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Nov 24, 2024

What ChatGPT’s corporate victims have in common

Posted by in categories: business, robotics/AI

The first casualties of generative AI offer clues as to when a business may be strengthened by the technology—and when it will be upended. Examining them suggests three lessons for firms.

Nov 24, 2024

AI-Powered Software Offers Breakthrough for Treating Dyslexia

Posted by in categories: innovation, robotics/AI

Dysolve, the first artificial intelligence-powered platform for dissolving dyslexia and associated learning disabilities, is paving the way for a new treatment approach.

Dyslexia is a neurodevelopmental learning disorder that makes it challenging for children and adults to read, write, and spell. The condition affects one out of every five people and represents 80% to 90% of those with learning disabilities.

Continue reading “AI-Powered Software Offers Breakthrough for Treating Dyslexia” »

Nov 23, 2024

Scientists identify molecule that promotes gut regeneration and limits tumor growth

Posted by in category: biotech/medical

Researchers at Karolinska Institutet have found a molecule that can both help the intestines to heal after damage and suppress tumor growth in colorectal cancer. The discovery could lead to new treatments for inflammatory bowel disease (IBD) and cancer.

The results are published in the journal Nature in a paper titled “Liver X receptor unlinks intestinal regeneration and tumorigenesis.”

Many patients with inflammatory bowel disease (IBD) such as Crohn’s disease or ulcerative colitis do not respond to available treatments, highlighting the need to identify novel therapeutic strategies. In their study, researchers propose that promoting mucosal healing through tissue regeneration could be a valid alternative to immunosuppressive drugs.

Nov 23, 2024

Light-matter interaction reveals new paradigm of quantum information technology

Posted by in categories: chemistry, quantum physics

A research team led by Professor Jaedong Lee from the Department of Chemical Physics of DGIST has introduced a novel quantum state and a pioneering mechanism for extracting and controlling quantum information using exciton and Floquet states.

Collaborating with Professor Noejung Park from UNIST’s Department of Physics, the team has, for the first time, demonstrated the formation and synthesis process of exciton and Floquet states, which arise from light-matter interactions in two-dimensional semiconductors.

The study, published in Nano Letters in October, captures quantum information in real-time as it unfolds through entanglement, offering valuable insights into the exciton formation process in these materials, thereby advancing quantum information technology.

Nov 23, 2024

Researchers develop miRNA-tunable living interface for neurovascular remodeling

Posted by in category: biotech/medical

A research team led by Dr. Du Xuemin from the Shenzhen Institutes of Advanced Technology (SIAT) of the Chinese Academy of Sciences has reported a living interface with unique functionalities of durable secretion of bioactive exosomes with tunable contents and miRNA cargoes, effectively promoting neurovascular remodeling.

The study was published in Matter on Nov. 21.

Neurovascular remodeling is crucial for restoring normal functions of regenerated tissues or engineered organs, which requires multi-target and phase-specific paracrine regulation. However, existing strategies still cannot mimic such dynamic and complicated paracrine regulation effects in the native physiological processes, hindering synergistic neurovascular remodeling.

Nov 23, 2024

Novel silica nonwoven fabric scaffold enhances understanding of cell-to-cell interactions

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

Communication and coordination among different cells are fundamental aspects that regulate many functions in our body. This process, known as paracrine signaling, involves the release of signaling molecules by a cell into its extracellular matrix (ECM) or surroundings to communicate changes in its cellular processes or the local environment. These signaling molecules are then detected by neighboring cells, leading to various cellular responses.

For instance, during cell/tissue injury, the paracrine signaling process releases that signal nearby stem cells to assist in tissue repair in the form of scar tissue formation or blood clotting. Similar processes occur in the regulation of other vital functions, such as digestion, respiration, and reproduction. Additionally, paracrine signals influence the expression and activity of enzymes involved in drug metabolism and play a role in drug–drug interactions.

The signaling molecules, which may contain proteins and , are transported within tiny vesicles called exosomes. These vesicles serve as valuable biomarkers for various diseases and can even be engineered to carry drugs, making them a highly effective targeted drug delivery system. Notably, the hormone oxytocin and the neurotransmitter dopamine are paracrine messengers.

Nov 23, 2024

Developing an organic transmembrane device to host and monitor 3D cell cultures

Posted by in categories: biotech/medical, chemistry, engineering

Researchers have used 3D cell culture models in the past decade to translate molecular targets during drug discovery processes to thereby transition from an existing predominantly 2D culture environment. In a new report now published in Science Advances, Charalampos Pitsalidis and a research team in physics and chemical engineering at the University of Science and Technology in Abu Dhabi, UAE and the University of Cambridge describe a multi-well plate bioelectronic platform named the e-transmembrane to support and monitor complex 3D cell architectures.

The team microengineered the scaffolds using poly(3,4-ethylenedioxythiophene polystyrene sulfonate to function as separating membranes to isolate cell cultures and achieve real-time in situ recordings of cell growth and function. The to volume ratio allowed them to generate deep stratified tissues in a porous architecture. The platform is applicable as a universal resource for biologists to conduct next-generation high-throughput drug screening assays.

Nov 23, 2024

New gene drive reverses insecticide resistance in pests… then disappears

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

Insecticides have been used for centuries to counteract widespread pest damage to valuable food crops. Eventually, over time, beetles, moths, flies and other insects develop genetic mutations that render the insecticide chemicals ineffective.

Escalating resistance by these mutants forces farmers and vector control specialists to ramp up use of poisonous compounds at increasing frequencies and concentrations, posing risks to human health and damage to the environment since most insecticides kill both ecologically important insects as well as pests.

To help counter these problems, researchers recently developed powerful technologies that genetically remove insecticide-resistant variant genes and replace them with genes that are susceptible to pesticides. These gene-drive technologies, based on CRISPR gene editing, have the potential to protect valuable crops and vastly reduce the amount of chemical pesticides required to eliminate pests.

Nov 23, 2024

TRNAs help some mRNAs get lost in translation

Posted by in categories: biotech/medical, genetics

Scientists have discovered that tRNAs can determine how long mRNAs exist in a cell, causing some messages to be stabilized and translated into more protein, while directing others to be degraded and limiting how much protein can be made. They published their report in Science.

The messenger RNA (mRNA)-based vaccines developed to fight the virus SARS-CoV-2 saved lives and made the nucleic acid a household name during the COVID-19 pandemic. Suddenly, everyone knew a little bit more about the molecule that helps convert genetic information into proteins.

But in addition to determining which proteins are made, mRNAs can also specify how much protein is produced.

Nov 23, 2024

Study reveals RNA’s unknown role in DNA damage repair

Posted by in categories: biotech/medical, evolution, genetics, health, neuroscience

A multi-institutional team of researchers, led by Georgia Tech’s Francesca Storici, has discovered a previously unknown role for RNA. Their insights could lead to improved treatments for diseases like cancer and neurodegenerative disorders while changing our understanding of genetic health and evolution.

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