Tag: dna

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All Wound Up: DNA sequencing reveals the 3D structure of our DNA

by Gemma Johnson figures by Olivia Foster You might remember being in a biology class where molecular biology is often represented by cartoons in bright colors on the pages of a textbook. What’s happening inside our cells, however, is much more complicated than what’s depicted in those caricatures. The DNA molecules that constitute our genetic code look like a twisted ladder (the formal name is … Continue reading All Wound Up: DNA sequencing reveals the 3D structure of our DNA

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Expanding the genetic alphabet

Since the beginning of time, the genetic alphabet in all living things has consisted of 4 letters. Now, scientists have discovered a way to expand the genetic code to store and use orders of magnitude more information than ever before. Deoxyribonucleic acid (DNA) is the cellular instructions for proteins: little machines in your cells that perform important functions. DNA normally contains 4 nucleotides (A, T, … Continue reading Expanding the genetic alphabet

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How stress can change your DNA

A first link between chronic stress, genetics, and mental illness has recently observed in mice. Researchers have discovered that the genes of mice exposed to chronic stress change over time. Modifications were most associated with genes related to a variety of mental illnesses, such as depression, autism spectrum disorder, and schizophrenia.1-3 How exactly are genetics, stress, and mental illness related? DNA, serves as instructions for cells and is broken up into … Continue reading How stress can change your DNA

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CRISPR 2.0: Genome engineering made easy as A-B-C

CRISPR 2.0 is causing quite the ruckus in the scientific community. Why? Imagine that you had written a note in permanent marker, but later decided you wanted to change a single word. Without the ability to erase, your options would be limited, and further changes might make the note illegible. New CRISPR technologies, or “base editors,” behave as molecular erasers. These molecular erasers enable you to very precisely … Continue reading CRISPR 2.0: Genome engineering made easy as A-B-C

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Catching Cancer: Blood Test for Early-Stage Diagnosis

What is the difference between a normal cell and a cancer cell? The answer lies in their DNA. Cancer results from the accumulation of genetic mutations, which trigger uncontrolled cell growth. Cancer’s mutated DNA can reveal its presence early on in the disease. Like leaving fingerprints at a crime scene, tumor cells release small pieces of DNA into the bloodstream. This “circulating tumor DNA” can now … Continue reading Catching Cancer: Blood Test for Early-Stage Diagnosis

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What’s in Your Genes: Newly approved genetic testing for disease risks

by Catherine Weiner figures by Michael Gerhardt A decade ago, the idea of analyzing your DNA from the comfort of your own home seemed like science fiction. Tests required several weeks, thousands if not millions of dollars, and a lab of highly specialized PhDs. Today, thanks to technical advances and companies like 23andMe, you can perform this analysis for $199. The U.S. Food and Drug … Continue reading What’s in Your Genes: Newly approved genetic testing for disease risks

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Cancer Moonshot Musings II: Fusion oncoproteins in focus

by Steph Guerra figures by Shannon McArdel The Cancer Moonshot is an initiative that was launched by Joe Biden in 2016 with the goal of accelerating cancer research progress by bringing together world-class researchers and institutions in the battle against this disease. Armed with $300 million in startup funding, plus a total of $1.8 billion authorized over the next seven years, the Cancer Moonshot has … Continue reading Cancer Moonshot Musings II: Fusion oncoproteins in focus

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Could Woolly Mammoths Walk Again?

The Church lab at Harvard University recently announced plans to create a hybrid mammoth and elephant. Using a technology called CRISPR, researchers in the Church lab have learned how to insert mammoth DNA into the cells of modern elephants. Theoretically, this could set the stage for developing an embryo with DNA from both a modern elephant and the woolly mammoth. The group would like to … Continue reading Could Woolly Mammoths Walk Again?

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It’s a boy! Baby is born with DNA from three “parents”

  A now five-month-old boy was the first child to be born via spindle nuclear transfer, a controversial fertilization procedure that incorporates genetic material from three different people.  Most of our genes are located in the DNA found in a cell’s nucleus, but a few reside in tiny compartments called mitochondria.  While rare, mutations in mitochondrial DNA can result in devastating disorders that often cannot … Continue reading It’s a boy! Baby is born with DNA from three “parents”

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Streamlined 473-Gene Bacteria May Lead to Discoveries, Biochemical Production

Scientists at the J. Craig Venter Institute have created a fast-growing bacterial cell with a nearly-minimal number of genes necessary for survival – just 473 in total. These genes were entirely synthesized – not transplanted from a grown organism – and the creation of such a cell may allow big steps forward in gene function identification and efficient mass-production of biological molecules. Continue reading Streamlined 473-Gene Bacteria May Lead to Discoveries, Biochemical Production

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