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Biotech

Scientists Research An Even More Powerful Technique for Genetically-Modifying Mosquitos (bbc.com) 65

The BBC reports on "the next generation of genetic modification technology" — which goes beyond simply introducing a "lab-tweaked gene" into an organism. Instead it introduces a "gene drive" — a lab-tweaked gene "that targets and removes a specific natural gene." if an animal (parent A) that contains a gene drive mates with one that doesn't (parent B), then in the forming embryo that starts to combine their genetic material, parent A's gene drive immediately gets to work. It recognises the natural gene version of itself in the opposite chromosome from parent B, and destroys it, by cutting it out of the DNA chain. Parent B's chromosome then repairs itself — but does so, by copying parent A's gene drive. So, the embryo, and the resulting offspring, are all but guaranteed to have the gene drive, rather than a 50% chance with standard GM — because an embryo takes half its genes from each parent.

Gene drives are created by adding something called Crispr, a programmable DNA sequence, to a gene. This tells it to target the natural version of itself in the DNA of the other parent in the new embryo. The gene drive also contains an enzyme that does the actual cutting.

It is hoped that gene drives can be used to greatly reduce the numbers of malarial mosquitos, and other pests or invasive species.... One organisation at the forefront of this is Target Malaria, which has developed gene drives that stop mosquitos from producing female offspring. This is important for two reasons — only the females bite, and without females, mosquito numbers will plummet. The core aim is to greatly reduce the number of people who die from malaria — of which there were sadly 627,000 in 2020, according to the World Health Organization. It could also slash the economic impact of the disease. With 241 million cases in 2020, mostly in Africa, malaria is estimated to cost the continent $12bn (£9.7bn) in reduced economic output every year....

One of the world's pioneering developers of gene drives is US biologist Kevin Esvelt, an assistant professor at Massachusetts Institute of Technology. He first came up with the technology back in 2013.... Prof Esvelt adds that this technology is being provided by something called "daisy chain". This is where a gene drive is designed to become inert after a few generations. Or halving its spread every generation until it eventually stops. Using this technology he says it is possible to control and isolate the spread of gene drives. "A town could release GM organisms with its boundaries to alter the local population [of a particular organism] while minimally affecting the town next door," he says.

The technology has not been authorized for use "in the wild," the article points out. But there are currently no bans on laboratories researching it.
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Scientists Research An Even More Powerful Technique for Genetically-Modifying Mosquitos

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  • by NXIL ( 860839 ) on Sunday May 22, 2022 @11:43PM (#62557716)

    Should be better than Jurassic Park and Andromeda Strain meet Prometheus.

    • Re: (Score:3, Interesting)

      There have been some concerns that the Malaria virus itself may mutate so that it can spread via other means, instead of mosquitos. Otherwise, most people seem to think that gene drives are a possible valid method of controlling pests, and rats and invasive species which have reached islands, etc.

      Of course if gene drives are easy to make (some articles claim you can make a specific gene drive as fast as in a month or so), will not be surprised if people start tinkering with humans, etc.

      DNA / RNA related sci

      • by Xenna ( 37238 ) on Sunday May 22, 2022 @11:58PM (#62557740)

        Malaria is caused by a parasite, not a virus. Better ignore the rest of your reaction as well.

      • There have been some concerns that the Malaria virus itself may mutate so that it can spread via other means, instead of mosquitos. ,/QUOTE>

        The maliaria protozoan or any other disease agent is more likely to successfully mutate (as in "gets worse" in human terms) the more human hosts it has to proliferate in. Deprive it of its mosquito vector, and it won't find nearly as many hosts in which to mutate.

      • Smallpox was successfully eradicated. It can be done.

    • When Einstein revealed the relationship between mass and energy he probably had little if any concerns that the natural inclinations of social humanity tend towards developing controls over natural forces to develop towards shaping those revealed powers that could not only destroy human civilization but also fundamentally wreak major havoc on most of planetary life. Now that that inevitability has been realized, I wonder about how gene modifications might be ordered into new possibilities to create humans
    • Mosquitoes provide food for fish, bats, birds, dragonflies, damselflies, spiders, frogs, tadpoles, turtles, and other mosquitoes.

