will present their results at ACS Fall 2023.
Scientists from Italy used high-throughput 16S rRNA amplicon sequencing, which gives a detailed picture of what microbes are present and in what proportions, to understand how microbes make mozzarella.
Using a novel method to detect microbial activity in biological soil crusts, or biocrusts, after they are wetted, a Penn State-led research team in a new study uncovered clues that will lead to a better understanding of the role microbes play in forming a living skin over many semi-arid ecosystems around the world.
Plants have a complex layer of regulation that allows beneficial fungi to colonize their roots while protecting them from harmful ones such as pathogens. Researchers recently identified the underlying plant signaling processes within this layer of regulation that permits a specific beneficial bacteria species to colonize the roots of switchgrass.
An international team led by LMU chronobiologists analyses circadian rhythms in microorganisms – and observes mechanisms that are reminiscent of clocks in more complex organisms.
In a recent study published in the journal of Genes & Diseases, researchers have discovered a compelling link between a specific gut bacterium and the progression of atherosclerosis, a leading cause of cardiovascular diseases, such as heart attack and stroke. The culprit is a microbe known as Desulfovibrio desulfuricans (D. desulfuricans), found to be responsible for increasing intestinal permeability and prompting a potent inflammatory response, contributing to the disease's progression.
Prolonged exposure to UVR is associated with damage to DNA in skin cells, inflammation, and premature skin aging, yet intentional sun-seeking behaviors remain common.
Intensive production can cause immunological stress in commercial broilers, leading to growth retardation and intestinal damage. In this study, multi-omics analyses reveal that chlorogenic acid (CGA) improves the growth performance, intestinal barrier function and immune function of dexamethasone-treated immunologically-stressed broilers by regulating gut microbiota, gut microbiota metabolites and jejunal proteins.