Category Archives: DNA

Here's how the process, outlined yesterday on the website of leading scientific journal Nature,works: The scientists took these writers' famous words, encrypted them using a cipher that corresponds with DNA's four nucleic acids (A, C, G, or T),synthesizedstrands of DNA according to that code, and chilled the resulting samples in dark, dry conditions, where they should last for millennia. Goldman tells NPR's Adam Cole that one of our generation's biggest problemsorganizing and storing the deluge of data we face every daycould be solved using DNA:

The data we're being asked to be guardians of is growing exponentially. But our budgets are not growing exponentially ... We realized that DNA itself is a really efficient way of storing information.

This process shrinks information much more than existing formats like hard drives or magnetic tape. Or paper-bound books. Let's consider that a physical copy of Shakespeare's Sonnetsfromthe Folger Shakespeare Library weighs7 ounces. Project Gutenberg's digital version ofthe poemstakes up 95 KB on your Kindle. That might seem pretty compact, but physical books and e-books are majorly inefficient storage methods when contrasted with genetic encoding.Shall we compare these to a strand of DNA? Goldman's teamshowed that they can fit the entire database of pioneering particle physics lab CERN (which holds approximately 90 petabytes of information) onto just 41 grams of DNA. In comparison, every sonnet Shakespeare ever wrote could fit on a mere speck of genetic material.

RELATED: Personal Genomes Could Soon Be Public Information

These findings aren't necessarily newHarvard geneticist George Church was able to encode a book in DNA last summer. And some adventurous poets are even using DNA to encode new original works. In Canadian poet ChristianBk'sfour-line Xenotext, the stanza "Any style of life / is prim"is encodedin DNA thatalwaysspits out proteins reading "The faery is rosy / of glow." But even Church acknowledges the strides made by Goldman and his colleagues. "I think its a really important milestone," he toldNature's Ed Yong. Currently, storing information in DNA is expensive. It costs about$12,400 to store every megabyte, and $220 to extract the information in readable form. But the expense is going down every year. "In 10 years, it's probably going to be about 100 times cheaper," Goldman told The Wall Street Journal's Gautam Naik. "At that time, it probably becomes economically viable."

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How Shakespeare and MLK Got Encoded in DNA

Sixty years after scientists described the chemical code of life an interweaving double helix called DNA researchers have found four-stranded DNA is also lurking in human cells.

The odd structures are called G-quadruplexes because they form in regions of deoxyribonucleic acid (DNA) that are full of guanine, one of the DNA molecule's four building blocks, with the others being adenine, cytosine, thymine. The structure comprises four guanines held together by a type of hydrogen bonding to form a sort of squarelike shape. (The DNA molecule is itself a double strand held together by these building blocks and wrapped together like a helix.)

The new visualization of the G-quadruplex is detailed this week in the journal Nature Chemistry.

"I think this paper is important in showing directly the existence of this structure in vivo in the human genome, but it is not completely unexpected," said Hans-Joachim Lipps, of the University of Witten in Germany, who was not involved in the study. [See Images of the 4-Stranded DNA]

Scientists had shown in the past that such quadruplex DNA could form in test tubes and had even been found in the cells of ciliated protozoa, or single-celled organisms with hairlike appendages. Also there were hints of its existence in human cells, though no direct proof, Lipps said.

But scientists still didn't have concrete evidence for its existence in the human genome. In the new study, researchers, including chemist Shankar Balasubramanian, of the University of Cambridge and Cambridge Research Institute, crafted antibody proteins specifically for this type of DNA. The proteins were marked with a fluorescent chemical, so when they hooked up to areas in the human genome packed with G-quadruplexes, they lit up.

Next, they incubated the antibodies with human cells in the lab, finding these structures tended to occur in genes of cells that were rapidly dividing, a telltale feature of cancer cells. They also found a spike in quadruplexes during the s-phase of the cell cycle, or the phase when DNA replicates just before the cell divides.

As such, the researchers think the four-stranded DNA could be a target for personalized medicine in the future. If they could block these odd ducks perhaps they could stop the rapid cell division of cancer cells.

