Menu

Blog

Archive for the ‘food’ category: Page 311

Jan 29, 2016

Biotechnology, synthetic biology keys to humans colonizing other planets

Posted by in categories: alien life, biotech/medical, food, genetics, particle physics, space travel, sustainability

Over the last 12,000 years or so, human civilization has noticeably reshaped the Earth’s surface. But changes on our own planet will likely pale in comparison when humans settle on other celestial bodies. While many of the changes on Earth over the centuries have been related to food production, by way of agriculture, changes on other worlds will result, not only from the need for on-site production of food, but also for all other consumables, including air.

As vital as synthetic biology will be to the early piloted missions to Mars and voyages of exploration, it will become indispensable to establish a long-term human presence off-Earth, namely colonization. That’s because we’ve evolved over billions of years to thrive specifically in the environments provides by our home planet.

Our physiology is well-suited to Earth’s gravity and its oxygen-rich atmosphere. We also depend on Earth’s magnetic field to shield us from intense space radiation in the form of charged particles. In comparison, Mars currently has no magnetic field to trap particle radiation and an atmosphere that is so thin that any shielding against other types of space radiation is negligible compared with the protection that Earth’s atmosphere affords. At the Martian surface, atmospheric pressure never gets above 7 millibars. That’s like Earth at an altitude of about 27,000 m (89,000 ft), which is almost the edge of space. And it’s not like the moon is a better option for us since it has no atmosphere at all.

Read more

Jan 26, 2016

2016 – The Year of Robot Democratization?

Posted by in categories: biotech/medical, drones, food, health, internet, robotics/AI

The things we need to know for the 2016 robotic experience — robot clusters, manufacturing & logistics, food & healthcare, A3 Mexico Coming Soon and robotics integration.


Bold predictions for Collaboration, Connectivity and Convergence rang in 2015. One industry insider even called them prescient. Looking back a year later, we see the five-year forecast materializing faster than expected.

Industrial Internet of Things (IIOT) is more than a buzzword. With drones taking to the skies and autonomous robots navigating our warehouses, local eateries, hotels, hospitals, and stores, and soon our roadways – the differences between industrial, collaborative, and service robots continue to blur. No longer are robots reserved for multinational conglomerates or the rich eccentric with a sweet tooth for high-tech toys. SMEs and your average homeowner can now join the party. Sensors, software, and hardware are getting smarter and cheaper. We’re democratizing robotics for the masses.

Continue reading “2016 – The Year of Robot Democratization?” »

Jan 23, 2016

New worlds: Tapping particles of light

Posted by in categories: food, health, life extension, particle physics

Interesting; no more rotten fruit. Researchers may actually found a new way to preserve perishable foods. Can you imagine the cost savings to consumers, plus being able to supply more people with fresh fruits and vegetables. World Bank and Health Organizations should be interested in this as well.

It does make me wonder how the research on life extension, etc. can learn from the findings of this experiment.


Researchers have managed to “pluck” a single photon – one particle of light – out of a pulse of light.”

Read more

Jan 22, 2016

I’ve heard that lobsters live forever, and they don’t actually age. Is this true, and could I keep one alive forever in an aquarium (assuming I could provide food)?

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

Stanford used modified messenger RNA to extend the telomeres so the whole process if it translates effectively into humans — and the evidence is suggesting it will — would be pretty straightforward especially when you consider the degree of extension which is 1000 nucleotides and the fact that the telomerase which lengthens the telomeres is only active in the body for 48 hours which means there is no significant risk of cancer due to the limited time during which proliferation of the cells could take place.


It’s true that Lobsters defy the normal aging process which in humans increases the risk of heart disease, stroke, cancer, Alzheimer’s and diabetes in humans but not only that they actually become stronger and bigger with age each time they shed their shell whereas humans and other mammals are completely the opposite suffering muscle loss, stiffness and elevated risk of fractures etc. Lobsters just keep growing and can grow to a colossal size over the years there is information on a 95 year old 23 pounder (10.5kg) here http://www.cbsnews.com/news/95-year-old-lobster-featured-at-…estaurant/

Normally a lobster dies because it is eaten by a predator I.e us!, suffers an injury or gets a disease. we know the reason they remain fit and strong and it lies in their use of telomerase to protect their DNA and prevent their telomeres shortening and as a result protecting their cells from dying they also have a vast supply of stem cells which can turn into any into any type body of tissue and this will be one of our main tools for biomedical repairs in the future along with telomere lengthening as explained below because if we can extend our telomeres we will also hold one of the keys to life extension.

