Author Archives: Mya Dodd

Is the Secret to Longevity in our Genes?

Posted on November 20, 2017 | Leave a comment

Increasing life expectancies of the world. (Source: Wikimedia Commons)

Lifestyle and luck aside, the average human in the twenty-first century has a life expectancy of 80 years. For many people this may seem like a long time, but what about people who live to 100 years old or even older? Is there some secret to longevity they are not telling us?

The small fraction of the population who live to the age of 100 or more are called centenarians. An even smaller fraction of people, who live to be significantly older than 100 are supercentenarians. If you ask them what it takes to live a long life, you will get a wide range of answers: “morning walks and chocolate”, “tell the truth”, “raw eggs and no husband.” Although these answers cannot be directly correlated with longevity, scientists are looking for answers in our DNA.

It is true that a supercentenarian will have few than usual DNA variations known to increase the risk of heart disease, Alzheimer’s disease and other ailments, but researchers believe there is more to it than just luck. They suggest that there is a genetic code that actively protects against aging. This could explain why some supercentenarians are actually more healthy overall, than centenarians in the final months of their life.

DNA strands: Possibly hold the answer to longevity. (Source PublicDomainPictures)

Finding this sequence this is understandably hard since this “survival” phenotype is so rare and nonspecific. Of the billions of A’s, T’s, C’s, and G’s that make up our genetic code, it is hard to distinguish where these mutations occur and even more difficult to collect enough genotypes to confirm the theory.

Despite the odds, researchers published an article that identifies new variants in chromosomes 4 and 7 associated with extreme survival and reduced risk for diseases. The study used 2,070 individuals who were the one percentile of survival for the 1900 U.S. year and analyzed their genomes. They found that there are longevity-associated variants (LAV) and survival to extreme age at death (eSAV) variants, LAV being more common in centenarians. Although this far from confirms proof of a healthy aging gene, it a step forward in unlocking the secrets of living a long, healthy life.

-Mya Dodd

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A Clear Solution for Green Energy

Posted on October 30, 2017 | Leave a comment

Researchers at Michigan State University have redefined the future of solar power applications. Unlike conventional solar panels, this light harvesting technology is transparent and nearly as efficient in converting light into electricity.

The need for effective and cost efficient technology has never been higher.  As global energy consumption moves away from fossil fuels, solar powered energy has become a key player in the green energy sector. Solar cells can supply a substantial amount of energy, but they need to be deployed over a large area. Theoretically, a solar installation that covers 20% of Nevada could power the entire United States.

Schematic of current solar panel use.

Solar panels work by using the energy from light rays to bump electrons from atoms, generating a flow of electricity. Typically, solar panels comprise of many photovoltaic cells, simply meaning they convert sunlight into electricity.

Traditional panels are not enough to produce sustainable energy.

Traditional solar panels have been integrated in many areas and are often found on top of homes or tall buildings. Although this have proven to moderately effective, MSU researchers believe that this new technology will drastically expand photovoltaic applications. The thin, plastic-like material can be used on building facades, windows, cell phones and other devices with a clear surface.

As the direct pathway of sunlight varies temporally and spatially, increasing the possible areas in which energy can be harvesting also increases the absorption potential. Researchers from the University of Lisbon find that having photovoltaic cells on two or three building facades and windows could significantly increase the amount of electricity produced.

It is estimated that there is 5-7 billion square meters of glass surface area in the US. With this amount alone, solar technologies could supply almost 40% of the United States power demand. When combined with traditional solar panels, solar energy could become a major global producer of energy.

See-through solar-harvesting technologies are pioneering the expansion of solar powered applications and their implications could have a huge impact on clean energy in the future.

-Mya Dodd

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A Search for Cleaner Water

Posted on October 2, 2017 | 2 comments

Photo taken from Flickr Commons. Increasing demand for clean drinking water to drink.

As the Earth’s population grows, there is a parallel increase in demand for clean, potable water.

The ability to effectively and efficiently filter water is a problem that many researchers and scientists are trying to solve. Water clean enough for human consumption is free of undesirable chemicals, biological contaminants, and harmful gasses.

To address this growing issue, researchers have been exploring the applications of carbon nanotubes. Analogous to aquaporins, proteins in cells that transport water, these nanotubes are synthetically created to have a higher efficiency of water transport and selectivity for ions and molecules.

Aquaporins: Biological water transporter located in the cell membrane. What researchers are trying to replicate.

The structural feature responsible for the successful transport of water in aquaporins is the narrow, hydrophobic (water fearing) channel which forces water to translocate in a single-file arrangement. Past studies have tried to mimic this structure using a >1 nm diameter, but failed to replicate the effectiveness of aquaporins.

However, new studies done by Tunuguntla et al.  have proven that it is possible to create artificial water channels with increased productivity to the natural protein translocator. They have created carbon nanotubes with diameters approximately 0.8 nm wide. The new nanotube models showed water flux at a rate 6 times higher than aquaporins.

In addition, their experimentation showed a very high ion selectivity. In solutions with a very high salt concentration (NaCl), the nanotubes were still able to transport water. This finding is very promising for the desalination of water. In areas were fresh water is unavailable, application of carbon nanotubes in water purification systems would prove immensely beneficial to communities facing water scarcity.

These findings are especially promising because scientists have created an artificial water channel that rivals biological equivalent.

-Mya Dodd

 

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