Slashdot Mirror

← Back to Stories (view on slashdot.org)

Light Helps Injured Mice Walk Again

Posted by samzenpus on from the blinded-me-with-science dept.

Mantrid42 writes "Researchers have been able to affect the brains of lab mice using light. Working in a new field called Optogenetics (optical stimulation plus genetic engineering), scientists injected lab mice with genes that can stimulate or inhibit neural activity based on the color of the light they're exposed to, and can be targeted to infect only on certain cell types. Additionally, another gene has been added to make neurons glow green when firing, allowing two-way communication between a brain and a machine."

10 of 92 comments (clear)

  1. :O by DirtyCanuck · · Score: 5, Funny

    Does that make them..... Optical Mice?

    1. Re::O by BitZtream · · Score: 4, Funny

      Awesome.

      I was just sitting here, bored, opened a browser to take a look at slashdot to see if anything interesting had popped up since I last checked 10 minutes ago, and I see this story with only a few comments and figure, 7? Theres got to be something funny in there by now.

      And here it is. Priceless, just freaking priceless.

      --
      Persistent Volume manager for Kubernetes - https://github.com/dwimsey/openshift-pvmanager
    2. Re::O by Solder+Fumes · · Score: 5, Funny

      They may be optical, but if you grab one and look underneath you might still find a ball or two.

    3. Re::O by Rashdot · · Score: 3, Funny

      I guess you will find an average of one ball per mouse.

      --
      This is not the sig you're looking for.
  2. Re:Retrofit by fuzzyfuzzyfungus · · Score: 4, Informative

    In principle, at any rate, it should be. Viruses are constantly hot-patching cells to modify their behavior, that is how they survive and multiply. A suitably modified virus could presumably be made to carry this particular payload. Not something you'd want to use prior to extensive testing(injecting viruses into someone's brain not being an obviously safe procedure); but it isn't implausible.

  3. Re:Makes sense by Dunbal · · Score: 3, Insightful

    Not to rain on the parade, but electrical activity does not correlate with "intelligence". Otherwise all epileptics would be super-gifted during their fits...

    --
    Seven puppies were harmed during the making of this post.
  4. For anyone who read the article by QuantumG · · Score: 3, Interesting

    This is the DNI we've been waiting for... The surgeon pops open your skull, injects some strategic locations with some gene altering viruses and installs some flashing lights. Now you can do two-way communication with a computer. What you experience depends on which cells were modified, and what program you're running. With sufficient funding for targeted research, we could see this technology in new kinds of: cochlear implants for the deaf, vision implants for the blind, artificial limb control and feeling for amputees.. and the continued improvement of those technologies will eventually lead to full sensation virtual reality immersion for anyone who can afford it. And we haven't even gotten into the gritty details of what we can learn about the brain using this technology.. reverse engineering is so much easier when you can poke as well as peek.

    --
    How we know is more important than what we know.
    1. Re:For anyone who read the article by mkiwi · · Score: 3, Funny

      Oh *please*

      Your over-optimistic attitude completely misses something that every slashdotter knows: The machines will eventually take control of our bodies, become our overlords, and turn us into bionic batteries. Keeanu Reeves will then be forced to die in a desperate plea to save humanity... just as it should be.

      Either that or super-intelligent mice will take over the world.

      We don't have room for positive attitudes here.

  5. Re:Retrofit by reverseengineer · · Score: 5, Informative

    Actually, most forms of gene therapy don't require growing cells to work. If you use a virus to carry the genes of interest into the cell, your cell will read the inserted DNA just as if it were your own. There are two routes you can go with viral vectors. You can use a retrovirus, which will actually insert genes into your permanent genome, which will cause those genes to be copied and passed on if the infected cells divide. Or you can use adenoviruses or adeno-associated viruses, which can give genes to infected cells, but those genes will not be passed on. The retroviral approach carries added risks of inserting genes in the wrong places (causing some cases of leukemia in clinical trials), and having genes pass to dividing cells is of little benefit if you want to infect the neurons of an adult brain.

    Of course, adeno-type viruses (either a weakened or non-pathogenic strain is used) are not without risk, particularly if you're planning to use them to infect your brain- meningitis seems like it'd be a real concern here. Right now, viral vector gene therapy is at the level of being an early experimental treatment for conditions like cancers and inherited immunodeficiencies- making your thoughts produce light would be a very off-label use.

    --
    "FDA staff reviewers expressed concern about the number of patients who were left out of the study because they died."
  6. READ THE FUCKING ARTICLE by Idiomatick · · Score: 3, Informative

    Most amazing piece I've read on science in a long time. This makes the genome projects look like stepping stones. If you read the whole thing and can't see the amazing power of this field you will hopefully be one of the early benefactors because you need it.