Connect with us

Hi, what are you looking for?

Jewish Business News

StartUps

Israeli Scientists Develop Microscopic Robot That Detects Disease Inside Cells

red blood cell in the human heart

red blood cell in the human heart / Photo by Ton Haex

By Noncamels team /
A tiny robot that swims around the circulatory system, detecting illnesses and treating them on the spot, sounds like something straight out of an overly imaginative sci-fi movie. But fiction might soon become reality as researchers from the Weizmann Institute in Israel are working on a medical “nanobot” and achieving promising results.

For such a robot to work, it would need to be smaller than a human cell, yet sophisticated enough to communicate with them. To achieve this, the researchers needed to create a computer that is based on the body’s own building blocks – DNA.

The Weizmann Institute scientists were able to create a genetic device that operates autonomously inside bacterial cells. Despite this being a major breakthrough, the researchers still have a way to go in order to apply this technology for nanobots that operate inside human cells, which are more complex than their bacterial counterparts.

Please help us out :
Will you offer us a hand? Every gift, regardless of size, fuels our future.
Your critical contribution enables us to maintain our independence from shareholders or wealthy owners, allowing us to keep up reporting without bias. It means we can continue to make Jewish Business News available to everyone.
You can support us for as little as $1 via PayPal at [email protected].
Thank you.

Many diseases in the human body cause some genes to be modified inside the cells. The microscopic device “scans” the cell to see if all genes in it are expressed as they should be, since a malfunctioning molecule will cause a disruption in gene-expression. For instance, cells affected by cancer express a malfunction in genes related to cell-growth, causing them to expand rapidly and creating tumors.

Making damaged cells self-destruct

The device is pre-programmed with information about the cell and if the information it finds inside the cell matches its programming, it creates a protein that emits green light. The researchers,  Prof. Ehud Shapiro and Dr. Tom Ran of the Biological Chemistry and Computer Science and Applied Mathematics Departments, say that in the future, the light emitting protein could be replaced with one that can cause cells to self-destruct if the cell is diagnosed as damaged.

The scientists genetically engineered four types of bacteria, which contain two genetic factors: one with both working properly, one with none working properly and two with one functioning and the other not. The test showed that the device only shone green when checking the bacteria with both functioning transcripts. Later, more elaborate devices were created that can check more complex transcripts.

The researchers’ next step is trying to use such bacteria inside the human body for medical purposes. That shouldn’t be a problem, since the human body contains about 10 times more bacterial cells than human ones. A step further would be to operate similar devices inside human cells, but that may take some time, since human cells are much more complex than bacterial ones.

The research, which also included graduate students Yehonatan Douek and Lilach Milo, was published in Nature’s Scientific Reports.

***

This article was originally published on NoCamels.com – Israeli Innovation News

 

Newsletter



Advertisement

You May Also Like

World News

In the 15th Nov 2015 edition of Israel’s good news, the highlights include:   ·         A new Israeli treatment brings hope to relapsed leukemia...

Life-Style Health

Medint’s medical researchers provide data-driven insights to help patients make decisions; It is affordable- hundreds rather than thousands of dollars

Entertainment

The Movie The Professional is what made Natalie Portman a Lolita.

Travel

After two decades without a rating system in Israel, at the end of 2012 an international tender for hotel rating was published.  Invited to place bids...