Making a meal of DNA in the seafloor
Specialized bacteria in the oceans seafloor consume and recycle nucleic acids from dead biomass
2021-06-14
(Press-News.org) DNA is an abundant and nutritious food source for microbes
The diet of microbes is vast: They are able to use different molecules as nutrients, including biomolecules such as proteins and lipids of dead and decaying organisms. This includes so called extracellular DNA molecules which are not or no longer present in intact cells. "From the bacteria's perspective DNA is particularly nutritious," says Kenneth Wasmund, a microbiologist at the Centre for Microbiology and Environmental Systems Science (CMESS) at the University of Vienna and lead author of the study. "It's essentially a fertilizer. After all, it is a chain of millions of pieces of sugar and phosphorus- and nitrogen-containing bases." Extracellular DNA is common in the environment because when any organism dies, its contents, including DNA, are released into the environment. The microbes that degrade such abundant biomolecules are critical for global biogeochemical cycles as they recycle organic material settling from ocean waters, thereby also influencing how much carbon ultimately remains in the ocean floor. Yet, not all microbes are capable of using DNA as a nutrient.
Marine sediments are a massive habitat for undescribed microbes
The muddy sediments of the sea floor are a massive global habitat for these ecologically important microorganisms; after all, our oceans cover more than 70 percent of the earth's surface. Thousands of microbial species live here, most of which are still largely unknown. "Our study identifies some of these microbial players and reveals their lifestyles. At the same time, it tells us something about what happens to the vast amounts of DNA that are constantly released into the environment but do not accumulate anywhere and, accordingly, are obviously somehow being recycled," Kenneth Wasmund explains. Previous research has shown that microorganisms grown in the laboratory might use DNA as an energy source. "Our research has now focused on microbes that actually live and actively function in the seafloor, while using DNA as a food source," he adds.
Deciphering bacteria that use DNA for food by functional microbiome analyses
To this end, colleagues from the University of Calgary in Canada collected samples from the seafloor in the Baffin Bay, a marginal sea of the Atlantic Ocean between Greenland and Canada. To identify and characterise DNA-foraging microbes in these samples, the research team used an array of experimental, analytical, and bioinformatic methods. "In this collaboration of all four divisions at CMESS, we made full use of the excellent research infrastructure and unleashed the full expertise for functional microbiome analyses that is present at our Centre," says Alexander Loy, head of the research group at the University of Vienna.
In laboratory incubations, the researchers fed purified DNA that was isotopically-labelled with heavy carbon atoms (13C) to the sediment bacteria. Using stable isotope probing, including a specific isotope imaging technique, they were then able to track the heavy carbon and as a result could see which bacteria degraded the labelled DNA. In addition, the scientists reconstructed the genetic information present in the cells, i.e. the genomes, of the DNA-eating microorganisms to learn about their functional potential and distribution in the world's oceans.
Novel DNA-eating bacteria in the seafloor
The metagenomic analysis showed that the bacteria were equipped with DNA-degrading enzymes that enable them to chop-up DNA into small pieces to help them take it up and consume it. One bacterial species stood out as it had a particularly sophisticated set of tools for degrading DNA. Their appetite for DNA, also called nucleic acid, is now borne in their name: The research team named them Izemoplasma acidinucleici.
INFORMATION:
Publication in Nature Microbiology:
Wasmund K, Pelikan C, Schintlmeister A, Wagner M, Watzka M, Richter A, Bhatnagar S, Noel A, Hubert C, Rattei T, Hoffman T, Herbold C, Hausmann B, Loy A. (2021). Genomic insights into diverse bacterial taxa that degrade extracellular DNA in marine sediments. Nature Microbiology. DOI: 10.1038/s41564-021-00917-9
Related publication on protein- and lipid-consuming bacteria:
Pelikan C, Wasmund K, Glombitza C, Hausmann B, Herbold C, Flieder M, Loy A. (2021). Anaerobic bacterial degradation of protein and lipid macromolecules in subarctic marine sediment. The ISME Journal. DOI: 10.1038/s41396-020-00817-6
ELSE PRESS RELEASES FROM THIS DATE:
2021-06-14
Universal school lunch programs make students healthier, and increase their lifetime income by 3%, according to a unique study from Lund University in Sweden published in The Review of Economic Studies.
Health disparities arise early in life and play a major role in economic outcomes among adults. Yet there are few studies on the long-term effects of school-based nutrition policies aimed at counteracting them. Researchers from Lund University and Stockholm University can now show that universal school lunch programs have significant long-term benefits for students' education, general health and income.
"Today, we take school lunches for granted in Sweden. But the fact is, it was a very conscious ...
