RNA

PURExpress-ReAsH-Spinach In vitro Analysis (PERSIA) lets scientists directly and immediately measure transcription (RNA production) and translation (protein production) by using short RNA and peptide tags that produce a fluorescent signal.

A “biomultimeter” lets scientists measure RNA and protein production in real-time

Fluorescent tagging system can expedite the process of designing genes and personalizing medicine.

May 20, 2019

Earliest life may have arisen in ponds, not oceans

Study finds shallow bodies of water were probably more suitable for Earth’s first life forms.

April 12, 2019

MIT Professor Gerald Fink delivers the 2018-2019 James R. Killian Jr. Faculty Achievement Award Lecture, titled, “What is a Gene?”

The evolving definition of a gene

Professor Gerald Fink, a pioneer in the field of genetics, delivers the annual Killian Lecture.

April 5, 2019

A group of academic institutions has granted a license for SHERLOCK, the highly-sensitive, low-cost CRISPR-based diagnostic, for commercial uses in the developed world, while reserving rights to enable its broad use by organizations to serve developing nations as well as unmet public health needs in the developed world.

Academic institutions grant commercial license for CRISPR-based SHERLOCK diagnostic technology in developed world

Rights are protected for broad use in developing world and for public health needs.

March 21, 2019

MIT researchers have developed an engineered liver tissue model that can be manipulated with RNA interference (RNAi).

Tissue model reveals how RNA will act on the liver

Studies could speed the development of new treatments for liver disease.

March 5, 2019

Crystal structure of Cas12b (purple) bound to RNA (gold) and DNA (brown).

Scientists engineer new CRISPR platform for DNA targeting

CRISPR team harnesses new Cas12b enzyme for use in eukaryotic cells, adding to the CRISPR toolbox.

January 22, 2019

MIT researchers have designed inhalable particles that can deliver messenger RNA. These lung epithelial cells have taken up particles (yellow) that carry mRNA encoding green fluorescent protein.

Engineers create an inhalable form of messenger RNA

Patients with lung disease could find relief by breathing in messenger RNA molecules.

January 4, 2019

Cells have evolved to produce the components of their multi-protein complexes in precise ratios.

Tracking the footprints of protein synthesis

Researchers refine a method to quantify protein production, show that the precision with which bacteria and eukaryotes tune their gene expression is remarkably similar.

December 14, 2018

MIT engineers have designed a system that can repeatedly measure cancer cells as they flow through an array of mass sensors. Once the cells reach the end, they are collected for RNA-sequencing.

Measuring cancer cell “fitness” reveals drug susceptibility

Together, cell growth rate and gene expression shed light on why some tumor cells survive treatment.

November 29, 2018

The researchers (left to right), Joseph Jacobson, a professor of media arts and sciences and head of the Molecular Machines research group, and graduate students in the Media Lab, Pranam Chatterjee and Noah Jakimo.

New CRISPR tool opens up more of the genome for editing

Enzyme can target almost half of the genome’s “ZIP codes” and could enable editing of many more disease-specific mutations.

October 24, 2018

MIT biological engineers have devised a way to regulate the expression of RNA once it gets into cells, giving them precise control over the dose of protein that a patient receives, as shown in this conceptual image.

This RNA-based technique could make gene therapy more effective

Biological engineers design RNA circuits that enable precise control over the dose of therapeutic protein a patient receives.

October 16, 2018

New assistant professor of biology and Whitehead Institute member Ankur Jain uses a combination of innovative approaches to investigate the biology of RNA aggregation.

Ankur Jain joins Whitehead Institute and the Department of Biology

Biophysicist will investigate the biology of RNA aggregation.

June 11, 2018

Researchers have taken an in-depth look at RNA-protein interactions, determining the sequence, structure, and context preferences of RNA-binding proteins in a high throughput manner.

Decoding RNA-protein interactions

Scientists leverage one step, unbiased method to characterize the binding preferences of more than 70 human RNA-binding proteins.

June 7, 2018

Network of diverse noncoding RNAs acts in the brain

Scientists identify the first known network consisting of three types of regulatory RNAs.

June 7, 2018

MIT researchers have discovered that enzymes performing the same function in yeast and bacteria may have different structures, but are present in the same relative amounts within each type of cell.

Scientists find different cell types contain the same enzyme ratios

New discovery suggests that all life may share a common design principle.

March 29, 2018

MIT News | Massachusetts Institute of Technology

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