Scientists twist DNA into self-building nanostructures that could transform technology

Published: 20 July 2025
Categories: Engineering News

RSS Feed Source: Science Daily

Scientists have used DNA’s self-assembling properties to engineer intricate moiré superlattices at the nanometer scale—structures that twist and layer like never before. With clever molecular “blueprints,” they’ve created customizable lattices featuring patterns such as honeycombs and squares, all with remarkable precision. These new architectures are more than just scientific art—they open doors to revolutionizing how we control light, sound, electrons, and even spin in next-gen materials.

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Decision, Risk and Management Sciences – Doctoral Dissertation Research Improvement Grants (DRMS-DDRIG)

Published: 18 July 2025
Categories: NSF Due Dates

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On July 10, 2025, NSF issued an Important Notice providing updates to the agency’s research security policies, including a research security training requirement, Malign Foreign Talent Recruitment Program annual certification requirement, prohibition on Confucius institutes and an updated FFDR reporting and submission timeline.

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Decision, Risk and Management Sciences (DRMS)

Published: 18 July 2025
Categories: NSF Due Dates

RSS Feed Source: Science Daily

On July 10, 2025, NSF issued an Important Notice providing updates to the agency’s research security policies, including a research security training requirement, Malign Foreign Talent Recruitment Program annual certification requirement, prohibition on Confucius institutes and an updated FFDR reporting and submission timeline.

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New axolotl study gives researchers a leg up in work towards limb regeneration

Published: 18 July 2025
Categories: National Science Foundation

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Researchers supported by the U.S. National Science Foundation have discovered that it is not how much of a key molecule that allows axolotls to regenerate limbs properly, it is how little. This new knowledge moves researchers closer to enabling tissue repair and, possibly, limb regeneration in humans.

“Axolotls are a species of salamander that have the ability to regrow limbs and repair organ tissue,” said Anna Allen, a program officer in the NSF Directorate for Biological Sciences. “Based on previous work, researchers knew that a particular molecule told cells to start the process of regrowth but how cells knew where they were along a limb and, therefore, what structure to build in that location remained a mystery.”

The new work, led by James Monaghan, a professor of biology and director of the Institute for Chemical Imaging of Living Systems at Northeastern University, shows that the key is how that critical molecule, retinoic acid, degrades. An enzyme whose only job is to destroy retinoic acid is extremely prevalent at the far end of the limb (the wrist) but much less prevalent at the shoulder, meaning the reverse for retinoic acid. It is this decreasing amount of retinoic acid that allows the cells to know if they are at the shoulder, mid-limb, or wrist.

Building on their findings, the researchers used CRISPR technology to turn off certain

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