      * we might see starving populations of animals that eat freshwater fish
      * or die offs in owls, hawks, snakes, and cats (Because bat populations dying off)
      * birds eat flies, which in turn are eaten by hawks and owls
      * no more frogs, mean snakes dying off. mice and rat populations could grow unchecked

      but it's true that zika, malaria, and a host of other infections are a plague against

      • by Joce640k ( 829181 ) on Monday May 23, 2022 @04:07AM (#62557916) Homepage

        Mosquitoes provide food for fish, bats, birds, dragonflies, damselflies, spiders, frogs, tadpoles, turtles, and other mosquitoes.

        Sigh.

        There's thousands of species of mosquitos. The malaria-causing, human biting ones aren't important in the grand scheme.

        • by GoTeam ( 5042081 )

          In the grand calculus of the multiverse, their sacrifice means far more than their deaths

        • ^^^^ THIS

          It is not being proposed to eradicate the mosquito itself, in addition to other mosquitoes just about every other insect that likes the damp and warm and flies is a substitute on the food chain as well.
        • Exactly. Not only that, but the species that transmits malaria (and many other diseases) is actually an invasive organism everywhere outside of Africa - eliminate it at the native mosquito species have less competition for nectar (mosquitoes are primarily nectar-feeders, only pregnant females drink blood, to get protein, etc. for their developing eggs)

          Plus, the species is (one of?) the only one that targets humans as it's primary host - get rid of it and not only do you eliminate most mosquito-born disease

        • But couldn't the genetically modified mosquitoes then cross-breed with non-human biting species and infect them with the killer gene that way? From this [biomedcentral.com] it seems like crossbreeding among mosquitoes is not uncommon. Is the gene that was edited definitely unique to human-biting species? It wasn't clear from the article.

          Malaria is a terrible disease that causes a lot of problems but with something like this there is always potential to cause far greater damage. This from the article

          It is hoped that gene drives can be used to greatly reduce the numbers of malarial mosquitos, and other pests or invasive species

          sounds especially alarming.

        • > There's thousands of species of mosquitos. The malaria-causing, human biting ones aren't important in the grand scheme.

          Confining the effect to specific sub-species is not an assumption that can be made for now, and also there's the possibility it may never be.

          "Issues highlighted by researchers include:
          Mutations: A mutation could happen mid-drive, which has the potential to allow unwanted traits to "ride along".
          Escape: Cross-breeding or gene flow

  • Because nothing bad came from similar situations in many horror movies
  • Since article says "animal" I assume it will apply also to humans. Mosquitos sounds like a great vehicle for delivering things like diseases, vaccines, and gene modifications to humans.
    • If the mosquitoes are all dead, they won't be delivering anything to anyone.

    • As I understand the article, yes, it would also work on humans. Also, the animal carrying the gene drive would pass it on only to their offspring, not cross-species. But it is passed down to future generations, sort of a "super-dominant" gene that eventually spreads to the entire population. A great premise to build horror movies upon ;-)

  • Am I not the only person who sees an inherent flaw in this approach? If you introduce a gene that makes the mosquitos unable to reproduce then how will the gene itself propagate?

    • Re:Catch 22 (Score:5, Informative)

      by brianerst ( 549609 ) on Monday May 23, 2022 @12:56AM (#62557784) Homepage

      The technology causes female mosquito larvae to die before metamorphosis - so each generation of GM mosquitoes is 100% male. They can only breed with the wild females, who will then give birth to no daughters. Do this a few times and the population crashes.

      They’ve done this with non-gene drive mosquitoes (Oxitec being the main player in the space). The “problem” there is that you have to keep releasing new batches of male mosquitoes as the gene eventually gets selected out of the population. With gene drives, you bypass selection - every mosquito will have the gene - and therefore you only have to release a much smaller number of initial GM mosquitoes.

      • I realized this after posting. Indeed it even seems like this could have the potential to kill off mosquito populations worldwide if it spreads enough. That seems on the surface like a good thing (after all who doesn't hate mosquitos), but what we don't know here could kill us. We've learned several times in the past then when we try to muck around with mother nature it tends to not end well.

  • I also admit that my misgivings are very "hand-wavey" - I can't really defend them objectively. Much of it boils down to the fact that, historically, man has created some horrible problems when he thinks he has 100% understanding of a system. But anyway, here are my random concerns.