2021-06-14
Announcing a new article publication for BIO Integration journal. In this article the authors Yuhao Chen, Yue Li, Meng Du, Jinsui Yu, Fei Gao, Zhen Yuan and Zhiyi Chen from The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou, China, University of South China, Hunan, China and University of Macau, China discuss ultrasound neuromodulation: integrating medicine and engineering for neurological disease treatment.
Neurological diseases associated with dysfunctions of neural circuits, including Alzheimer's disease (AD), depression and epilepsy, have become increasingly prevalent. To tackle these issues, artificial stimulation or regulation ...
2021-06-14
Niigata, Japan - Biomarkers are important determinants of appropriate and effective therapeutic approaches for various diseases including cancer. There is ample evidence pointing toward the significance of immune check point inhibitors (ICI) against cancer, and they showed promising clinical benefits to a specific group of patients with colorectal cancer (CRC). Several reports demonstrated the efficacy of biomarkers such as programmed death-1 protein ligand (PD-L1), density of tumor-infiltrating lymphocytes (TILs), and tumor mutational burden (TMB), to determine the patient responsiveness for the efficient use of ICIs as therapeutics against cancer.
A high level of TMB (TMB-H), ...
2021-06-14
Quantum technologies are based on quantum properties of light, electrons, and atoms. In recent decades, scientists have learned to master these phenomena and exploit them in applications. Thus, the construction of a quantum computer for commercial applications is also coming within reach. One of the emerging technologies that is currently being advanced very successfully is ion trap quantum computers. Here, charged particles are trapped with electromagnetic fields in a vacuum chamber and prepared in such a way that they can serve as carriers for information and be used for computing, which includes cooling them to the lowest temperatures permitted by quantum mechanics. However, the quantum mechanical ...
2021-06-14
Various platforms which offer food home delivery services through courier services, such as riders or other types of distributors, have proliferated very quickly in recent years, especially in big cities. Due to this boom in last-mile delivery or logistics, UOC experts have studied the operation of the main food home delivery platforms, such as Just Eat, Glovo and Deliveroo, which work in the city of Barcelona, to analyse the profitability of these business models and estimate the number of orders needed to achieve this profitability.
"It's very difficult for these business models to be profitable by themselves", said Eduard J. Álvarez Palau, a researcher from the SUMA research group of the UOC's Faculty of Economics and Business, the main author of this work ...
2021-06-14
Near-field light is invisible light at the subwavelength scale. Harnessed for a variety of practical applications, such as wireless power transfer, near-field light has an increasingly significant role in the development of miniature on-chip photonic devices. Controlling the direction of near-field light propagation has been an ongoing challenge that is of fundamental interest in photonics physics and can significantly advance a variety of applications.
So far, propagation of near-field light in a single direction is achieved by specific interactions between ...
2021-06-14
The human gut microbiome is a complex community of trillions of microbes that are constantly interacting with each other and our bodies. It supports our wellbeing, immune system and mental health - but how is it sustained?
Researchers in the UK and Germany, alongside other international collaborators, have investigated the evolution of bacteria in the human gut microbiome - asking how these microbes persist throughout their lifetimes - taking into account internal and external influencing factors.
The results of the study will help inform tailored probiotics, live bacteria found in particular foods or supplements, as well as dietary ...
2021-06-14
The structure of a biomolecule can reveal much about its functioning and interaction with the surrounding environment. The double-helical structure of DNA and its implications for the processes of transmission of genetic information form an obvious example. In a new study by SISSA - Scuola Internazionale Superiore di Studi Avanzati, published in Nucleic Acids Research, experimental data were combined with computer simulations of molecular dynamics to examine the conformation of an RNA fragment involved in protein synthesis and its dependence on the salts present in the solution. The research has led to a new method for high-resolution definition of the structures of biomolecules in their physiological environments. ...
2021-06-14
BOSTON - Bronchiolitis--the most common lung infection in young children, and which is most often caused by respiratory syncytial virus, or RSV--is the leading cause of hospitalizations in U.S. infants, and about 30% of those with severe bronchiolitis later develop asthma. A team led by investigators at Massachusetts General Hospital (MGH) has uncovered four distinct molecular subtypes of RSV bronchiolitis and has linked a certain subtype to a higher asthma risk. The findings are published in Nature Communications.
"While bronchiolitis has been considered a single ...
2021-06-14
These are the findings of an Imperial-led study using data from thousands of children in England over a number of years, which looked at the health impact of consuming ultra-processed foods (UPFs) - food and drink heavily processed during their making, such as frozen pizzas, fizzy drinks, mass-produced packaged bread and some ready meals.
Researchers found that not only do UPFs make up a considerably high proportion of children's diets (more than 40% of intake in grams and more than 60% of calories on average), but that the higher the proportion of UPFs they consume, ...
LAST 30 PRESS RELEASES:
[Press-News.org] Making a meal of DNA in the seafloor
Specialized bacteria in the oceans seafloor consume and recycle nucleic acids from dead biomass