"We are seeing links between trapping the quadruplexes with molecules and the ability to stop cells dividing, which is hugely exciting," Balasubramanian said in a statement.

The finding "is certainly a technical (not scientific) breakthrough in designing antibodies sensitive enough to demonstrate this structure in vivo in the human genome," Lipps wrote.

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New Genetic Twist: 4-Stranded DNA Lurks in Human Cells

23 January 2013 Last updated at 13:03 ET By Jonathan Amos Science correspondent, BBC News

Scientists have given another eloquent demonstration of how DNA could be used to archive digital data.

The UK team encoded a scholarly paper, a photo, Shakespeare's sonnets and a portion of Martin Luther King's I Have A Dream speech in artificially produced segments of the "life molecule".

The information was then read back out with 100% accuracy.

It is possible to store huge volumes of data in DNA for thousands of years, the researchers write in Nature magazine.

They acknowledge that the costs involved in synthesizing the molecule in the lab make this type of information storage "breathtakingly expensive" at the moment, but argue that newer, faster technologies will soon make it much more affordable, especially for long-term archiving.

"One of the great properties of DNA is that you don't need any electricity to store it," explained team-member Dr Ewan Birney from the European Bioinformatics Institute (EBI) at Hinxton, near Cambridge.

"If you keep it cold, dry and dark - DNA lasts for a very long time. We know that because we routinely sequence woolly mammoth DNA that is kept by chance in those sorts of conditions." Mammoth remains are many thousands of years old.

The group cites government and historical records as examples of data that could benefit from the molecular storage option.

Much of this information is not required every day but still needs to be kept. Once encoded in DNA, it could be put away safely in a vault until it was needed.

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DNA 'perfect for digital storage'

By Breanna Draxler | January 24, 2013 3:18 pm

Genetic and binary code. Image courtesy of artida / shutterstock

DNA is the building block of life, but in the future it may also be the standard repository for encyclopedias, music and other digital data. Scientists announced yesterday that they successfully converted 739 kilobytes of hard drive data in genetic code and then retrieved the content with 100 percent accuracy.

The researchers began with the computer files from some notable cultural highlights: an audio recording of MLK Jr.s 1963 I Have a Dream speech, all 154 of Shakespeares sonnets, and, appropriately, a copy of Watson and Cricks original research paper describing DNAs double helix structure. On a hard drive, these files are stored as a series of zeros and ones. The researchers worked out a system to translate the binary code into one with four characters instead: A, C, G and T. They used this genetic code to synthesize actual strands of DNA with the content embedded in its very structure.

The ouput was actually pretty unimpressive: just a smidgeon of stuff barely visible at the bottom of a test tube. The wow factor arose when they reversed the process. The researchers sequenced the genome of the data-laden DNA and translated it back into zeros and ones. The result was a re-creation of the original content without a single error, according to the results published in Nature on Wednesday.

So what does DNA offer that other data storage methods dont? One, it can pack data really densely. A single gram of DNA holds more than a million CDs, according to the researchers. Two, DNA lasts a really long time in a range of conditions. It is not nearly as sensitive or fragile as existing data centers. Three, DNA has a reputation for safely storing information: It holds the history of all life on Earth, a tough resum to top.

This is not the first time DNA has been used to store data, but the latest iteration is far more efficient, accurate and scale-able than its predecessors. The method would be especially useful for archives that need to be stored long-term without frequent access, acting as an emergency backup rather than a practical replacement for your flash drive.

The thing holding the technology back at this point is the cost. Sequencing and especially synthesizing the DNA is a pricey process, but like most new technologies, it is getting cheaper fast. The researchers say DNA data storage could be a large-scale solution as soon as 2023.

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Data Storage in DNA Becomes a Reality

Human DNA that researchers once thought served no purpose may play a crucial role in deadly skin cancers, harboring some of the mutations that first appear in tumors and promote the malignancys growth.

Using gene sequencing technology, scientists at the Dana Farber Cancer Institute in Boston found two mutations among 71 percent of melanoma tumors analyzed. The discovery, the first to identify gene mutations in the vast region of DNA that only last year was shown to have a role turning genes on and off, was published yesterday in two studies in the online journal Science Express.

