June 8, 2018 - A team is developing a system that would make it possible to remotely control biological targets in living animals — rapidly, without wires, implants or drugs. During a test, they used radio waves or a magnetic field to turn on insulin production ...

June 2, 2025 - Rockefeller University. (2014, December 15). 'Radiogenetics' seeks to remotely control cells, genes. ScienceDaily.

http://newswire.rockefeller.edu/2014/12/15/radiogenetics-seeks-to-remotely-contr... Source: The Rockefeller University Newswire - December 15, 2014 Category: Biomedical Science Authors: pubaff Tags: Science News BRAIN Initiative ferritin Jeffrey Friedman Laboratory of Molecular Genetics magnetic field radio waves radiogenetics remote control Sarah Stanley Source Type: news

The new system, dubbed radiogenetics, uses a signal, in this case low-frequency radio waves or a magnetic field, to heat or move ferritin particles. They, in turn, prompt the opening of TRPV1, which is situated in the membrane surrounding the cell.

A team at Rensselaer Polytechnic Institute and Rockefeller University is developing a system that would make it possible to remotely control biological targets in living animals — rapidly, without wires, implants, or drugs.

December 16, 2014 - Today (December 15) in the journal Nature Medicine, the team describes successfully using electromagnetic waves to turn on insulin production to lower blood sugar in diabetic mice.

'Radiogenetics' Seeks to Remotely ... logged-in reporters only · Newswise Its the most basic of ways to find out what something does, whether its an unmarked circuit breaker or an unidentified gene flip its switch and see what happens....

December 16, 2014 - Today (December 15) in the journal Nature Medicine, the team describes successfully using electromagnetic waves to turn on insulin production to lower blood sugar in diabetic mice.

October 8, 2014 - A proposal to develop a new way ... use of a technique called radiogenetics that combines the use of radio waves or magnetic fields with nanoparticles to turn neurons on or off....

Comments on: ‘Radiogenetics’ seeks to remotely control cells and genes · https://scienceblog.com/75880/radiogenetics-seeks-remotely-control-cells-genes/ · Science news straight from the source · Tue, 16 Dec 2014 14:07:38 +0000 · hourly · https://wordpress.org/?v=6.4.1

Keywords: TRP channel, TRPV1, calcium channel, glucose, insulin, ion channel, mice, nanoparticle, optogenetic, radio-wave, radiogenetic · In a recent study published in Science,10 the authors have examined the possibility to use radio-wave instead of light-wave to control cell activity and protein production in vivo. The results of this study indicate that bioengineering of a mammalian TRPV1 channel (i.e a temperature-gated Ca2+ channel) for radio-wave activation, coupled to a Ca2+-dependent insulin gene transcription, can be used to stimulate insulin production in vivo and regulate plasma glucose when expressed in mice.

Imagine tires that charge a vehicle as it drives, streetlights powered by the rumble of traffic, or skyscrapers that generate electricity as the buildings naturally sway and shudder.

December 1, 2015 - It’s the most basic of ways to ... — flip its switch and see what happens. New remote-control technology may offer biologists a powerful way to do this with cells and genes....

June 24, 2021 - A fish gene that responds to electromagnetic fields can be used to control mammalian cells

The first approach uses radiation-responsive gene promoters to control the selective expression of a suicide gene (e.g., herpes simplex virus thymidine kinase) to irradiated tissue only, leading to targeted cell killing in the presence of a ...

With the rapid development of new technologies, including artificial intelligence and genome sequencing, radiogenomics has emerged as a state-of-the-art science in the field of individualized medicine. Radiogenomics combines a large volume of ...

Radiogenomics, focusing on the relationship between genomics and imaging phenotypes, has been widely applied to address tumour heterogeneity and predict immune responsiveness and progression. It is an inevitable consequence of current trends in precision medicine, as radiogenomics costs less than traditional genetic sequencing and provides access to whole-tumour information rather than limited biopsy specimens.

Recently, radiogenomics has played a significant role and offered a new understanding of cancer’s biology and behavior in response to standard therapy. It also provides a more precise prognosis, investigation, and analysis of the patient’s cancer. ...

With the increasing demand for precision medicine in cancer patients, radiogenomics emerges as a promising frontier. Radiogenomics is originally defined as a methodology for associating gene expression information from high‐throughput technologies ...