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Mar 4, 2020

Unveiling Biology with Deep Microscopy

Posted by in categories: biotech/medical, finance, information science, military, robotics/AI, space

The scientific revolution was ushered in at the beginning of the 17th century with the development of two of the most important inventions in history — the telescope and the microscope. With the telescope, Galileo turned his attention skyward, and advances in optics led Robert Hooke and Antonie van Leeuwenhoek toward the first use of the compound microscope as a scientific instrument, circa 1665. Today, we are witnessing an information technology-era revolution in microscopy, supercharged by deep learning algorithms that have propelled artificial intelligence to transform industry after industry.

One of the major breakthroughs in deep learning came in 2012, when the performance superiority of a deep convolutional neural network combined with GPUs for image classification was revealed by Hinton and colleagues [1] for the ImageNet Large Scale Visual Recognition Challenge (ILSVRC). In AI’s current innovation and implementation phase, deep learning algorithms are propelling nearly all computer vision-intensive applications, including autonomous vehicles (transportation, military), facial recognition (retail, IT, communications, finance), biomedical imaging (healthcare), autonomous weapons and targeting systems (military), and automation and robotics (military, manufacturing, heavy industry, retail).

It should come as no surprise that the field of microscopy would ripe for transformation by artificial intelligence-aided image processing, analysis and interpretation. In biological research, microscopy generates prodigious amounts of image data; a single experiment with a transmission electron microscope can generate a data set containing over 100 terabytes worth of images [2]. The myriad of instruments and image processing techniques available today can resolve structures ranging in size across nearly 10 orders of magnitude, from single molecules to entire organisms, and capture spatial (3D) as well as temporal (4D) dynamics on time scales of femtoseconds to seconds.

Mar 4, 2020

How does Coronavirus compare to Ebola, SARS, etc?

Posted by in categories: biotech/medical, media & arts, space

Bottomline: DON’T PANIC!


This is a Cary prodocution!

Continue reading “How does Coronavirus compare to Ebola, SARS, etc?” »

Mar 4, 2020

How Governments Shut Down the Internet | WSJ

Posted by in category: internet

Governments around the world are shutting down the internet, saying it’s needed to prevent protests or cheating on exams. But critics say blocking expression and access to information violates human rights. Here’s how internet shutdowns work. Illustration: Crystal Tai

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Mar 3, 2020

Astronomers: Something Is Warping Our Entire Galaxy

Posted by in categories: cosmology, physics

Hmmm dark matter perhaps or a still unknown type of exterrestial physics. Much like bootes which in my expert opinion is an alien dimension maybe there are still Easter eggs hidden in the fabric of our universe that can take several lifetimes to understand even with advanced technology understanding may still be like scratching at the ceiling of infinity of understanding but may not be as difficult.


It’s a mystery that’s been puzzling astronomers for years.

Mar 3, 2020

When Giant Mushrooms Ruled the Earth

Posted by in category: futurism

Long before trees overtook the land, earth was covered by giant mushrooms.

24 feet tall and three feet wide, these giant spires dotted the ancient landscape.

A chemical analysis has shown that the 20-foot-tall (6-metre) organism with a tree-like trunk was a fungus that became extinct more than 350 million years ago.

Mar 3, 2020

Chemists inhibit a critical gear of cell immortality

Posted by in categories: biotech/medical, life extension

One of the hallmarks of cancer is cell immortality. A Northwestern University organic chemist and his team now have developed a promising molecular tool that targets and inhibits one of cell immortality’s underlying gears: the enzyme telomerase.

This enzyme is found overexpressed in approximately 90% of human and has become an important subject of study for researchers. Normal have the gene for telomerase, but it typically is not expressed.

“Telomerase is the primary enzyme that allows cancer cells to live forever,” said Karl A. Scheidt, who led the research. “We want to short-circuit this immortality. Now we have designed a first-of-its-kind small molecule that irreversibly binds to telomerase, shutting down its activity. This mechanism offers a new pathway for treating cancer and understanding cellular aging.”

Mar 3, 2020

Hints of fossil DNA discovered in dinosaur skull

Posted by in category: biotech/medical

I want a mini trex pet idc what peeps say lol :p.


Scientists have spotted cellular structures—and a substance that behaves like DNA—in cartilage more than 70 million years old.

Mar 3, 2020

If you want to save bumble bees, plant these flowers in your yard

Posted by in categories: biotech/medical, education, habitats, sustainability

Humans are the cause of many problems because humans follow humans with no solutions. Everyone is talking about coronavirus, but not about ending the virus because they are not solutions driven. Just as Wangari Maathai taught the world to plant trees to fix what humans messed up. We need to also teach the world to plant bees #beekeeping to fix what humans messed up. This does not just mean bees, but other species we are making extinct. We need to be the change not just talk about and protest for change.


Researchers have figured out which plant species bumble bees prefer to include in their diets, providing advice to those wishing to help with bee conservation efforts.

During the summer months of 2015 to 2016, authors captured bumble bees on more than 100 plant species across more than 400 plots in the Plumas National Forest in California — a mountainous, meadowy area with wildlife habitats near running water, where bumble bees are abundant.

Continue reading “If you want to save bumble bees, plant these flowers in your yard” »

Mar 3, 2020

Whole Genome Sequencing Identifies a Missense Mutation in HES7 Associated with Short Tails in Asian Domestic Cats

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

Domestic cats exhibit abundant variations in tail morphology and serve as an excellent model to study the development and evolution of vertebrate tails. Cats with shortened and kinked tails were first recorded in the Malayan archipelago by Charles Darwin in 1868 and remain quite common today in Southeast and East Asia. To elucidate the genetic basis of short tails in Asian cats, we built a pedigree of 13 cats segregating at the trait with a founder from southern China and performed linkage mapping based on whole genome sequencing data from the pedigree. The short-tailed trait was mapped to a 5.6 Mb region of Chr E1, within which the substitution c. 5T C in the somite segmentation-related gene HES7 was identified as the causal mutation resulting in a missense change (p. V2A). Validation in 245 unrelated cats confirmed the correlation between HES7-c. 5T C and Chinese short-tailed feral cats as well as the Japanese Bobtail breed, indicating a common genetic basis of the two. In addition, some of our sampled kinked-tailed cats could not be explained by either HES7 or the Manx-related T-box, suggesting at least three independent events in the evolution of domestic cats giving rise to short-tailed traits.

The majority of vertebrate species, with the remarkable exceptions of humans and apes, possess a visible tail throughout their lifespans. The animal tail is an important appendage to the torso and plays adaptive roles in locomotion, balance, communication, thermoregulation and even energy storage1. In vertebrates, tails vary dramatically in color, size, shape and mobility and represent different evolutionary histories, including multiple independent events of shortening or loss of the tail in distinct lineages. Understanding the genetic causes of intraspecific tail length polymorphism would be one essential step toward elucidating the mechanisms underlying the development and evolution of tails. In laboratory mice, genetic studies of axial skeleton development have identified multiple genes and mutations involved in caudal vertebra development that have pleiotropic effects on fertility, somitogenesis, and meiotic recombination, thus shedding light on vertebrate evolution2,3,4,5.

Mar 3, 2020

This concrete is alive

Posted by in category: materials

This concrete can heal itself, saving billions in construction costs.