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Archive for the ‘bioengineering’ category: Page 10

Aug 9, 2024

A controversial Chinese CRISPR scientist is still hopeful about embryo gene editing. Here’s why

Posted by in categories: bioengineering, biotech/medical, genetics, law enforcement

He Jiankui, who went to prison for three years for making the world’s first gene-edited babies, talked to MIT Technology Review about his new research plans.

Aug 8, 2024

CRISPRi-based circuits to control gene expression in plants

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

Programmable and reversible CRISPRi-based genetic circuits function in a variety of plants.

Aug 6, 2024

New X-ray world record: Looking inside a microchip with 4 nanometer precision

Posted by in categories: bioengineering, computing

In a collaboration with EPFL Lausanne, ETH Zurich and the University of Southern California researchers at the Paul Scherrer Institute PSI have used X-rays to look inside a microchip with higher precision than ever before. The image resolution of 4 nanometers marks a new world record. The high-resolution three-dimensional images of the type they produced will enable advances in both information technology and the life sciences.

The researchers are reporting their findings in the current issue of the journal Nature (“High-performance 4 nm resolution X-ray tomography using burst ptychography”).

View inside a state-of-the-art computer chip. Their newly developed ptychographic technique allowed the researchers to map the three-dimensional structure of this engineering marvel. The picture shows the different layers that make up the microchip. The coarser structures can be seen at the top. The microchip becomes increasingly complex as you move down through the layers – making the connections there visible requires a resolution of just a few nanometers. (Image: Tomas Aidukas, Paul Scherrer Institute)

Aug 3, 2024

A frugal CRISPR kit for equitable and accessible education in gene editing and synthetic biology

Posted by in categories: bioengineering, biotech/medical, education, information science

Equitable and accessible education in life sciences, bioengineering, and synthetic biology is crucial for training the next generation of scientists. Here the authors present the CRISPRkit, a cost-effective educational tool that enables high school students to perform CRISPR experiments affordably and safely without prior experience, using smartphone-based quantification and an automated algorithm for data analysis.

Jul 30, 2024

Scientists ‘Mind Controlled’ Mice Remotely in Extraordinary World First

Posted by in categories: bioengineering, biotech/medical, genetics, nanotechnology, neuroscience

At the mere flick of a magnetic field, mice engineered with nanoparticle-activated ‘switches’ inside their brains were driven to feed, socialize, and act like clucky new mothers in an experiment designed to test an innovative research tool.

While ’mind control’ animal experiments are far from new, they have generally relied on cumbersome electrodes tethering the subject to an external system, which not only requires invasive surgery but also sets limits on how freely the test subject can move about.

In what is claimed to be a breakthrough in neurology, researchers from the Institute for Basic Science (IBS) in Korea have developed a method for targeting pathways in the brain using a combination of genetics, nanoparticles, and magnetic fields.

Jul 19, 2024

Beyond CRISPR: seekRNA delivers a New Pathway for Accurate Gene Editing

Posted by in categories: bioengineering, biotech/medical, food, genetics

Scientists at the University of Sydney have developed a gene-editing tool with greater accuracy and flexibility than the industry standard, CRISPR, which has revolutionized genetic engineering in medicine, agriculture and biotechnology.

SeekRNA uses a programmable ribonucleic acid (RNA) strand that can directly identify sites for insertion in genetic sequences, simplifying the editing process and reducing errors.

The new gene-editing tool is being developed by a team led by Dr. Sandro Ataide in the School of Life and Environmental Sciences. Their findings have been published in Nature Communications.

Jul 18, 2024

Beyond CRISPR: Scientists Say New Gene Editing Tool Is Like a ‘Word Processor’ for DNA

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

“Bridge recombination can universally modify genetic material through sequence-specific insertion, excision, inversion, and more, enabling a word processor for the living genome beyond CRISPR,” said Berkeley’s Patrick Hsu, a senior author of one of the studies and Arc Institute core investigator, in a press release.

CRISPR Coup

Continue reading “Beyond CRISPR: Scientists Say New Gene Editing Tool Is Like a ‘Word Processor’ for DNA” »

Jul 17, 2024

First health care device powered by body heat made possible by liquid based metals

Posted by in categories: bioengineering, energy, health, wearables

In the age of technology everywhere, we are all too familiar with the inconvenience of a dead battery. But for those relying on a wearable health care device to monitor glucose, reduce tremors, or even track heart function, taking time to recharge can pose a big risk.

For the first time, researchers in Carnegie Mellon University’s Department of Mechanical Engineering have shown that a health care device can be powered using alone. By combining a pulse oximetry sensor with a flexible, stretchable, wearable thermoelectric energy generator composed of , semiconductors, and 3D printed rubber, the team has introduced a promising way to address battery life concerns.

“This is the first step towards battery-free wearable electronics,” said Mason Zadan, Ph.D. candidate and first author of the research published in Advanced Functional Materials.

Jul 13, 2024

The brave new world of synthetic biology

Posted by in categories: bioengineering, biological

Major impacts, significant challenges.

Jul 11, 2024

Synthetic Biology is in Fashion

Posted by in categories: bioengineering, biological, food, internet, military, sustainability

Spider spidroin revives the silken splendor.

In their quest to make silk powerful again, not by status but rather by thread strength, scientists turned to an arachnoid. Dragline silk, the thread by which the spider hangs itself from the web, is one of the strongest fibers; its tensile strength—a measure of how much a polymer deforms when strained—is almost thrice that of silkworm silk.2

Beyond durable fashion garments, tough silk fibers are coveted in parachutes, military protective gear, and automobile safety belts, among other applications, so scientists are keen to pull on these threads. While traditional silk production relies on sericulture, arachnophobes can relax: spider farms are not a thing.

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