DNA

Why cancer cells waste so much energy

MIT study sheds light on the longstanding question of why cancer cells get their energy from fermentation.

January 15, 2021

Neuroscientists discover a molecular mechanism that allows memories to form

Modifications to chromosomes in “engram” neurons control the encoding and retrieval of memories.

October 5, 2020

Graphical depiction of two molecules on a train track

Scientists discover new rules about “runaway” transcription

Findings related to bacterial gene expression overturn fundamental assumptions about basic biological pathways.

September 2, 2020

MIT researchers have analyzed how epigenomic modifications change as tumors evolve. This image shows a lung with tumors that researchers collected with multiplexed immunohistochemistry.

Gene-controlling mechanisms play key role in cancer progression

Study finds “epigenomic” alterations evolve as lung tumors become more aggressive and metastasize.

July 23, 2020

Biophysicist Ibrahim Cissé investigates how cells use physics to carry out biological functions. "Nature uses physics in much more elaborate ways than we initially anticipated," he says.

3 Questions: Ibrahim Cissé on using physics to decipher biology

A physicist employs super-resolution microscopy to peer inside living cells and witness never-before-seen phenomena.

July 22, 2020

Assistant Professor Seychelle Vos uses cryogenic electron microscopy, X-ray crystallography, biochemistry, and genetics to study how DNA and its associated proteins are organized inside the cell.

3 Questions: Seychelle Vos on detangling DNA

An unconventional geneticist uses cryogenic electron microscopy and crystallography to understand gene expression and cell fate.

May 28, 2020

Nature-inspired CRISPR enzymes for expansive genome editing

Applied computational biology discoveries vastly expand the range of CRISPR’s access to DNA sequences.

May 19, 2020

Results of the STOPCovid test appear as a single or double line on a paper strip akin to a pregnancy test. In this photo, test strips showing a single line (left panel) indicate no infection. Test strips revealing double lines (right panel) indicate the presence of the virus.

SHERLOCK-based one-step test provides rapid and sensitive Covid-19 detection

New CRISPR-based research tool delivers results in an hour; researchers share protocol and kits to advance research and move toward clinical validation.

May 5, 2020

The ribonucleotide reductase (RNR) enzyme is responsible for converting RNA building blocks into DNA building blocks, and is a critical player in both DNA synthesis and repair in all organisms.

Newly discovered enzyme “square dance” helps generate DNA building blocks

MIT biochemists can trap and visualize an enzyme as it becomes active — an important development that may aid in future drug development.

March 30, 2020

An analysis of genetic, geographic, and demographic data provided by more than 32,000 Americans found distinct genetic traces within many American populations that reflect the nation's complicated history of immigration, migration, and mixture.

Historic migration patterns are written in Americans' DNA

Genetic, geographic, and demographic data from more than 30,000 Americans reveal more genetic diversity within ancestry groups than previously thought.

March 5, 2020

Brit d’Arbeloff and David Page (both seated) with Page lab postdoc Adrianna San Roman (left) and Sahin Naqvi PhD '19, a former Page lab grad student

Whitehead Institute receives $10 million to study sex chromosomes’ impact on women’s health

Gift establishes the Brit Jepson d’Arbeloff Center on Women's Health.

January 15, 2020

MIT chemists have devised a way to observe the transition state of the chemical reaction that occurs when vinyl cyanide is broken apart by an ultraviolet laser.

Screen could offer better safety tests for new chemicals

Using specialized liver cells, a new test can quickly detect potentially cancer-causing DNA damage.

December 17, 2019

Cells transfected with fluorescent genes have different colors depending on their splicing patterns.

A new way to regulate gene expression

Biologists uncover an evolutionary trick to control gene expression that reverses the flow of genetic information from RNA splicing back to transcription.

December 9, 2019

The composition and location of rock strata help scientists date when biomarkers were formed and deposited. Offshore in Zumaia, Basque Country (Spain), variations in the thickness and composition of sedimentary rocks show periodic changes in the Earth's orbit and tilt, affecting how much sunlight reaches Earth’s surface. This is near the Cretaceous-Paleogene boundary, associated with a mass exti...

How biomarkers can record and reconstruct climate trends

Scientists reveal the genes and proteins controlling the chemical structures underpinning paleoclimate proxies.

December 4, 2019

Researchers at MIT and the Broad Institute of MIT and Harvard have devised a new way to rapidly image synaptic proteins at high resolution. Using fluorescent nucleic acid probes, they can label and image as many as 12 different proteins in neuronal samples containing thousands of synapses.

Technique can image individual proteins within synapses

Rapid imaging method could help reveal how conditions such as autism affect brain cells.

September 26, 2019

MIT News | Massachusetts Institute of Technology

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