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Nov 25, 2022

Chinese scientists have managed to create a strong, flexible ceramic

Posted by in category: futurism

NiseriN/iStock.

Before this discovery, it was commonly believed that a ceramic’s flexibility and strength were opposites and that either would worsen if the other improved.

Nov 25, 2022

We can now use cells from dead people to create new life. But who gets to decide?

Posted by in category: futurism

This is why it’s important to tell partners or parents whether you’d want your eggs, sperm or embryos to be used after you’ve died.

Nov 25, 2022

Immune cells control waste clearance in the brain

Posted by in categories: biotech/medical, neuroscience

Scientists identified a type of immune cell that helps clear waste products in the brain, suggesting new strategies for preventing and treating Alzheimer’s disease and related disorders.

Nov 25, 2022

Indian Surgeon’s Groundbreaking Cancer Research Saves the Lives of 1000s of Women

Posted by in category: biotech/medical

When Lady Meherbai Tata died of leukaemia on 18 June 1931, her husband, Sir Dorabji Tata, Jamsetji Tata’s son and a key figure of the Tata Group endowed the Lady Tata Memorial Trust with a corpus for research into leukaemia in memory of his wife. He set out to establish high-quality facilities for cancer treatment in India.

(Images above of Dr. Indraneel Mittra and a representational photo of middle-aged women.)

Out of this humanitarian commitment emerged the now well-renowned Tata Memorial Hospital, commissioned by the Sir Dorabji Tata Trust on 28 February 1941.

Nov 25, 2022

Acid produced by the brain could drive disease-related psychosis

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

A chemical called kynurenic acid may play a role in diseases characterised by cognitive impairments or psychosis, including schizophrenia, Alzheimer’s disease and bipolar disorder. Newly developed drugs that reduce this acid in the brain show promise in reducing symptoms of these conditions.

Nov 25, 2022

San Francisco police consider letting robots use ‘deadly force’

Posted by in categories: military, policy, robotics/AI

The San Francisco Police Department is proposing a new policy that would give robots the license to kill, as reported earlier by Mission Local (via Engadget). The draft policy, which outlines how the SFPD can use military-style weapons, states robots can be “used as a deadly force option when risk of loss of life to members of the public or officers is imminent and outweighs any other force option.”

As reported by Mission Local, members of the city’s Board of Supervisors Rules Committee have been reviewing the new equipment policy for several weeks. The original version of the draft didn’t include any language surrounding robots’ use of deadly force until Aaron Peskin, the Dean of the city’s Board of Supervisors, initially added that “robots shall not be used as a Use of Force against any person.”

However, the SFPD returned the draft with a red line crossing out Peskin’s addition, replacing it with the line that gives robots the authority to kill suspects. According to Mission Local, Peskin eventually decided to accept the change because “there could be scenarios where deployment of lethal force was the only option.” San Francisco’s rules committee unanimously approved a version of the draft last week, which will face the Board of Supervisors on November 29th.

Nov 25, 2022

Elon Musk Clarifies That He Makes Final Decisions on Twitter Posts

Posted by in category: Elon Musk

Despite having a content moderation council.

Nov 25, 2022

Humanoid robots are getting close to reality

Posted by in category: robotics/AI

Walking, talking machines will soon act as guides, companions and deliverers | Science & technology.

Nov 25, 2022

New CRISPR gene-editing system can “drag-and-drop” DNA in bulk

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

A new technique has been added to the CRISPR gene-editing toolbox. Known as PASTE, the system uses virus enzymes to “drag-and-drop” large sections of DNA into a genome, which could help treat a range of genetic diseases.

The CRISPR system originated in bacteria, which used it as a defense mechanism against viruses that prey on them. Essentially, if a bacterium survived a viral infection, it would use CRISPR enzymes to snip out a small segment of the virus DNA, and use that to remind itself how to fight off future infections of that virus.

Over the past few decades, scientists adapted this system into a powerful tool for genetic engineering. The CRISPR system consists of an enzyme, usually one called Cas9, which cuts DNA, and a short RNA sequence that guides the system to make this cut in the right section of the genome. This can be used to snip out problematic genes, such as those that cause disease, and can substitute them with other, more beneficial genes. The problem is that this process involves breaking both strands of DNA, which can be difficult for the cell to patch back up as intended, leading to unintended alterations and higher risks of cancer in edited cells.

Nov 25, 2022

A Bizarre Case of Hypertension Immunity

Posted by in categories: biotech/medical, genetics

Scientists in Berlin have been studying a strange hereditary condition that causes half the people in certain families to have shockingly short fingers and abnormally high blood pressure for decades. If untreated, affected individuals often die of a stroke at the age of 50. Researchers at the Max Delbrück Center (MDC) in Berlin discovered the origin of the condition in 2015 and were able to verify it five years later using animal models: a mutation in the phosphodiesterase 3A gene (PDE3A) causes its encoded enzyme to become overactive, altering bone growth and causing blood vessel hyperplasia, resulting in high blood pressure.

“High blood pressure almost always leads to the heart becoming weaker,” says Dr. Enno Klußmann, head of the Anchored Signaling Lab at the Max Delbrück Center and a scientist at the German Centre for Cardiovascular Research (DZHK). As it has to pump against a higher pressure, Klußmann explains, the organ tries to strengthen its left ventricle. “But ultimately, this results in the thickening of the heart muscle – known as cardiac hypertrophy – which can lead to heart failure greatly decreasing its pumping capacity.”