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Jul 21, 2021

Acid-spraying, scorpion-like insects spotted in Texas

Posted by in category: food

Vinegaroons shoot “well-aimed” vinegar spray, eat cockroaches for dinner — and emerge from the ground looking for love.

Jul 21, 2021

Dubai is making its own fake rain to beat 122F heat

Posted by in categories: drones, geoengineering

Its cloud seeding operations are part of an ongoing mission to generate precipitation in the Middle East country, which has an average rainfall of just four inches.


The enhanced rain is created using drone technology that unleashes electrical charges into clouds in order for them to clump together and form precipitation.

The National reported the heavy rainfall caused waterfalls to appear in the city of Ail Ain and made driving conditions hazardous.

Continue reading “Dubai is making its own fake rain to beat 122F heat” »

Jul 21, 2021

Helion Energy Achieves Key Fusion Milestone

Posted by in category: energy

Helion Energy said that its latest fusion generator prototype has exceeded 100 million degrees Celsius. The company has developed a unique pulsed fusion system.

Jul 21, 2021

Brain ‘Noise’ Keeps Nerve Connections Young

Posted by in categories: biotech/medical, chemistry, genetics, life extension, neuroscience

The findings, published in Nature Communications, could have important implications for human health: minis have been found at every type of synapse studied so far, and defects in miniature neurotransmission have been linked to range of neurodevelopmental disorders in children. Figuring out how a reduction in miniature neurotransmission changes the structure of synapses, and how that in turn affects behavior, could help to better understand neurodegenerative disorders and other brain conditions.


Summary: Study reveals how miniature release events help to keep neurons intact and preserve motor neuron function in aging insects.

Source: EPFL

Continue reading “Brain ‘Noise’ Keeps Nerve Connections Young” »

Jul 21, 2021

Pathogenic fungi colonize microplastics in soils

Posted by in category: biotech/medical

Representatives of numerous pathogenic fungal species are finding new habitat on microplastic particles in the soil and could thus be one of the possible causes of an increase in fungal infections. Researchers from Bayreuth, Hannover and Munich demonstrated this in a new study. Using high-throughput methods, the scientists analyzed fungal communities from soil samples taken from sites near human settlements in western Kenya. The findings of this research have been published in the journal Scientific Reports.

This study is the first to focus on fungal communities on in the . Many of the species detected belong to groups of fungi that are pathogenic to plants, animals and humans. Pathogenic microfungi are able to colonize the otherwise inhospitable surfaces of particles due to their characteristic adhesive lifestyle. Furthermore, they are able to withstand strong solar radiation and heat to which they are exposed on soil surfaces.

“We were able to observe all stages of fungal biofilm formation on the microplastic particles recovered from the . In doing so, we were able to demonstrate that fungi not only grow, but also reproduce in the so-called plastisphere. The data we obtained from microscopic examinations and DNA analyses supports the assumption that fungi systematically colonize microplastics in the soil. Moreover, they provide evidence that microplastics in soil accumulate certain pathogenic fungal species: some species dangerous to humans, including black fungi and cryptococcal yeast fungi, are present on the surfaces of microplastic particles in higher concentrations than in the surrounding soil. Our study therefore justifies the presumption that microplastics in soil are a potential source of fungal infections,” says Gerasimos Gkoutselis M.Sc., lead author of the study and doctoral student at the University of Bayreuth’s Department of Mycology.

Jul 21, 2021

In vitro efficacy of artemisinin-based treatments against SARS-CoV-2

Posted by in categories: biotech/medical, materials

Artemisia annua plants grown from a cultivated seed line in Kentucky, USA, were extracted using either absolute ethanol or distilled water at 50 °C for 200 min and analyzed, as described in “Materials and methods” and Supplementary Information (Figures S1 and S2). Solids were removed by filtration and the solvents were evaporated. The extracted materials were dissolved in dimethylsulfoxide (DMSO) (ethanol extract) or a DMSO: water mixture (3:1 for aqueous extract) and filtered (see supporting information for details). Artemisinin (Fig. 1, (1)) was synthesized and purified following a published procedure or purchased17, while artesunate (Fig. 1, (2)) and artemether (Fig. 1, (3)) were only obtained from commercial sources.

Initial experiments were carried out at FU Berlin, Germany. To initially screen whether extracts and pure artemisinin were active against SARS-CoV-2, their antiviral activity was tested by pretreating VeroE6 cells at different time points during 120 min with selected concentrations of the extracts or compounds prior to infection with the first European SARS-CoV-2 isolated in München (SARS-CoV-2/human/Germany/BavPat 1/2020). The virus-drug mixture was then removed and cells were overlaid with medium containing 1.3% carboxymethylcellulose to prevent virus release into the medium. DMSO was used as a negative control. Plaque numbers were determined either by indirect immunofluorescence using a mixture of antibodies to SARS-CoV N protein18 or by staining with crystal violet19. The addition of either ethanolic or aqueous A. annua extracts prior to virus addition resulted in reduced plaque formation in a concentration dependent manner, while artemisinin exhibited little antiviral activity (Supplemental Tables S1 S8).

