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Mar 20, 2020

[UPDATED] Progress On COVID-19 Treatment? Looks Like It

Posted by in category: biotech/medical

It appears that there are some effective treatments for COVID-19 rising up. These could dramatically improve/weaken the effects of the virus.

There’s also some hope that things are better than they seem anyway. There’s growing evidence that a lot of people have COVID-19 but have such mild symptoms that they aren’t being tested and counted as confirmed cases — which means the death rate and statistics about severe cases are much better than they seem. Additionally, it’s possible a larger share of the population is immune to the virus than initially thought:

Continue reading “[UPDATED] Progress On COVID-19 Treatment? Looks Like It” »

Mar 20, 2020

Redeploying plant defences

Posted by in category: biotech/medical

The complicated secondary metabolism of plants has been the source of countless medicinal compounds and leads for drug discovery. It is little surprise then that plant products and their analogues have been employed as an early line of defence against COVID-19. On 17 February, the Chinese State Council announced that chloroquine phosphate — a structural analogue of quinine, originally extracted from the bark of cinchona trees — can be used for treating COVID-19 patients. This anti-malarial also has broad-spectrum antiviral activity and regulatory effects on the immune system. Clinical evaluation of chloroquine phosphate in more than ten hospitals across several provinces in China has shown that it alleviates the symptoms for most patients and expedites virus seroconversion.


Epidemic diseases are not a new phenomenon, but easy access to transport in the modern world has accelerated their spread. Perhaps some botanical understanding can help slow them down.

Mar 20, 2020

Five Companies Using AI to Fight Coronavirus

Posted by in categories: biotech/medical, robotics/AI

As of Thursday afternoon, there are 10,985 confirmed cases of COVID-19 in the United States and zero FDA-approved drugs to treat the infection.

While DARPA works on short-term “firebreak” countermeasures and computational scientists track sources of new cases of the virus, a host of drug discovery companies are putting their AI technologies to work predicting which existing drugs, or brand-new drug-like molecules, could treat the virus.

Mar 20, 2020

Honeywell says it will soon release ‘the most powerful quantum computer yet’

Posted by in categories: computing, quantum physics

Firm says ion-trap technology overcomes main obstacles to integrating qubits.

Mar 20, 2020

Marijuana Dispensaries Deemed “Essential” Amid Coronavirus Lockdowns in U.S.

Posted by in category: biotech/medical

🌿 Find Arizona marijuana information and news. Find AZ marijuana dispensaries, doctors, laws, events, news, and more.

Mar 20, 2020

‘Natural Killer’ Cells could halt Parkinson’s Progression

Posted by in category: biotech/medical

Researchers at the University of Georgia’s Regenerative Bioscience Center and their colleagues have found that “natural killer” white blood cells could guard against the cascade of cellular changes that lead to Parkinson’s disease and help stop its progression.

Natural killer (NK) cells are white blood cells that can kill tumors without being “told” from the body to do so. NK cells provide the first line of defense against invasion or a virus and are equipped with activating receptors that can sense cellular stress and identify cells that have been altered due to infection.

“Right now there’s no available therapy to modify or stop the progression of Parkinson’s,” said lead author Jae-Kyung “Jamise” Lee, assistant professor in UGA’s College of Veterinary Medicine. “This would be the first NK study to show the possibility of actually stopping the disease.”

Mar 20, 2020

‘It’s Not the Exact Same Virus Everywhere in the World’

Posted by in category: biotech/medical

Discuss:


— Preprint manuscript suggests COVID-19 virus has already mutated into multiple strains.

Mar 20, 2020

The berry that keeps Asia looking young

Posted by in categories: biotech/medical, futurism

Goji berries have long been part of Chinese culture. Legend has it that more than 2,000 years ago a doctor visited a village in China where everyone was more than 100 years old. He discovered that they all drank from a well that was surrounded by goji berries. And the theory was that, as the fruit ripened, it would fall into the well and its vitamin-packed contents would seep into the water. Tales are also told of a 17th-Century herbalist called Li Qing Yuen who ate goji berries every day and was said to have lived until he was 252 years old. If this wasn’t enough to encourage future generations to eat the traditional old fire simmer soups that were garnished with goji berries, Chinese mothers would tell their children that the berries would stop them from needing glasses to get them to finish their bowls.

But times are changing for this simple berry, including how it is consumed. The ancient goji berry, which has long been part of Chinese culture, is now being viewed as a superfood both in China and beyond.

Asia’s younger generations are embracing the goji berry, but giving it their own twist. For example, members of Gen Z are now buying “wellness kettles” for their goji berry tea. Their parents might recognise these as traditional soup kettles that have been repackaged by brands such as Buydeem and turned a more Instagram-worthy shade of pink. A 2019 study by Agility Research & Strategy on Gen Z in China showed that this generation sees living a healthy life as a key priority, even over money, career, personal enjoyment and having a family.

Mar 20, 2020

Activation of the Anti-Aging and Cognition-Enhancing Gene Klotho

Posted by in categories: biotech/medical, life extension, neuroscience

Multiple lines of evidence show that the anti-aging and cognition-enhancing protein Klotho fosters neuronal survival, increases the anti-oxidative stress defense, and promotes remyelination of demyelinated axons. Thus, upregulation of the Klotho gene can potentially alleviate the symptoms and/or prevent the progression of age-associated neurodegenerative diseases such as Alzheimer’s disease and demyelinating diseases such as multiple sclerosis. Here we used a CRISPR-dCas9 complex to investigate single-guide RNA (sgRNA) targeting the Klotho promoter region for efficient transcriptional activation of the Klotho gene. We tested the sgRNAs within the — 1 to — 300 bp of the Klotho promoter region and identified two sgRNAs that can effectively enhance Klotho gene transcription. We examined the transcriptional activation of the Klotho gene using three different systems: a Firefly luciferase (FLuc) and NanoLuc luciferase (NLuc) coincidence reporter system, a NLuc knock-in in Klotho 3’-UTR using CRISPR genomic editing, and two human cell lines: neuronal SY5Y cells and kidney HK-2 cells that express Klotho endogenously. The two sgRNAs enhanced Klotho expression at both the gene and protein levels. Our results show the feasibility of gene therapy for targeting Klotho using CRISPR technology. Enhancing Klotho levels has a therapeutic potential for increasing cognition and treating age-associated neurodegenerative, demyelinating and other diseases, such as chronic kidney disease and cancer.

Keywords: Alzheimer’s disease; Cancer; Chronic kidney disease; Multiple sclerosis; Myelin; Neuroprotection.

Mar 20, 2020

DARPA jump-started technologies behind some of the leading COVID-19 vaccine and antibody hopes

Posted by in category: biotech/medical

A U.S. defense agency that specializes in turning science fantasies into realities jump-started technologies and nurtured companies that are now at the forefront of the response to the COVID-19 pandemic.

The Defense Research Advanced Projects Agency (DARPA) has taken risks where others wouldn’t. Its pursuit of high-risk, high-reward technologies, combined with its mission-driven approach to managing projects is promising to pay off in the fight against COVID-19.

DARPA was behind the creation of DNA and RNA vaccines, funding early R&D by Moderna Inc. (NASDAQ: MRNA) and Inovio Pharmaceuticals Inc. (NASDAQ: INO) at a time when the technologies were considered speculative by many scientists and investors.