CRISPR

The illustration depicts Bacteroides thetaiotaomicron (white) living on mammalian cells in the gut (large pink cells coated in microvilli) and being activated by exogenously added chemical signals (small green dots) to express specific genes, such as those encoding light-generating luciferase proteins (glowing bacteria).

Researchers develop basic computing elements for bacteria

Sensors, memory switches, and circuits can be encoded in a common gut bacterium.

July 9, 2015

New way to turn genes on

Technique allows rapid, large-scale studies of gene function.

December 10, 2014

(Left to right) Tyler Jacks, Francisco Sanchez-Rivera, and Thales Papagiannakopoulos.

Fast modeling of cancer mutations

New genome-editing technique enables rapid analysis of genes mutated in tumors.

October 22, 2014

Researchers engineer new mouse model to study disease

Time-saving tool takes advantage of CRISPR gene-editing technology.

September 25, 2014

A scanning electron micrograph depicts numerous clumps of methicillin-resistant Staphylococcus aureus bacteria, commonly referred to by the acronym MRSA.

Battling superbugs

Two new technologies could enable novel strategies for combating drug-resistant bacteria.

September 21, 2014

An easier way to manipulate malaria genes

New approach to knocking out parasite’s genes could make it easier to identify drug targets.

August 10, 2014

A new way to model cancer

New gene-editing technique allows scientists to more rapidly study the role of mutations in tumor development.

August 6, 2014

An artist's depiction of the CRISPR system in action.

Broad Institute awarded first patent for CRISPR-Cas9 system

April 17, 2014

Feng Zhang wins NSF's Alan T. Waterman Award

Waterman Award is NSF's highest honor recognizing an outstanding researcher under the age of 35.

April 15, 2014

MIT News | Massachusetts Institute of Technology

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