Concentration–response experiments were carried out at Copenhagen University Hospital-Hvidovre. In these experiments the Danish SARS-CoV-2 isolate SARS-CoV-2/human/Denmark/DK-AHH1/2020 was used employing a 96-well plate based concentration–response antiviral treatment assay, allowing for multiple replicates per concentration, as described in “Materials and methods” and Supplementary Information (Figures S3 and S4)20,21. Seven replicates were measured at each concentration and a range of concentrations was evaluated to increase data accuracy when compared to the plaque-reduction assay, which was carried out in duplicates. Extracts or compounds were added to VeroE6 cells either 1.5 h prior to (pretreatment (pt)) or 1 h post infection (treatment (t)), respectively, followed by a 2-day incubation of virus with extracts or compounds. Both protocols yielded similar results, with slightly lower median effective concentration (EC50) values observed for treatment assays.

Jul 21, 2021

Transcription Factor Protects Tumor-Fighting CAR-T Cells from Burn-Out

Posted by in category: biotech/medical

Researchers at La Jolla Institute for Immunology (LJI) have demonstrated how cancer-fighting T cells can be engineered to clear tumors without succumbing to T cell exhaustion, a phenomenon that results in T cells giving up the antitumor fight after prolonged periods of overactivity. The newly reported findings demonstrated the key role of the transcription factor BATF in the cellular pathway that triggers T cell exhaustion, and showed how increasing levels of BATF in these cells boosts their cancer-fighting ability, with the help of another transcription factor IRF4. The results suggest a potential approach to increasing the effectiveness of CAR T cell-based immunotherapy against tumors, which is important because T cell exhaustion plagues even the most cutting-edge cancer immunotherapies.

“The idea is to give the cells a little bit of armor against the exhaustion program,” said LJI professor Patrick Hogan, PhD. “The cells can go into the tumor to do their job, and then they can stick around as memory cells.” The LJI team, headed by Hogan and LJI professor Anjana Rao, PhD, report on their studies in Nature Immunology, in a paper titled, “BATF and IRF4 cooperate to counter exhaustion in tumor-infiltrating CAR T cells.”

Fighting a tumor is a marathon, not a sprint. For cancer-fighting CD8+ T cells, the race is sometimes just too long, and they quite fighting. “CD8+ T cells that encounter antigen together with effective costimulatory signals mount strong effector responses that are able to clear pathogen-infected cells and tumor cells,” the team wrote. “In contrast, CD8+ T cells that infiltrate solid tumors and are exposed to prolonged antigen stimulation in the absence of adequate costimulation enter a hyporesponsive (exhausted or dysfunctional) state in which they do not effectively destroy tumor cells.”

Jul 21, 2021

Finally: Here’s American New 6th Generation Fighter Jet

Posted by in categories: military, robotics/AI

The future of fighter jets is coming, seemingly with more international power and disruptive technologies than predicted. As the US forges ahead to become 1st nation field sixth-generation fighter jet, other major air forces fear falling behind in the competitive race. The US, Europe, Japan, and China have made unbelievable investments looking for unique next-level capabilities like stealth, robust avionics, and navigation systems to present the most technologically advanced fighter jet. But one particular trend is crucial for all 6th gen prototypes. Artificial Intelligence is about to begin a new era of air combat.

Jul 21, 2021

Signs of Life on Mars? NASA’s Perseverance Rover Begins the Hunt

Posted by in category: alien life

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Jul 21, 2021

Mural raises $50M Series C after tripling its ARR in the last year

Posted by in category: space

This morning Mural, a startup that builds digital collaboration software with a focus on visual presentation, announced that it has closed a $50 million Series C. The new capital, co-led by prior investors Insight Partners and Tiger Global, values the startup at more than $2 billion.

Previously, Mural was valued at around $500 million when it closed a $118 million round last August. Mural also raised a $23 million Series A at the start of 2020.

Mural’s product focuses around a visual collaboration space, akin to a digital whiteboard. Given its product focus, it’s not hard to see why the startup had a good COVID cycle; the world’s companies moved to remote work en masse, leaving offices empty and physical whiteboards un-scribbled. Services like Mural helped fill that, and similar voids. TechCrunch caught up with Mural CEO Mariano Suarez-Battan and Insight managing director Nikhil Sachdev to learn more about deal mechanics.