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May 11, 2021

First commercial-scale offshore wind farm in the US gets federal approval

Posted by in category: habitats

The Interior Department (DOI) granted the Vineyard Wind project permission to install up to 84 turbines off the coast of Massachusetts. Once completed, the project will be able to generate up to 800 megawatts (MW), enough electricity for 400000 homes.


It won’t be the last.

May 11, 2021

New genetic ‘CopyCatchers’ detect efficient and precise CRISPR editing in a living organism

Posted by in categories: biotech/medical, genetics

These studies provide a clear proof of principle for a new type of gene therapy in which one copy of a mutated gene could be repaired from a partially intact second copy of the gene,” said Bier, senior author of the Nature Communications study and science director for the Tata Institute for Genetics and Society-UC San Diego. “The need for such a design occurs in genetic situations with patients with inherited genetic disorders, if their parents were carriers for two different mutations in the same gene.


Researchers at the University of California San Diego have laid the groundwork for a potential new type of gene therapy using novel CRISPR-based techniques.

Working in fruit flies and , research led by UC San Diego Postdoctoral Scholar Zhiqian Li in Division of Biological Sciences Professor Ethan Bier’s laboratory demonstrates that new DNA repair mechanisms could be designed to address the effects of debilitating diseases and damaged cell conditions.

Continue reading “New genetic ‘CopyCatchers’ detect efficient and precise CRISPR editing in a living organism” »

May 11, 2021

New neuroelectronic system can read and modify brain circuits

Posted by in categories: biotech/medical, computing, engineering, neuroscience

As researchers learn more about the brain, it has become clear that responsive neurostimulation is becoming increasingly effective at probing neural circuit function and treating neuropsychiatric disorders, such as epilepsy and Parkinson’s disease. But current approaches to designing a fully implantable and biocompatible device able to make such interventions have major limitations: their resolution isn’t high enough and most require large, bulky components that make implantation difficult with risk of complications.

A Columbia Engineering team led by Dion Khodagholy, assistant professor of electrical engineering, has come up with a new approach that shows great promise to improve such devices. Building on their earlier work to develop smaller, more efficient conformable bioelectronic transistors and materials, the researchers orchestrated their devices to create implantable circuits that enable allow reading and manipulation of brain circuits. Their multiplex-then-amplify (MTA) system requires only one amplifier per multiplexer, in contrast to that need an equal number of amplifiers as number of channels.

“It is critical to be able to detect and intervene to treat brain-disorder-related symptoms, such as epileptic seizures, in real time,” said Khodagholy, a leader in bio-and neuroelectronics design. “Not only is our system much smaller and more flexible than current devices, but it also enables simultaneous stimulation of arbitrary waveforms on multiple independent channels, so it is much more versatile.

May 11, 2021

A New Gene Editing Tool Could Rival CRISPR, and Makes Millions of Edits at Once

Posted by in categories: bioengineering, biotech/medical

First discovered in 1984, retrons are floating ribbons of DNA in some bacteria cells that can be converted into a specific type of DNA—a single chain of DNA bases dubbed ssDNAs (yup, it’s weird). But that’s fantastic news for gene editing, because our cells’ double-stranded DNA sequences become impressionable single chains when they divide. Perfect timing for a retron bait-and-switch.

Normally, our DNA exists in double helices that are tightly wrapped into 23 bundles, called chromosomes. Each chromosome bundle comes in two copies, and when a cell divides, the copies separate to duplicate themselves. During this time, the two copies sometimes swap genes in a process called recombination. This is when retrons can sneak in, inserting their ssDNA progeny into the dividing cell instead. If they carry new tricks—say, allowing a bacteria cell to become resistant against drugs—and successfully insert themselves, then the cell’s progeny will inherit that trait.

Because of the cell’s natural machinery, retrons can infiltrate a genome without cutting it. And they can do it in millions of dividing cells at the same time.

