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CRISPR

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BBC News

BBC News reporter Michelle Roberts writes that MIT researchers have fine-tuned the CRISPR-Cas9 genome editing system to make it safer and more accurate. This development is "vital if it [CRISPR] is to be used in humans to cure inherited diseases or inborn errors,” explains Roberts. 

The New Yorker

In an article for The New Yorker, Michael Specter writes about Prof. Feng Zhang and his work with CRISPR. Specter writes that Zhang was first inspired to pursue a career in science when he attended Saturday morning molecular biology classes as a middle school student. Zhang recalls that the class, “really opened my imagination.” 

STAT

STAT reporter Sharon Begley profiles Prof. Feng Zhang. Begley writes that Zhang’s “discoveries could finally bring cures for some of the greatest causes of human suffering, from autism and schizophrenia to cancer and blindness.”

Popular Science

Alexandra Ossola writes for Popular Science that MIT researchers have found a molecule that could make the CRISPR gene-editing technique more precise. The new molecule “makes the editing process easier to control and could create new possibilities for how scientists can edit DNA in the future.”

Boston Globe

Boston Globe reporter Sharon Begley writes that Prof. Feng Zhang has uncovered enzymes that could be used to edit genes more precisely than the proteins currently used by CRISPR. Begley explains that the discovery means that CRISPR could become an “even more powerful tool to reveal the genetic defects underlying diseases and to perhaps repair them.”

Wired

In an article for Wired, Sarah Zhang writes that MIT researchers have identified a new gene-editing system that could prove more effective than current techniques. The new system involves, “a different protein that also edits human DNA, and, in some cases, it may work even better than Cas9,” the protein used for DNA editing.

Boston.com

Lloyd Mallinson reports for Boston.com that researchers from MIT and Harvard have discovered the link between obesity and genetics. “The uncovered cellular circuits may allow us to dial a metabolic master switch for both risk and non-risk individuals, as a means to counter environmental, lifestyle, or genetic contributors to obesity,” explains Prof. Manolis Kellis.

BBC News

Prof. Manolis Kellis speaks with BBC reporter Andrew Peach about the discovery of a genetic “master switch” inside fat cells. This switch “decides whether every time we have a meal the excess calories will be stored as fat or whether they will actually be burned away as heat,” explains Kellis.

Guardian

Prof. Manolis Kellis and his colleagues have discovered a metabolic switch linked to obesity, reports Chukwuma Muanya for The Guardian. “Obesity has traditionally been seen as the result of an imbalance between the amount of food we eat and how much we exercise, but this view ignores the contribution of genetics to each individual’s metabolism,” explains Kellis.

HuffPost

“Researchers at MIT and Harvard Medical School have analysed the genetics behind obesity,” writes Natasha Hinde for The Huffington Post. “They discovered a new pathway that controls human metabolism by prompting fat cells to store fat or burn it away.”

New Scientist

Andy Coghlan reports for New Scientist that MIT researchers have found a gene that determines whether fat cells store or burn energy. “You could say we’ve found fat cells’ radiator, and how to turn it up or down,” says Prof. Manolis Kellis.

Time

Alice Park reports for TIME that researchers from MIT and Harvard have identified a pathway that controls how much fat cells burn or store. “What these results say is that we can reprogram all the major fat stores in humans by intervening in this particular pathway,” explains Prof. Manolis Kellis.

Associated Press

Researchers from MIT and Harvard have discovered how the key gene linked to obesity makes people fat, reports the Associated Press. The study revealed that “a faulty version of the gene causes energy from food to be stored as fat rather than burned.”

PBS NewsHour

MIT biologists have developed a genetically modified version of a common gut bacteria that could be used to treat disease, reports Catherine Woods for the PBS NewsHour. “You could engineer a Bacteroides to live in the gut and detect when inflammation is just starting…so that you can seek treatment right away,” explains Prof. Timothy Lu.

Los Angeles Times

Researchers at MIT have developed tools that could one day allow intestinal bacteria to monitor, diagnose and treat diseases, writes Eryn Brown for The Los Angeles Times. "Just as you'd program computers, we're starting to learn how to program cells by modifying their DNA," says Prof. Timothy Lu.