Page 4901
Apr 19, 2022
Study evaluates deep learning models that decode the functional properties of proteins
Posted by Shubham Ghosh Roy in categories: biotech/medical, genetics, robotics/AI
Deep learning–based language models, such as BERT, T5, XLNet and GPT, are promising for analyzing speech and texts. In recent years, however, they have also been applied in the fields of biomedicine and biotechnology to study genetic codes and proteins.
Apr 19, 2022
Genome editing for Duchenne muscular dystrophy: a glimpse of the future?
Posted by Quinn Sena in categories: biotech/medical, genetics, satellites
Circa 2021
As described above, molecular therapeutics enabling expression of a truncated dystrophin have been far developed. However, an unprecedented opportunity to correct the disease-causing mutation has arisen with the advent of Crispr-Cas9 technology (Fig. 1).
Since the generation of a Cas9-transgenic mouse [28], which allowed for pinpoint gene alterations specifically in organs targeted by AAVs encoding for the corresponding guide RNAs (gRNAs), it became clear that the inevitable course of inherited diseases might be altered by Cas9-mediated correction. Although certain limitations were unmasked early on, such as the preference of non-homologous end-joining (NHEJ) over homology-directed repair (HDR) upon enzymatic cleavage of the double stranded DNA by Cas9, or the packaging capacity of AAVs, muscular dystrophies seemed an ideal target for genome editing. DMD mutations inducing Duchenne muscular dystrophy (DMD) seemed particularly well suited, since internal truncations of the protein may lead to a shortened but stable protein with partial functional restitution and a milder disease progression, as seen in the allelic Becker muscular dystrophy (BMD).
Continue reading “Genome editing for Duchenne muscular dystrophy: a glimpse of the future?” »
Apr 19, 2022
The Hottest Temperature on Earth Was Recorded in Death Valley Last Year
Posted by Shubham Ghosh Roy in category: biotech/medical
Death Valley brings the heat, but there are other hot spots on this sweltering planet.
Summers can be hot in Death Valley, California. In fact, it is likely the hottest place on Earth—ever. Especially on Sunday, August 16 and—again—on June 17, 2021. The mercury spiked to a sweltering 130 degrees Fahrenheit in the national park, drawing crowds of tourists who flocked to take pictures with the park’s digital thermometer.
Apr 19, 2022
Consciousness and higher spatial dimensions
Posted by Jose Ruben Rodriguez Fuentes in category: neuroscience
Peter Sjöstedt-Hughes » IAI TV.
The hard problem of consciousness is the most pressing unsolved mystery in both philosophy and science. To solve such a problem, we are going to need revolutionary ways of thinking. Philosopher of mind, Peter Sjöstedt-Hughes, argues higher spatial dimensions might hold the key to the hard problem.
Apr 19, 2022
Study shows simple, computationally-light model can simulate complex brain cell responses
Posted by Kelvin Dafiaghor in categories: biotech/medical, chemistry, computing, mathematics, neuroscience
The brain is inarguably the single most important organ in the human body. It controls how we move, react, think and feel, and enables us to have complex emotions and memories. The brain is composed of approximately 86 billion neurons that form a complex network. These neurons receive, process, and transfer information using chemical and electrical signals.
Learning how neurons respond to different signals can further the understanding of cognition and development and improve the management of disorders of the brain. But experimentally studying neuronal networks is a complex and occasionally invasive procedure. Mathematical models provide a non-invasive means to accomplish the task of understanding neuronal networks, but most current models are either too computationally intensive, or they cannot adequately simulate the different types of complex neuronal responses. In a recent study, published in Nonlinear Theory and Its Applications, IEICE, a research team led by Prof. Tohru Ikeguchi of Tokyo University of Science, has analyzed some of the complex responses of neurons in a computationally simple neuron model, the Izhikevich neuron model.
“My laboratory is engaged in research on neuroscience and this study analyzes the basic mathematical properties of a neuron model. While we analyzed a single neuron model in this study, this model is often used in computational neuroscience, and not all of its properties have been clarified. Our study fills that gap,” explains Prof. Ikeguchi. The research team also comprised Mr. Yota Tsukamoto and Ph.D. student Ms. Honami Tsushima, also from Tokyo University of Science.
Apr 18, 2022
The Solar Energy Multiverse Keeps Expanding: Perovskites, Shape-Shifting Molecules, & More
Posted by Shubham Ghosh Roy in categories: cosmology, economics, solar power, sustainability
Solar energy has barely scratched the surface of its potential to decarbonize the global economy in time to avert catastrophic warming.
For all the activity in the solar energy marketplace, PV technology has barely even begun to hit the global economy in full force. Huge solar arrays filled with rows of super-efficient silicon solar panels are just one piece of an expanding universe. With that in mind, here are 4 new developments that could kick the slow pace of change into high gear.
1. Distributed Solar Energy
Apr 18, 2022
Vari Active Seat Review: The Chair for People Who Love Standing
Posted by Shubham Ghosh Roy in category: futurism
The Vari Active Seat is an interesting product. It’s a standing desk chair, which is an optional “in-between” kind of seat for sit/stand desk users. It’s a third choice between sitting and standing, giving users more flexibility for those times when you don’t want to stand or sit.
Apr 18, 2022
GPT-4 Is Coming Soon. Here’s What We Know About It
Posted by Dan Kummer in category: futurism
Apr 18, 2022
Memory Is Formed Through Rewiring of Global Network Among Pre-existing Local Neuronal Ensembles
Posted by Dan Kummer in category: neuroscience
Summary: Information about new experiences is retained by being tied to pre-existing activity patterns in the brain. Memory is acquired when the patterns are connected to each other across brain regions via transient bursts of activity.
Source: Osaka Metropolitan University.
In the brain, neuronal ensembles that bear the memory of an experience existed beforehand, suggesting a paradox that we already know what we are about to know.