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Johns Hopkins scientists grow novel ‘whole-brain’ organoid

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels—an advance that could usher in a new era of research into neuropsychiatric disorders such as autism.

“We’ve made the next generation of brain organoids,” said lead author Annie Kathuria, an assistant professor in JHU’s Department of Biomedical Engineering who studies brain development and neuropsychiatric disorders. “Most brain organoids that you see in papers are one brain region, like the cortex or the hindbrain or midbrain. We’ve grown a rudimentary whole-brain organoid; we call it the multi-region brain organoid (MRBO).”

Chinese Scientists Unveil Major Breakthrough in Large-scale DNA Editing

Chinese scientists have developed a gene editing technology capable of precisely manipulating large DNA segments ranging from thousands to millions of base pairs in both plant and animal cells, marking a significant advance in the field of life sciences.

The research team from the Institute of Genetics and Developmental Biology at the Chinese Academy of Sciences announced the new technology in a study published online Monday in the journal Cell.

The method, called PCE (Programmable Chromosomal Engineering), combines three innovative techniques to enable programmable editing of large chromosome segments. In lab tests, researchers successfully inserted an 18,800-base-pair DNA fragment, replaced a 5,000-base-pair sequence, inverted a 12-million-base-pair chromosomal region, deleted a 4-million-base-pair segment, and even relocated entire chromosomes.

Interview with Ralph Merkle @ Vitalist Bay

The venerable Ralph Merkle joins Max Marty on stage at Vitalist Bay.

Key topics covered:

- Why cryonics is still “0.00001%” of people despite decades of advocacy — and Merkle’s admission that believing rational arguments would work was his biggest mistake.
- The wild Dora Kent story.
- The organizational split in 1992 that affected growth for over a decade.
- Why Merkle’s success probability hasn’t changed since the 80s.
- Whether preserving your information pattern is enough or if you need “continuity of consciousness”.

And more.

Links:
• Cryosphere Discord server: https://discord.com/invite/ndshSfQwqz.
• Cryonics subreddit: https://www.reddit.com/r/cryonics/

Could Metasurfaces Be The Next Quantum Information Processors?

In the race toward practical quantum computers and networks, photons — fundamental particles of light — hold intriguing possibilities as fast carriers of information at room temperature. Photons are typically controlled and coaxed into quantum states via waveguides on extended microchips, or through bulky devices built from lenses, mirrors, and beam splitters. The photons become entangled – enabling them to encode and process quantum information in parallel – through complex networks of these optical components. But such systems are notoriously difficult to scale up due to the large numbers and imperfections of parts required to do any meaningful computation or networking.

Could all those optical components could be collapsed into a single, flat, ultra-thin array of subwavelength elements that control light in the exact same way, but with far fewer fabricated parts?

Optics researchers in the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) did just that. The research team led by Federico Capasso, the Robert L. Wallace Professor of Applied Physics and Vinton Hayes Senior Research Fellow in Electrical Engineering, created specially designed metasurfaces — flat devices etched with nanoscale light-manipulating patterns — to act as ultra-thin upgrades for quantum-optical chips and setups.

Researchers blend theoretical insight and precision experiments to entangle photons on an ultra-thin chip.

Apple Becomes First Company to Announce an ‘End‑to‑End’ Silicon Supply Chain Built in the U.S.

Apple has just made history by becoming the first company to build a complete end-to-end silicon chip supply chain entirely in the United States.

Apple will produce all custom chips entirely in the U.S. under its $600B manufacturing program, reducing reliance on overseas supply chains.

Post-prandial hyperlipidaemia impairs systemic vascular function and dynamic cerebral autoregulation in young and old male adults

Dietary fat is an important part of our diet. It provides us with a concentrated source of energy, transports vitamins and when stored in the body, protects our organs and helps keep us warm. The two main types of fat that we consume are saturated and unsaturated (monounsaturated and polyunsaturated), which are differentiated by their chemical composition.

But these fats have different effects on our body. For example, it is well established that eating a meal that is high in saturated fat, such as that self-indulgent Friday night takeaway pizza, can be bad for our blood vessels and heart health. And these effects are not simply confined to the heart.

The brain has limited energy stores, which means it is heavily reliant on a continuous supply of blood delivering oxygen and glucose to maintain normal function.

One of the ways the body maintains this supply is through a process known as “dynamic cerebral autoregulation”. This process ensures that blood flow to the brain remains stable despite everyday changes in blood pressure, such as standing up and exercising. It’s like having shock absorbers that help keep our brains cool under pressure.

But when this process is impaired, those swings in blood pressure become harder to manage. That can mean brief episodes of too little or too much blood reaching the brain. Over time, this increases the risk of developing conditions like stroke and dementia.

Continue reading “Post-prandial hyperlipidaemia impairs systemic vascular function and dynamic cerebral autoregulation in young and old male adults” | >

High-level visual representations in the human brain are aligned with large language models

Doerig, Kietzmann and colleagues show that the brain’s response to visual scenes can be modelled using language-based AI representations. By linking brain activity to caption-based embeddings from large language models, the study reveals a way to quantify complex visual understanding.

Protecting the biomolecules with simple peptides

In biology, cells often respond to stress by creating protective compartments through a process known as phase separation. These compartments stabilize vulnerable proteins and can dissolve again when conditions improve. The research team applied this principle to design adaptable peptide-based materials that mimic this process—offering a simple and effective alternative to conventional methods for biomolecular stabilization, which often require complex formulations and cold-chain logistics.

Key findings from the study include:

A new study reveals that extremely simple peptides can mimic a biological process that protects sensitive proteins from environmental stress. The findings, published in Nature Materials, offer a promising new approach to stabilizing biomolecules like vaccines and therapeutic proteins—potentially without the need for refrigeration.

The interdisciplinary study demonstrates how short peptides—just three amino acids long—can undergo liquid–liquid phase separation through a drying process that enables the peptides to encapsulate proteins, protect them, and release them intact upon rehydration.

“Inspired by how organisms like tardigrades survive extreme dehydration, we asked whether we could replicate nature’s strategy using minimal synthetic materials,” said the atuhor. “To our surprise, we found that simple tripeptides could form dynamic, reversible structures that protect proteins under stress. This opens up new possibilities for protein preservation.”

The Fermi Paradox & The Hivemind Dilemma

Are we alone, or just looking for the wrong kind of aliens? Discover how the path to hive minds and distributed consciousness might answer the Fermi Paradox — and pose new dilemmas of their own.

Watch my exclusive video Dark Biospheres: https://nebula.tv/videos/isaacarthur–
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Credits:
The Fermi Paradox & The Hivemind Dilemma.
Written, Produced & Narrated by: Isaac Arthur.
Editor: Lukas Konecny.
Select imagery/video supplied by Getty Images.
Music Courtesy of Epidemic Sound http://epidemicsound.com/creator.

Chapters.
0:00 Intro.
1:25 What is a Hivemind?
3:48 Why Build a Hivemind?
9:51 The Hivemind Dilemma: Cognitive Horizon Limits.
14:56 FTL and the Limits of Superminds.
18:33 Asimov, Seldon, Gaia, Galaxia, and the Fallacy of Galactic Planning.
24:46 Galactic Civilizations & Fragmented Minds.
26:56 The Competition of Minds.

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