Bacteria

MIT researchers have found a way to generate many pairs of signaling proteins that don’t cross-talk with each other or with naturally occurring signaling proteins found in bacterial cells.

Biologists build proteins that avoid crosstalk with existing molecules

Engineered signaling pathways could offer a new way to build synthetic biology circuits.

October 23, 2019

A scanning electron microscope (SEM) image of the polymer network that makes up mucins.

Study reveals how mucus tames microbes

Specialized sugar molecules called glycans can disarm opportunistic pathogens and prevent infection.

October 14, 2019

MIT engineers have programmed viruses called bacteriophages to kill different strains of E. coli, by making mutations in a viral protein that binds to host cells.

Engineered viruses could fight drug resistance

By tweaking bacteriophage genomes, MIT team creates a new weapon to combat infection.

October 3, 2019

A microscopic image of mixed bacteria from environmental samples. MIT researchers have developed a gene flow measurement that defines ecologically important populations of microbes.

Using recent gene flow to define microbe populations

New method identifies ecologically and medically relevant bacteria groups.

August 8, 2019

The Grossman lab studies the mobile genetic element ICEBs1, which is shown here being transferred from red donor cells to green recipient cells that display fluorescent dots after transfer.

A new way to block unwanted genetic transfer

Researchers identify a strategy to prevent mobile genetic elements from breaching the bacterial cell wall.

August 5, 2019

MIT researchers have shown that in microbial communities, bacterial species with a small population size under normal conditions can increase in abundance as environmental conditions deteriorate.

How a declining environment affects populations

Study finds that competition between bacterial species can be upended when conditions deteriorate.

May 13, 2019

MIT biological engineers used a novel machine-learning approach to discover a mechanism that helps certain antibiotics kill bacteria.

Painting a fuller picture of how antibiotics act

Machine learning reveals metabolic pathways disrupted by the drugs, offering new targets to combat resistance.

May 9, 2019

2019 Science Slam participants, hosts, and judges (left to right): Jay Thangappan, Tyler Smith, Darren Parker, Rebecca Silberman, Arish Shah, Sophia Xu, Monika Avello, Jasmin Imran Alsous, John Pham, Lindsey Backman, Emma Kowal, Ari Daniel, Vivian Siegel, and Mary Carmichael.

Department of Biology hosts second annual Science Slam

Eight biology contestants get one slide and three minutes to explain their research and impress their listeners.

April 29, 2019

Microscopic particles were immersed in natural seawater and examined underneath the microscope in order to observe the colonization dynamics of bacteria using genome sequencing.

Designing ocean ecological systems in the lab

Associate Professor Otto Cordero and colleagues discover simple assembly rules for marine microbiomes.

April 25, 2019

Chemistry professor Laura Kiessling is developing vaccines that interact with cell surface carbohydrates, and exploring ways to disrupt microbes’ ability to assemble the carbohydrates they need to build their cell walls.

The complex world of carbohydrate chemistry

Drawn to MIT by its “amazing women who were doing science,” Professor Laura Kiessling explores sugar-protein interactions that influence cell behavior.

April 24, 2019

Janus emulsion droplets are captured in the process of changing form in response to the presence of contamination by a food pathogen in a lab setting. The emulsions can be viewed by the naked eye and, with the aid of a handheld sensor currently in development, can quantify the presence and amount of bacterial contamination in food.

MIT spinout seeks to transform food safety testing

An affordable, easy-to-use handheld sensor, soon to enter the market, can indicate the presence of bacterial contaminants in food in seconds.

April 9, 2019

An exoskeleton-consuming gene found in bacteria sheds light on the first arthropods to walk the Earth.

New technique pinpoints milestones in the evolution of bacteria

Results show bacterial genomes provide “shadow history” of animal evolution.

February 7, 2019

MIT researchers found that lung tumors in mice treated with antibiotics (right, purple stain) were much smaller than untreated lung tumors (left).

Bacteria promote lung tumor development, study suggests

Antibiotics or anti-inflammatory drugs may help combat lung cancer.

January 31, 2019

Sallie “Penny” Chisholm awarded the 2019 Crafoord Prize

Institute Professor honored for discovering Prochlorococcus, the most abundant photosynthesizing organism on Earth.

January 22, 2019

A microfluidic technique quickly sorts bacteria based on their capability to generate electricity.

Technique identifies electricity-producing bacteria

Microbes screened with a new microfluidic process might be used in power generation or environmental cleanup.

January 11, 2019

MIT News | Massachusetts Institute of Technology

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