May 11, 2021

Hologram experts can now create real-life images that move in the air

Posted by in categories: computing, holograms, military, space, weapons

They may be tiny weapons, but Brigham Young University’s holography research group has figured out how to create lightsabers—green for Yoda and red for Darth Vader, naturally—with actual luminous beams rising from them.

Inspired by the displays of science fiction, the researchers have also engineered battles between equally small versions of the Starship Enterprise and a Klingon Battle Cruiser that incorporate photon torpedoes launching and striking the enemy vessel that you can see with the naked eye.

Continue reading “Hologram experts can now create real-life images that move in the air” »

May 11, 2021

Tiny, wireless, injectable chips use ultrasound to monitor body processes

Posted by in categories: bioengineering, biotech/medical, computing

Widely used to monitor and map biological signals, to support and enhance physiological functions, and to treat diseases, implantable medical devices are transforming healthcare and improving the quality of life for millions of people. Researchers are increasingly interested in designing wireless, miniaturized implantable medical devices for in vivo and in situ physiological monitoring. These devices could be used to monitor physiological conditions, such as temperature, blood pressure, glucose, and respiration for both diagnostic and therapeutic procedures.

To date, conventional implanted electronics have been highly volume-inefficient—they generally require multiple chips, packaging, wires, and external transducers, and batteries are often needed for . A constant trend in electronics has been tighter integration of electronic components, often moving more and more functions onto the integrated circuit itself.

Researchers at Columbia Engineering report that they have built what they say is the world’s smallest single– system, consuming a total volume of less than 0.1 mm3. The system is as small as a dust mite and visible only under a microscope. In order to achieve this, the team used ultrasound to both power and communicate with the device wirelessly. The study was published online May 7 in Science Advances.

May 11, 2021

Faster, More Secure Memory Storage: Physicists Find a Novel Way to Switch Antiferromagnetism On and Off

Posted by in categories: computing, mobile phones, physics, security

The findings could lead to faster, more secure memory storage, in the form of antiferromagnetic bits.

When you save an image to your smartphone, those data are written onto tiny transistors that are electrically switched on or off in a pattern of “bits” to represent and encode that image. Most transistors today are made from silicon, an element that scientists have managed to switch at ever-smaller scales, enabling billions of bits, and therefore large libraries of images and other files, to be packed onto a single memory chip.

But growing demand for data, and the means to store them, is driving scientists to search beyond silicon for materials that can push memory devices to higher densities, speeds, and security.

May 11, 2021

New images of Jupiter reveal some of the planet’s mysterious features

Posted by in categories: climatology, space

New images taken by the Gemini North telescope and the Hubble Space Telescope have captured Jupiter in visible, infrared and ultraviolet light, revealing unique atmospheric features of the gas giant in detail. These include superstorms, cyclones and the Great Red Spot.

May 11, 2021

People Who Live Beyond 105 Have Better DNA Repair

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

Not sure how novel.


People who live beyond 105 years are more efficient at repairing DNA, according to a study published today in eLife.

Paolo Garagnani and colleagues, in collaboration with several research groups in Italy and a research team led by Patrick Descombes at Nestlé Research in Lausanne, Switzerland, recruited 81 semi-supercentenarians (those aged 105 years or older) and supercentenarians (those aged 110 years or older) from across the Italian peninsula. They compared these with 36 healthy people matched from the same region who were an average age of 68 years old.

Continue reading “People Who Live Beyond 105 Have Better DNA Repair” »

May 11, 2021

AIDS virus used in gene therapy to fix ‘bubble baby’ disease

Posted by in category: biotech/medical

A gene therapy that makes use of an unlikely helper, the AIDS virus, gave a working immune system to 48 babies and toddlers who were born without one, doctors reported Tuesday.

Results show that all but two of the 50 children who were given the experimental therapy in a study now have healthy germ-fighting abilities.

“We’re taking what otherwise would have been a fatal disease” and healing most of these children with a single treatment, said study leader Dr. Donald Kohn of UCLA Mattel Children’s Hospital.