Genome editing

George Church gave the first lecture in the Department of Biology’s four-part IAP seminar series, Biology at Transformative Frontiers.

Reading and writing DNA

Department of Biology kicks off IAP seminar series with a lecture by synthetic-biology visionary George Church.

January 31, 2018

A new “REPAIR” system edits RNA, rather than DNA.

Researchers engineer CRISPR to edit single RNA letters in human cells

“REPAIR” system edits RNA, rather than DNA; has potential to treat diseases without permanently affecting the genome.

October 25, 2017

2017 $500,000 Lemelson-MIT Prize winner Feng Zhang

Gene-editing technology developer Feng Zhang awarded $500,000 Lemelson-MIT Prize

MIT associate professor and member of the Broad Institute and McGovern Institute recognized for commitment to invention, collaboration, and mentorship.

September 19, 2017

Feng Zhang to share Albany Medical Prize

Five recipients honored for their fundamental and complementary accomplishments related to CRISPR-Cas9.

August 15, 2017

MIT professors James Collins (left) and Feng Zhang are co-authors of a new paper reporting that an RNA-targeting CRISPR enzyme can be harnessed as a highly sensitive detector able to indicate the presence of as little as a single molecule of a target RNA or DNA.

Scientists unveil CRISPR-based diagnostic platform

New system adapts tool known for gene editing; to be used in rapid, inexpensive disease diagnosis.

April 13, 2017

"I would say that the committee is not opening the door to human genome editing, but we are, so to speak, removing the padlock pending possible new applications," says Richard Hynes, a Daniel K. Ludwig Professor for Cancer Research at MIT and co-chair of the NAS study committee that created the Human Genome Editing Report.

3Q: Behind the scenes of the National Academy of Sciences' report on human genome editing

MIT professor and NAS report committee co-chair Richard Hynes gives insight into the report’s recommendations.

February 24, 2017

Feng Zhang of MIT and the Broad Institute was named a runner-up for TIME's 2016 Person of the Year for his work on CRISPR gene editing. Zhang shared the honor with Emmanuelle Charpentier at the Max Planck Institute in Berlin; Jennifer Doudna at the University of California at Berkeley; Carl June at the University of Pennsylvania; and Kathy Niakan at the Francis Crick Institute in London.

Feng Zhang named a runner-up for TIME’s 2016 Person of the Year

MIT and Broad Institute scientist shares recognition with four other scientists for developing CRISPR gene-editing systems.

December 7, 2016

“I love to work on new ideas and develop new kinds of tools to tackle basic questions,” says PhD student Tim Wang.

Targeting genes by the thousands

PhD student Tim Wang uses CRISPR to take a big-picture approach to cancer research.

August 2, 2016

Feng Zhang named 2016 Tang Prize laureate

Broad Institute/MIT scientist among three honored for CRISPR contributions.

June 18, 2016

Researchers have harnessed C2c2 in bacteria to manipulate cellular RNA.

New CRISPR system for targeting RNA

Scientists program C2c2, discovered in bacteria as a viral defense mechanism, to manipulate cellular RNA.

June 2, 2016

Feng Zhang receives 2016 Canada Gairdner International Award

Broad/MIT scientist among five honored as pioneers of CRISPR-Cas9 system.

March 23, 2016

“I was always interested in biology but I felt that it’s important to get a solid training in chemistry and physics,” Feng Zhang says.

Toward a better understanding of the brain

Genome-editing pioneer Feng Zhang hopes his work will shed light on neurological disorders.

March 22, 2016

CEO Justin Lamb says Genometry aims to help pharmaceutical firms use gene-expression data (represented here as a heat map of gene expression values) to effectively digitize their compound collections.

Faster drug discovery?

Startup develops more cost-effective test for assessing how cells respond to chemicals.

January 28, 2016

The researchers used structural knowledge of Cas9 to guide engineering of a highly specific genome-editing tool.

MIT, Broad scientists overcome key CRISPR-Cas9 genome editing hurdle

Team re-engineers system to dramatically cut down on editing errors; improvements advance future human applications.

December 1, 2015

CRISPR systems are found in many different bacterial species, and have evolved to protect host cells against infection by viruses.

New system for human genome editing has potential to increase power and precision of DNA engineering

CRISPR-Cpf1 offers simpler approach to editing DNA; technology could disrupt scientific and commercial landscape.

September 25, 2015

MIT News | Massachusetts Institute of Technology

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