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Category: biotech/medical – Page 2,875

Scientists reveal core genes involved in immunity of honey bees

A core set of genes involved in the responses of honey bees to multiple diseases caused by viruses and parasites has been identified by an international team of researchers. The findings provide a better-defined starting point for future studies of honey-bee health, and may help scientists and beekeepers breed honey bees that are more resilient to stress.

“In the past decade, honey-bee populations have experienced severe and persistent losses across the Northern Hemisphere, mainly due to the effects of , such as fungi and viruses,” said Vincent Doublet, postdoctoral research fellow, University of Exeter. “The genes that we identified offer new possibilities for the generation of honey-bee stocks that are resistant to these pathogens.”

According to the researchers, recent advances in DNA sequencing have prompted numerous investigations of the genes involved in honey-bee responses to pathogens. Yet, until now, this vast quantity of data has been too cumbersome and idiosyncratic to reveal overarching patterns in honey-bee immunity.

Intestinal bacteria alter gut and brain function

Research from McMaster University has found that bacteria in the gut impacts both intestinal and behavioural symptoms in patients suffering from irritable bowel syndrome (IBS), a finding which could lead to new microbiota-directed treatments.

The new study, published today in Science Translational Medicine, was led by researchers from the Farncombe Family Digestive Health Research Institute at McMaster, Drs. Premysl Bercik and Stephen Collins, in collaboration with researchers from the University of Waterloo.

IBS is the most common gastrointestinal disorder in the world. It affects the large intestine and patients suffer from abdominal pain and altered bowel habits like diarrhea and constipation, which are often accompanied by chronic anxiety or depression. Current treatments aimed at improving symptoms have limited efficacy because the underlying causes are unknown.

Forget Mammoths, We Could Bring Dinosaurs and Neanderthals Back to Life

Dangerous thought.

The scientific world was set ablaze of late as discussions ramped up about the resurrection of the wholly mammoth. I know what you’re thinking: Jurassic Park. Well, not quite — but maybe not that far off, either. Dr. Michio Kaku, professor of theoretical physics at the City College of New York, wonders: what if we could clone the Neanderthal, or a dinosaur, based solely off their genomes?

George Church, geneticist and director of Harvard University’s Church Labs, believes that we can clone a Neanderthal in our lifetime. So much so that he thinks all we need is “one extremely adventurous human female.” While he doesn’t advocate for the project to be attempted straight away, he does encourage discussion on the matter. Church believes that with current stem cell technology and our completed sequence of the Neanderthal genome, we are equipped with the potential to clone a Neanderthal.

The Neanderthals went extinct tens of thousands of years ago, so cloning one from recovered DNA would be impressive enough of a feat — but what about something from 65 million years ago? Dr. Kaku addresses this, admitting that cloning a dinosaur won’t be as easy as cloning a Neanderthal or a mammoth (which wouldn’t very “easy” to begin with) — but that doesn’t mean it’s impossible.

Continue reading “Forget Mammoths, We Could Bring Dinosaurs and Neanderthals Back to Life” | >

‘Like a Bespoke Suit’: 3D-Printed Skin Breakthrough Gives Hope to Burn Victims

A 3D bioprinter able to create human skin is already being used to help burns patients and carry out skin testing, Alfredo Brisac, CEO of Spanish bioengineering company BioDan, told Radio Sputnik.

Last month, scientists at Universidad Carlos III de Madrid and the BioDan Group presented a prototype 3D bioprinter that can create human skin suitable for transplantation to patients or for use in cosmetic, chemical or pharmaceutical testing.

One of the first living human organs to be created using bioprinting, the 3D-printed skin is created using bio-inks with living cells that are deposited onto a structure that replicates nature. The bio-ink contains the key elements of keratinocytes, fibroblasts and fibrin, which can recreate the structure of the skin.

US approves 3 types of genetically engineered potatoes

BOISE, Idaho (AP) — Three types of potatoes genetically engineered to resist the pathogen that caused the Irish potato famine are safe for the environment and safe to eat, federal officials have announced.