The findings are a result of faster, cheaper technology that can sequence all of a tumors DNA in days. They also prove its worth searching the whole genome, not just genes containing instructions for proteins, said Levi Garraway, the studys senior author and assistant professor of medicine at Harvard Medical School and Dana Farber Cancer Institute.

Historically, people used to call that junk DNA, Garraway said in a telephone interview. We actually didnt believe the finding at first.

The mutations are located in a part of the DNA that controls whether a gene called TERT, or telomerase reverse transcriptase, is switched on. When activated, the TERT gene can make a cell replicate almost endlessly -- a common feature in cancer cells, according to the researchers.

The mutation can be caused by exposure to sunlight, Garraway said.

These are mutations of exactly the sort that UV damage causes, he said. It makes perfect sense that youd see these in melanoma.

Melanomas account for three-quarters of the 12,000 annual deaths from skin cancer in the U.S., according to the American Cancer Society. They often start as moles on the skin with ill- defined borders and can spread to the lymph nodes and other organs, becoming increasingly difficult to treat, according to the U.S. National Institutes of Health.

After discovering the mutation, the researchers hooked a piece of the mutant DNA to another gene that makes a protein. They found that when combined, the mutant DNA increased production of the protein, and presumed it would do the same thing in the TERT genes, potentially causing melanoma.

The genetic mutations may not be limited to melanomas. The researchers said that early evidence suggests they might be common in liver and bladder cancers as well.

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Mutations Found in ‘Junk’ DNA May Be Driving Skin Cancers

Floppy disks, jump drives, DNA? Scientists have developed a way to encode music and text files into DNA, the molecules that normally hold the instructions for life.

The new method, described today (Jan. 23) in the journal Nature, is extremely expensive right now, but eventually it could be used to store digital files without electricity for thousands of years. And since DNA is so compact, vast amounts of data could be stored in one test tube, said study author Nick Goldman, a geneticist at the European Bioinformatics Institute in the U.K.

"I've gone from being a skeptic to a believer," said David Haussler, a geneticist and computer scientist at the University of California, Santa Cruz, who was not involved in the study.

And because DNA is the script of life, crucial in medicine, agriculture and other endeavors, human beings will always be pushing for ways to improve the reading and writing of DNA, Haussler told LiveScience. [Genetics by the Numbers: 10 Tantalizing Tales]

The team has even used the method to encode Shakespeare's sonnets.

Data deluge

From floppy disks to CDs to magnetic tapes, the technologies to store, read and write digital data become obsolete rapidly. Digital archives take a lot of space, and the files themselves, even archival magnetic tapes, need to be freshened up or rewritten every few years to prevent degradation.

Goldman and colleague Ewan Birney, also of European Bioinformatics Institute, were discussing this problem over beers one day when they realized that DNA might actually be feasible to store vast amounts of data.

As the discovery of intact woolly mammoth DNA demonstrates, the molecule can last for tens of thousands of years as long as it's stored in a cool, dark place, they said. It doesn't require electricity to maintain, like hard drives do, can include built-in error checking, and it's incredibly compact, Goldman told LiveScience. (Earlier this year, another team demonstrated the feasibility of DNA storage, but stored a tiny amount of data and didn't include error checking.)

Storage solution

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Shakespeare Stored in DNA Files

distamycin in the minor groove of a DNA duplex

By: helixray

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distamycin in the minor groove of a DNA duplex - Video

Little Mix singing DNA acapella live on Ustream (24/10/12)
Love this songs and their great voices! subscribe and like ! Just enjoy this great song guyz!!! ^_^

By: Kostadina Miari

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Little Mix singing DNA acapella live on Ustream (24/10/12) - Video

Little Mix - DNA (Live Acoustic)
Love this songs and their great voices! subscribe and like ! Just enjoy this great song guyz!!! ^_^

By: Kostadina Miari

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Little Mix - DNA (Live Acoustic) - Video

Discipleship DNA
Here is a breif overview of the new discipleship track at the Cause Community Church called Discipleship DNA. This program is design to help you become a fully functioning follower of Jesus Christ.

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Discipleship DNA - Video