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Mar 5, 2020

Our Genetic Future Is Coming… Faster Than We Think

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

If there was a public vote about human gene enhancement, would you vote YES or NO?


Our species is on the cusp of a revolution that will change every aspect of our lives but we’re hardly talking about it.

Continue reading “Our Genetic Future Is Coming… Faster Than We Think” »

Mar 5, 2020

Chinese scientists identify two strains of the coronavirus, indicating it’s already mutated at least once

Posted by in category: biotech/medical

Researchers in China have found that two different types of the new coronavirus could be causing infections worldwide.

In a preliminary study published Tuesday, scientists at Peking University’s School of Life Sciences and the Institut Pasteur of Shanghai found that a more aggressive type of the new coronavirus had accounted for roughly 70% of analyzed strains, while 30% had been linked to a less aggressive type.

Mar 5, 2020

E.P.A. Updates Plan to Limit Science Used in Environmental Rules

Posted by in categories: government, science

Even with the revisions, scientists warned, the new regulation would let the federal government dismiss or downplay seminal environmental research.

Mar 5, 2020

WHO says coronavirus death rate is 3.4% globally, higher than previously thought

Posted by in categories: biotech/medical, health

World health officials said Tuesday the mortality rate for COVID-19 is 3.4% globally, higher than previous estimates of about 2%.

“Globally, about 3.4% of reported COVID-19 cases have died,” WHO Director-General Tedros Adhanom Ghebreyesus said during a press briefing at the agency’s headquarters in Geneva. In comparison, seasonal flu generally kills far fewer than 1% of those infected, he said.

Mar 5, 2020

CRISPR Scientists Hack Patient’s Genes in Bid to Cure Blindness

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

For the first time, doctors have attempted to cure blindness by gene-hacking a patient with CRISPR technology.

A team from Oregon Health & Science Institute injected three droplets of fluid that delivered the CRISPR DNA fragments directly into a patient’s eyeball, The Associated Press reports, in hopes that it will reverse a rare genetic condition called Leber congenital amaurosis, which causes blindness early in childhood.

“We literally have the potential to take people who are essentially blind and make them see,” Charles Albright, chief scientific officer of Editas Medicine, told the AP. Editas is one of the biotech companies that actually developed the treatment. “We think it could open up a whole new set of medicines to go in and change your DNA.”

Mar 5, 2020

CDC: Get Ready to Stay At Home For a While

Posted by in categories: biotech/medical, habitats

During a Tuesday briefing, the CDC’s director of the National Center for Immunization and Respiratory Diseases Nancy Messonnier warned that self-imposed quarantines could last weeks.

“You may need to take a break from your normal daily routine for two weeks,” she said, as quoted by The Washington Post.

“Staying home when you are sick is really important,” she added. “Don’t let the illness spread beyond you. Stay away as much as you can from other people.”

Mar 5, 2020

Genome Assembly — The Holy Grail of Genome Analysis

Posted by in categories: biotech/medical, genetics

The 2019 novel coronavirus or coronavirus disease (COVID-19) outbreak has threatened the entire world at present. Scientists are working day and night to understand the origin of COVID-19. You may have heard the news recently that the complete genome of COVID-19 has been published. How did scientists figure out the complete genome of COVID-19? In this article, I will explain how we can do this.

A genome is considered as all the genetic material, including all the genes of an organism. The genome contains all the information of an organism that is required to build and maintain it.

How can we read the information present in the genome? This is where sequencing comes into action. Assuming you have read my previous article on DNA analysis, you know that sequencing is used to determine the sequence of individual genes, full chromosomes or entire genomes of an organism.

Mar 5, 2020

Plastic-eating caterpillars have gut bacteria that can live on polyethylene for over a year

Posted by in categories: food, materials

“The problem of plastic pollution is too large to simply throw worms and there is still a lot to do before we can parlay this work into making a meaningful contribution,” Cassone said. “Also, the larvae tend to eat less plastic with longer times on that type of diet. By understanding the process – why the breakdown of plastic occurs so rapidly in the waxworm—we can then begin to develop ways to really make a meaningful impact to plastic pollution.”

He continued: “Now that we know the microbiome plays a role, if we can better understand how the bacteria works together with the worm and what kind of conditions cause it to flourish, perhaps this information can be used to design better tools to eliminate plastics from our environment.”

Not all are convinced, however. Till Opatz, from the Department of Chemistry at the Johannes Gutenberg University, Germany, was critical of the initial findings that caterpillars digest plastic. At the time he and his colleagues said they disagreed with the methodology and conclusions reported, adding the study “does not provide sufficient proof” that G. mellonella can chemically destroy polyethylene.

Mar 5, 2020

Gravity’s waterfall

Posted by in categories: cosmology, physics

Physicists are using analog black holes to better understand gravity.

Mar 5, 2020

Global Organization and Proposed Megataxonomy of the Virus World

Posted by in categories: biotech/medical, genetics

Viruses and mobile genetic elements are molecular parasites or symbionts that coevolve with nearly all forms of cellular life. The route of virus replication and protein expression is determined by the viral genome type. Comparison of these routes led to the classification of viruses into seven “Baltimore classes” (BCs) that define the major features of virus reproduction. However, recent phylogenomic studies identified multiple evolutionary connections among viruses within each of the BCs as well as between different classes. Due to the modular organization of virus genomes, these relationships defy simple representation as lines of descent but rather form complex networks. Phylogenetic analyses of virus hallmark genes combined with analyses of gene-sharing networks show that replication modules of five BCs (three classes of RNA viruses and two classes of reverse-transcribing viruses) evolved from a common ancestor that encoded an RNA-directed RNA polymerase or a reverse transcriptase. Bona fide viruses evolved from this ancestor on multiple, independent occasions via the recruitment of distinct cellular proteins as capsid subunits and other structural components of virions. The single-stranded DNA (ssDNA) viruses are a polyphyletic class, with different groups evolving by recombination between rolling-circle-replicating plasmids, which contributed the replication protein, and positive-sense RNA viruses, which contributed the capsid protein. The double-stranded DNA (dsDNA) viruses are distributed among several large monophyletic groups and arose via the combination of distinct structural modules with equally diverse replication modules. Phylogenomic analyses reveal the finer structure of evolutionary connections among RNA viruses and reverse-transcribing viruses, ssDNA viruses, and large subsets of dsDNA viruses. Taken together, these analyses allow us to outline the global organization of the virus world. Here, we describe the key aspects of this organization and propose a comprehensive hierarchical taxonomy of viruses.