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Canadian architecture studio Atelier l’Abri has built a series of A-Frame buildings for the Farouche Tremblant agrotourism site in Québec’s Mon-Tremblant National Park, which were designed to “recede in the landscape”.

Intending to celebrate and showcase the surrounding untamed woodlands, Atelier l’Abri created a cafe, farm and four rental micro–cabins that act as a basecamp for visitors wanting to explore the nearby Devil’s River and its valley.

Sitting among the wild terrain, the four small rental cabins have steep-pitched roofs clad in cedar shingles that extend to the ground to form sloping walls.

As we age, our bodies undergo various changes that can impact our overall health and make us more susceptible to diseases. One common factor in the aging process is low-grade inflammation, which contributes to age-related decline and impairment. However, the precise pathways responsible for this inflammation and their impact on natural aging have remained elusive until now.

A new study led by Andrea Ablasser at EPFL now shows that a molecular signaling pathway called cGAS/STING plays a critical role in driving and functional decline during aging. By blocking the STING protein, the researchers were able to suppress in senescent cells and tissues, leading to improvements in tissue function.

The findings are published in the journal Nature.

At the University of Oxford, scientists have developed a nanopore technology that can identify three different post-translational modifications (PTMs) in individual proteins, even deep within long protein chains. The scientists asserted that their technology “[lays] the groundwork for compiling inventories of the proteoforms in cells and tissues.”

The technology was introduced in Nature Nanotechnology, in a paper titled, “Enzyme-less nanopore detection of post-translational modifications within long polypeptides.” The paper noted that single-molecule proteoform identification requires knowledge of the architecture of long polypeptide chains, knowledge that has proven elusive. Although there are methods for translocating folded proteins through solid-state nanopores or protein nanopores of large sizes, these methods have yet to locate PTMs within a polypeptide sequence. The methods that have detected PTMs have been able to do so only within short peptides.

In their paper, the Oxford scientists described their approach: We use electro-osmosis in an engineered charge-selective nanopore for the non-enzymatic capture, unfolding, and translocation of individual polypeptides of more than 1,200 residues. Unlabeled thioredoxin polyproteins undergo transport through the nanopore, with directional co-translocational unfolding occurring unit by unit from either the C or N terminus. Chaotropic reagents at non-denaturing concentrations accelerate the analysis.

The solar arrays have successfully deployed on Northrop Grumman’s Cygnus cargo spacecraft that is on its way to deliver more than 8,200 pounds of scientific investigations, cargo, and supplies to the International Space Station after launching at 8:31 p.m. EDT Sunday from NASA’s Wallops Flight Facility on the Eastern Shore of Virginia.

Elon Musk says Tesla is now working on the “final piece of the Full Self-Driving (FSD) AI puzzle,” and apparently that is “vehicle control.”

Despite his best efforts to stop making predictions about self-driving, the CEO has recently still predicted that Tesla would achieve full autonomy by the end of the year.

For many of us who use Tesla’s FSD Beta regularly, it is hard to imagine that Tesla can make the jump from the current state to a level 4 or 5 of autonomy where the automaker would take responsibility for the system and enable drivers to use it without monitoring in just a few months.

New research uses protons to shine a light on the structure and imperfections of this two-dimensional wonder material.

Graphene is a two-dimensional wonder material that has been suggested for a wide range of applications in energy, technology, construction, and more since it was first isolated from graphite in 2004.

This single layer of carbon atoms is tough yet flexible, light but with high resistance, with graphene.

Global Workspace Theory (GWT) can be compared to a theater of mind, in which conscious contents resemble a bright spot on the stage of immediate memory, selected by a spotlight of attention under executive guidance. Only the bright spot is conscious; the rest of the theater is dark and unconscious. GWT has been implemented in a number of explicit and testable global workspace models (GWM’s). These specific GW models suggest that conscious experiences recruit widely distributed brain functions that are mostly unconscious (unreportable). A large body of new findings support that view. For example, brain experiments show that while unconscious visual stimuli evoke high activity in visual cortex, identical conscious stimuli reveal an additional spread of high brain activity to frontal and parietal lobes (Dehaene, 2001). Similar results have been found for hearing, touch, pain, and sensorimotor skills (Baars, 2002). The conscious waking state supports such fast, flexible, and widespread brain interactions, while unconscious states do not (Baars et al, 2004). These findings illustrate the ability of the GW framework to suggest novel and falsifiable hypotheses.