Continue reading “I’ve heard that lobsters live forever, and they don’t actually age. Is this true, and could I keep one alive forever in an aquarium (assuming I could provide food)?” »

Jan 22, 2016

How do astronauts grow plants in space?

Posted by in categories: food, space

In August 2015, astronauts on the International Space Station ate the first vegetables grown in space; earlier this month, they coaxed the first zinnias to bloom.

Though space agricultural technology hasn’t quite reached the level of that seen in The Martian, overcoming the challenges presented by zero-gravity to grow plants was a feat in itself.

Continue reading “How do astronauts grow plants in space?” »

Jan 19, 2016

Impossible Foods

Posted by in categories: economics, food, habitats

We love meat. We love cheese. And for thousands of years we have relied on animals to make them. Impossible Foods has found a better way. We use plants to make the best meats and cheeses you’ll ever eat.

Read more

Jan 17, 2016

DIY gene-editing kit: Is it fun or scary?

Posted by in categories: biotech/medical, ethics, food, genetics, habitats

Although the recent article and announcement of Josiah Zayner (CA scientist) new do it yourself gene editing kit for $120 sent shock waves across industry as well as further raised the question “how do we best put controls in place to ensure ethics and prevent disaster or a crisis?”; this genie truly is out of the bottle. Because Josiah created this easily in his own kitchen, it can be replicated by many others in their own homes. What we have to decide is how to best mitigate it’s impact. Black markets & exotic animal, etc. collectors around the world will pay handsomely for this capability and raise the stakes of the most bizarre animals (deadly and non-deadly) to be created for their own profits and amusements.


BURLINGAME, Calif. — On the kitchen table of his cramped apartment, Josiah Zayner is performing the feat that is transforming biology. In tiny vials, he’s cutting, pasting and stirring genes, as simply as mixing a vodka tonic. Next, he slides his new hybrid creations, living in petri dishes, onto a refrigerator shelf next to the vegetables. And he’s packaging and selling his DIY gene-editing technique for $120 so that everyone else can do it, too.

Read more

Jan 13, 2016

Does our Microbiome Control Us or Do We Control It?

Posted by in categories: biotech/medical, chemistry, food, genetics, health, neuroscience

This is an interesting conjecture.


We may be able to keep our gut in check after all. That’s the tantalizing finding from a new study published today that reveals a way that mice—and potentially humans—can control the makeup and behavior of their gut microbiome. Such a prospect upends the popular notion that the complex ecosystem of germs residing in our guts essentially acts as our puppet master, altering brain biochemistry even as it tends to our immune system, wards off infection and helps us break down our supersized burger and fries.

In a series of elaborate experiments researchers from Harvard Medical School and Brigham and Women’s Hospital discovered that mouse poop is chock full of tiny, noncoding RNAs called microRNAs from their gastrointestinal (GI) tracts and that these biomolecules appear to shape and regulate the microbiome. “We’ve known about how microbes can influence your health for a few years now and in a way we’ve always suspected it’s a two-way process, but never really pinned it down that well,” says Tim Spector, a professor of genetic epidemiology at King’s College London, not involved with the new study. “This [new work] explains quite nicely the two-way interaction between microbes and us, and it shows the relationship going the other way—which is fascinating,” says Spector, author of The Diet Myth: Why the Secret to Health and Weight Loss Is Already in Your Gut.

Continue reading “Does our Microbiome Control Us or Do We Control It?” »

Jan 13, 2016

Swallowing this smart nano pill could stop us from making diet mistakes

Posted by in categories: biotech/medical, electronics, food

It’s not always talked about in polite company, but your body produces a lot of gases scientists know little about.

A new smart pill, designed at Melbourne’s RMIT University, could help us learn more and may eventually assist in customising what we eat to suit our bodies.

Researchers from the Centre for Advanced Electronics and Sensors have developed the pill, which can measure intestinal gases, and they have now undertaken the first animal tests using the technology to examine the impact of fibre on the gut.

Read more

Jan 5, 2016

Next-generation Wi-Fi 802.11ah announced with almost double the range, lower power

Posted by in categories: energy, food, habitats, health, internet, transportation

The Wi-Fi Alliance branded its next-generation 802.11ah wireless protocol as Wi-Fi HaLow. It is targeted at the Internet of Things (IoT), which includes the smart home, connected car, and digital healthcare, as well as industrial, retail, agriculture, and smart-city environments. Unlike the older and more familiar 802.11 protocols, which mostly use the 2.4 or 5GHz bands, 802.11ah is a sub-gigahertz protocol that uses the 900MHz band. It has an enviable combination of characteristics.

Read more