Researchers have converted a natural bacterial immune system into a microscopic data recorder, laying the groundwork for a new class of technologies that use bacterial cells for everything from disease diagnosis to environmental monitoring.
Using CRISPR-Cas, an immune system in many species of bacteria, researchers engineered human gut microbe Escherichia coli or E. coli to act as data recorders while they move through the body.
"The CRISPR-Cas system is a natural biological memory device," said Harris Wang, Assistant Professor at the Columbia University Medical Center.
"From an engineering perspective that's actually quite nice, because it's already a system that has been honed through evolution to be really great at storing information," Wang added.
Whenever a bacteria survives an encounter with a attacking viruses, CRISPR-Cas copies a snippet of the invader's DNA. As a result, if the same viruses try to infect again, the CRISPR-Cas system can recognise, even generations later, and eliminate them.
"Such bacteria, swallowed by a patient, might be able to record the changes they experience through the whole digestive tract, yielding an unprecedented view of previously inaccessible phenomena," Wang said, in the paper described in the journal Science.
Other applications could include environmental sensing and basic studies in ecology and microbiology, where bacteria could monitor otherwise invisible changes without disrupting their surroundings.
To build their microscopic recorder, the researchers modified a piece of DNA called a plasmid, giving it the ability to create more copies of itself in the bacterial cell in response to an external signal.
A separate recording plasmid, which drives the recorder and marks time, expresses components of the CRISPR-Cas system.
The researchers could then examine the bacterial CRISPR locus and use computational tools to read the recording and its timing.
The study proves the system can handle at least three simultaneous signals and record for days.
CRISPR has been previously used to store poems, books, and images in DNA, but this is the first time its been used to record cellular activity and the timing.
--IANS
rt/umer/rn
Disclaimer: No Business Standard Journalist was involved in creation of this content
You’ve reached your limit of {{free_limit}} free articles this month.
Subscribe now for unlimited access.
Already subscribed? Log in
Subscribe to read the full story →
Smart Quarterly
₹900
3 Months
₹300/Month
Smart Essential
₹2,700
1 Year
₹225/Month
Super Saver
₹3,900
2 Years
₹162/Month
Renews automatically, cancel anytime
Here’s what’s included in our digital subscription plans
Exclusive premium stories online
Over 30 premium stories daily, handpicked by our editors
Complimentary Access to The New York Times
News, Games, Cooking, Audio, Wirecutter & The Athletic
Business Standard Epaper
Digital replica of our daily newspaper — with options to read, save, and share
Curated Newsletters
Insights on markets, finance, politics, tech, and more delivered to your inbox
Market Analysis & Investment Insights
In-depth market analysis & insights with access to The Smart Investor
Archives
Repository of articles and publications dating back to 1997
Ad-free Reading
Uninterrupted reading experience with no advertisements
Seamless Access Across All Devices
Access Business Standard across devices — mobile, tablet, or PC, via web or app