At Tesla AI Day, Elon Musk and his team of engineers unveil a prototye humanoid robot, the Tesla Bot. In addition, the status of the company’s full self driving technology.
Like us on Facebook: https://www.facebook.com/cnet.
Follow us on Twitter: https://www.twitter.com/cnet.
Follow us on Instagram: http://bit.ly/2icCYYm.
Follow us on TikTok: https://vm.tiktok.com/ZMd2h6yac/
Denisovan DNA lives on in some humans today because, once our Homo sapien ancestors encountered the Denisovans, they had sex with them and gave birth to babies — something geneticists call admixture. By analyzing current-day genetic data, we can look back into human history.
Geneticists have found that a Philippine ethnic group known as the Ayta Magbukon has the highest level of Denisovan ancestry in the world.
Researchers have developed a the first two-dimensional supersolid! And it could open a new spectrum of quantum weirdness for further studies.
A group of scientists has grown mini brains that have something their real counterparts do not: a set of eye-like structures called “optic cups” that give rise to the retina.
Inspiration4 is preparing for liftoff.
The all-civilian mission is not only the first of its kind in history. It also marks a milestone for Musk’s company, which hopes to one day help humans live across the galaxy.
This is a huge, fairly sci-fi goal, but the trailblazing Inspiration4 crew could help the general public believe in it. And a Netflix documentary certainly doesn’t hurt.
I am pleased to announce that my lead-author review paper has been published in ACS Nano! If you are interested in learning about the convergence of synthetic biology and adenoviral gene therapy, I encourage you to check out my paper.
If you cannot access the full text, I have also posted a local copy at the following link: https://logancollinsblog.files.wordpress.com/2021/08/synthet…s-2021.pdf.
#ACS #ACSNano #SyntheticBiology #GeneTherapy #Biology #Biotech #Science #Biotechnology #Nanotechnology #Adenovirus #Engineering #Virology
Synthetic biology centers on the design and modular assembly of biological parts so as to construct artificial biological systems. Over the past decade, synthetic biology has blossomed into a highly productive field, yielding advances in diverse areas such as neuroscience, cell-based therapies, and chemical manufacturing. Similarly, the field of gene therapy has made enormous strides both in proof-of-concept studies and in the clinical setting. One viral vector of increasing interest for gene therapy is the adenovirus (Ad). A major part of the Ad’s increasing momentum comes from synthetic biology approaches to Ad engineering. Convergence of gene therapy and synthetic biology has enhanced Ad vectors by mitigating Ad toxicity in vivo, providing precise Ad tropisms, and incorporating genetic circuits to make smart therapies which adapt to environmental stimuli. Synthetic biology engineering of Ad vectors may lead to superior gene delivery and editing platforms which could find applications in a wide range of therapeutic contexts.
Many drugs show promising results in laboratory research but eventually fail clinical trials. We hypothesize that one main reason for this translational gap is that current cancer models are inadequate. Most models lack the tumor-stroma interactions, which are essential for proper representation of cancer complexed biology. Therefore, we recapitulated the tumor heterogenic microenvironment by creating fibrin glioblastoma bioink consisting of patient-derived glioblastoma cells, astrocytes, and microglia. In addition, perfusable blood vessels were created using a sacrificial bioink coated with brain pericytes and endothelial cells. We observed similar growth curves, drug response, and genetic signature of glioblastoma cells grown in our 3D-bioink platform and in orthotopic cancer mouse models as opposed to 2D culture on rigid plastic plates. Our 3D-bioprinted model could be the basis for potentially replacing cell cultures and animal models as a powerful platform for rapid, reproducible, and robust target discovery; personalized therapy screening; and drug development.
Cancer is the second leading cause of death globally. It is estimated that around 30 to 40% of patients with cancer are being treated with ineffective drugs ; therefore, preclinical drug screening platforms attempt to overcome this challenge. Several approaches, such as whole-exome or RNA sequencing (RNA-seq), aim to identify druggable, known mutations or overexpressed genes that may be exploited as a therapeutic target for personalized therapy. More advanced approaches offer to assess the efficacy of a drug or combinations of drugs in patient-derived tumor xenograft models or in vitro three-dimensional (3D) organoids. Unfortunately, most of the existing methods face unmet challenges, which limit their efficacy. For instance, cells can become quiescent or acquire somatic mutations while growing many generations on plastic under the influence of static mechanical forces and in the absence of functional vasculature.
Wed, Aug 25 at 9 AM PDT.
Please join us for a new episode with Dr. Alfonso Davila, an astrobiologist at NASA Ames Research Center! His research focuses on the biological and biosignature potential of terrestrial environments considered to be analogous to extraterrestrial environments, and using that knowledge to develop strategies to search for evidence of life beyond Earth.
This program is an interactive talk show where our guest will answer questions from our host, Dr. Graham Lau, as well as questions submitted via Twitter, Facebook, and SAGANet chat. For more information, visit the official website of Ask An Astrobiologist at astrobiology.nasa.gov/ask-an-astrobiologist.
On Thursday, Tesla CEO Elon Musk unveiled the Tesla Bot, which runs on the same AI used in Tesla’s autonomous vehicles. This surprise reveal was shared at the end of Tesla’s AI Day presentation. Musk revealed very few details about the humanoid robot besides the fact that it is 5″ 8′ and weighs 125 pounds.
The Tesla Bot is to be built from lightweight materials, and its head will be fitted with the autopilot cameras used by Tesla’s vehicles for sensing the environment. The Bot will be operated by Tesla’s Full Self-Driving (FSD) computer.
As Tesla focuses on Artificial Intelligence (AI) upgrades for its electric vehicles, there has also been a focus on the Dojo supercomputer, which is intended to help train the EVs to navigate the streets without human assistance. Musk said that it only made sense to make the robot into a humanoid form and that it is intended to be friendly and help navigate through a world built for humans.
The National Ignition Facility (NIF) in California has achieved a major breakthrough in the quest to develop nuclear fusion power.
The NIF is the world’s largest inertial confinement fusion (ICF) device and contains the world’s largest laser. Its 192 beams are housed in a 10-story building the size of three football fields. When combined, these can generate over a million joules of energy, or about 0.1% the amount of a lightning bolt.
Scientists have been using the immense power of this laser to heat small capsules of deuterium and tritium (isotopes of hydrogen) in an effort to reach “ignition” and kickstart thermonuclear fusion. This process, the same reaction that powers our Sun, could one day provide a limitless source of clean energy.