The approval by the U.S. Environmental Protection Agency and the U.S. Food and Drug Administration late last week gives Idaho-based J.R. Simplot Company permission to plant the potatoes this spring and sell them in the fall.

The company said the potatoes contain only potato genes, and that the resistance to late blight, the disease that caused the Irish potato famine, comes from an Argentine variety of potato that naturally produced a defense.

Novel 3D printing technique uses magnets to create smart materials for soft robotics and medicine

New research describes a novel 3D printing technique for the production of smart materials that may find use in soft-robotics and advanced medicine.

In a recent academic paper the, “striking phenomena” that “can be produced by embedding magnetic particles into polymer with designed patterns,” are described in detail. These phenomena include smart materials with, “tunable elastic properties, giant deformational effects, high elasticity, anisotropic elastic and swelling properties, and quick response to magnetic fields.

As previously reported by 3D Printing Industry, investigations into smart and meta materials are increasingly using 3D printing techniques.

Super resolution imaging helps determine a stem cell’s future

Scientists at Rutgers and other universities have created a new way to identify the state and fate of stem cells earlier than previously possible.

Understanding a stem cell’s fate—the type of cell it will eventually become—and how far along it is in the process of development can help scientists better manipulate for .

The beauty of the method is its simplicity and versatility, said Prabhas V. Moghe, distinguished professor of biomedical engineering and chemical and biochemical engineering at Rutgers and senior author of a study published recently in the journal Scientific Reports. “It will usher in the next wave of studies and findings,” he added.

This Neural Probe Is So Thin, The Brain Doesn’t Know It’s There

Wiring our brains up to computers could have a host of exciting applications – from controlling robotic prosthetics with our minds to restoring sight by feeding camera feeds directly into the vision center of our brains.

Most brain-computer interface research to date has been conducted using electroencephalography (EEG) where electrodes are placed on the scalp to monitor the brain’s electrical activity. Achieving very high quality signals, however, requires a more invasive approach.

Integrating electronics with living tissue is complicated, though. Probes that are directly inserted into the gray matter have been around for decades, but while they are capable of highly accurate recording, the signals tend to degrade rapidly due to the buildup of scar tissue. Electrocorticography (ECoG), which uses electrodes placed beneath the skull but on top of the gray matter, has emerged as a popular compromise, as it achieves higher-accuracy recordings with a lower risk of scar formation.

‘They want to be literally machines’: Writer Mark O’Connell on the rise of transhumanists

Slate book columnist Mark O’Connell’s new book To Be a Machine, which is specifically about #transhumanism, is out tomorrow. So there’s a ton of reviews out in major media. The last chapter in the book is about my work. Here are 3 reviews just out on the book. ALSO, I highly encourage you to BUY the book to help transhumanism grow. Mark’s book is the first book specifically on the movement with this kind of international attention, and the better the book does the first week, the more people will know about transhumanism: http://www.theverge.com/2017/2/25/14730958/transhumanism-mar…biohackers &

http://www.theglobeandmail.com/arts/books-and-media/book-rev…e34127614/ &

Mark O’Connell Doesn’t Want to Be a Cyborg: The Millions Interview

The strangest place writer Mark O’Connell has ever been to is the Alcor Life Extension Foundation — where dead bodies are preserved in tanks filled with nitrogen, in case they can be revived with future technology. “There was a floor with the stainless steel cylinders and all these bodies contained within them and corpses and severed heads,” he tells The Verge. “That imagery is something that I will take with me to a grave, whether that’s a refrigerated cylinder or an actual grave.”

O’Connell, 37, visited Alcor while writing To Be a Machine, which comes out February 28th. The nonfiction book delves into the world of transhumanists, or people who want to transcend the limits of the human body using technology. Transhumanists want to be stronger and faster; they want to be cyborgs. And they want to solve the problem of death, whether by freezing their bodies through cryonics or uploading their consciousnesses. Transhumanists have been around since at least the 1980s, but have become more visible in the past decade as technology advances have made these ideas seem more feasible and less like sci-fi.