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Oct 14, 2024

Frontiers: The process by which synaptic inputs separated in time and space are integrated by the dendritic arbor to produce a sequence of action potentials is among the most fundamental signal transformations that takes place within the central nervous system

Posted by in category: neuroscience

Some aspects of this complex process, such as integration at the level of individual dendritic branches, have been extensively studied. But other aspects, such as how inputs from multiple branches are combined, and the kinetics of that integration have not been systematically examined. Using a 3D digital holographic photolysis technique to overcome the challenges posed by the complexities of the 3D anatomy of the dendritic arbor of CA1 pyramidal neurons for conventional photolysis, we show that integration on a single dendrite is fundamentally different from that on multiple dendrites. Multibranch integration occurring at oblique and basal dendrites allows somatic action potential firing of the cell to faithfully follow the driving stimuli over a significantly wider frequency range than what is possible with single branch integration. However, multibranch integration requires greater input strength to drive the somatic action potentials. This tradeoff between sensitivity and temporal precision may explain the puzzling report of the predominance of multibranch, rather than single branch, integration from in vivo recordings during presentation of visual stimuli.

Individual thin dendritic branches are fundamental functional units in the nervous system (Branco and Hausser, 2011). Experimental data support the concept that they can operate as quasi-independent processing and signaling units capable of non-linear behavior (Mel, 1993; Wei et al., 2001). In combination with their parent dendritic branches, these thin distal dendrites can function in two distinct modes (Gasparini and Magee, 2006; Katz et al., 2009). If distributed synaptic inputs arrive on multiple distal branches, the depolarization on each branch may be below the threshold for recruiting local active conductances in a regenerative manner and yet be sufficient to trigger a somatic sodium spike. This is sometimes referred to as the traditional “integrate and fire” model (Abbott, 1999), the “synaptic democracy” model (Yuste, 2011), and the “global” model of integration.

Oct 14, 2024

Scientists build world’s thinnest lens, measuring just 3 atoms thick

Posted by in categories: materials, particle physics

The world’s thinnest lens diffracts light of specific wavelengths instead of refracting it.


By arranging a special material in concentric rings, researchers have built the world’s thinnest lens at just three atoms thickness.

Oct 13, 2024

Traded: Venture Capital 🦄 on Instagram: Elon musk’s @spacex caught a 19 story tall rocket booster in mid air

Posted by in categories: Elon Musk, finance, space travel

82K likes, — tradedvc on October 13, 2024: Elon musk’s @spacex caught a 19 story tall rocket booster in mid air.

Credit: Shaun Maguire — X

Oct 13, 2024

AI model LucaProt uncovers 251,000 new RNA viruses, revealing hidden diversity worldwide

Posted by in categories: biotech/medical, robotics/AI

🌍🔬🦠


In a recent study published in the journal Cell, researchers developed a deep learning model, “LucaProt,” a transformer-based AI model to detect highly divergent ribonucleic acid (RNA)-dependent RNA polymerase (RdRP) sequences in meta-transcriptomes from diverse ecosystems. They identified 180 RNA virus supergroups and 161,979 putative RNA virus species, showing that RNA viruses are widespread and present even in extreme environments.

Background

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Oct 13, 2024

Patrick Hsu: A Trailblazer in Digital Biology

Posted by in categories: biotech/medical, robotics/AI

Listen now (47 mins) | At the Interface of biomedical science and A.I.

Oct 13, 2024

Hemp Batteries Revolutionize Energy Storage

Posted by in categories: energy, sustainability, transportation

A recent demonstration by a YouTuber compared the performance of a hemp battery against a lithium-ion battery, and the results were astounding: the hemp battery was eight times more powerful. Tesla’s new million-mile battery, made from lithium-iron phosphate, is designed to last twice as long as conventional lithium-ion batteries. However, even this advanced battery cannot compete with the power and renewability of hemp-based batteries.

https://www.youtube.com/watch?v=UN32y8McS4s

Implications for the Future

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Oct 13, 2024

Decoding algorithms for surface codes

Posted by in categories: computing, cosmology, information science, quantum physics

Now in Quantum: by Antonio deMarti iOlius, Patricio Fuentes, Román Orús, Pedro M. Crespo, and Josu Etxezarreta Martinez https://doi.org/10.22331/q-2024-10-10-1498


Antonio deMarti iOlius1, Patricio Fuentes2, Román Orús3,4,5, Pedro M. Crespo1, and Josu Etxezarreta Martinez1

1Department of Basic Sciences, Tecnun — University of Navarra, 20,018 San Sebastian, Spain. 2 Photonic Inc., Vancouver, British Columbia, Canada. 3 Multiverse Computing, Pio Baroja 37, 20008 San Sebastián, Spain 4 Donostia International Physics Center, Paseo Manuel de Lardizabal 4, 20018 San Sebastián, Spain 5 IKERBASQUE, Basque Foundation for Science, Plaza Euskadi 5, 48009 Bilbao, Spain.

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Oct 13, 2024

Record-shattering ultrashort laser pulses created, reach 100 MW power

Posted by in category: energy

A new laser oscillator generates ultrashort pulses, 50% more powerful than the previous record.


Researchers at ETH Zurich have developed a laser oscillator that produces the most powerful ultra-short laser pulses ever.

The pulses from the laser last for less than 10−12 seconds. However, on average, they carry 550 watts of power, with peak power output reaching 100 megawatts — this is more than enough to power hundreds of thousands of vacuum cleaners together for a short duration.

Continue reading “Record-shattering ultrashort laser pulses created, reach 100 MW power” »

Oct 13, 2024

New AI glasses instantly reveal identities just by looking at people

Posted by in category: robotics/AI

Discover superhero abilities with I-XRAY, AI glasses that reveal anyone’s personal info like address, name, and phone number with a glance.

Oct 13, 2024

Blindsight is one of the ambitious projects by Neuralink, the neurotechnology company co-founded by Elon Musk

Posted by in categories: Elon Musk, neuroscience

The concept behind Blindsight involves leveraging brain-machine interfaces (BMIs) to restore or even enhance sensory perception in individuals who have lost their sight. The goal is to bypass damaged or non-functional parts of the visual system by directly interfacing with the brain’s visual cortex, allowing users to see using digital inputs processed by the Neuralink implant.

The idea is that the implant could take visual information from cameras or other sensors and transmit it directly to the brain, potentially allowing users to perceive images or their surroundings without relying on their natural eyes.

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