    1) There's a part of my brain that worries there could be some aspect of how DNA functions that we are still unaware of - some additional layer of function and interconnectedness we've overlooked to this point.

    2) The good old sta

    • and 4) Humans have proven time and time again that they are very bad at predicting unintended consequences. William Shakespeare noted, human endeavor is often punctuated by unintended consequences and unintended consequences are seldom good. Actually I said that but it sounds more important coming from Shakespeare.
  • There could be excellent applications of this for humans. Just as an example: diabetes type 1 is hereditary, although recessive. If one parent carries this recessive gene, there is a 50% chance of a child receiving it. A generation or two later, two recessives combine and - surprise - a kid has DT1. Imagine if you could eliminate recessive genes and replace them with a good ones - how many genetic diseases could we eliminate?

    On the subject of malaria: rapid mutation is unlikely. Malaria is not a virus, it

    • Ask CRISPR Therapeutics, who has a Type 1 Diabetes cure in clinical trials [crisprtx.com]. Fortunately this cure is an ex-vivo therapy, meaning they're removing your cells, editing them, then putting them back in. So perhaps not so dangerous.

      Or Excision who is starting human trials to remove HIV RNA rather than use retrovirals [fiercebiotech.com]. This is an in vivo therapy, meaning they're going to put CRISPR into your body and target the HIV RNA, hopefully without repercussions to your own DNA.

      CRISPR's potential is enormous. It's al

  • by ZiggyZiggyZig ( 5490070 ) on Monday May 23, 2022 @03:51AM (#62557900)

    Sure genetics is all great and stuff, but I have a better idea. How about we use blockchain and attach NFTs to mosquitoes? NFTs are a great way to artificially generate scarcity of something that reproduces to infinity with 0 effort, such as digital files and mosquitoes. And bonus, we could generate money from mosquitoes! Win-win? Anyone want to invest in Mosquicoin?

  • I read this post and got chills. But, also chills when I found out 2 million deaths are attributed to mosquitoes each year. I knew someone who started an antimalaria program too, but the cross between profligate gene drive technology and the unknown impact of losing a large fraction of what might be the biggest insect species is a double-whammy.

    I found an interesting interview about mosquitoes, whether they should be eradicated, etc. It doesn't give a conclusion, but TFA's mention of a counter limiting the

    • It isn't the loss of a large fraction of the biggest insect species. This is only about one specific type of mosquito, not all mosquitoes and definitely not without substantial overlap in the food chain. Of course they've been talking about this and not pulling the trigger forever now. They covered this in that old netflix documentary on biohacking.
  • These guys have been running around discussing this gene drive with regard to mosquitoes for years.
  • Those genetically-modifying mosquitos are welcome to try! Or did they mean genetically modifying mosquitos (without hyphen).
  • All through the 16th to 18th century colonial expansion, the colonists' expansionist, imperial ambitions were thwarted by these mosquitoes, the malaria bearing mosquitoes to be precise. Everywhere malaria parasite fought them... India, Far East, Caribbean, Amazon ... But it lost. But in its home ground where it originated a million years ago, the deep Africa, it won. It kept the colonists at bay.

    Wherever the mosquito lost, the lands and people were exploited, their economies devastated, once proud civiliz

  • Who knew they'd take Cowboy Bebop seriously? https://cowboybebop.fandom.com... [fandom.com]
  • "if an animal (parent A) that contains a gene drive mates with one that doesn't (parent B)"

    " It recognises the natural gene version of itself"

    How does a genome not contain a gene drive yet also contain a natural version of the gene drive?

    what is a natural version of a gene drive?

  • Overuse of antibiotics has led to the evolution of antibiotic resistant superbugs. Perhaps we should hold off on releasing our latest and greatest gene editing technology in the wild in the form of a gene drive just in case doing so might put evolutionary pressure on a new biological process that negates its effectiveness. Or even worse, what if the gene drive mutates into some other genetic disease with undesired consequences.
    At this stage of our knowledge of genetics I think we should reserve gene drive

  • Here's an interesting intro and history of CRISPR.

    Radiolab [wnycstudios.org]

    In short: cells have a way to splice DNA of bad bugs into their own DNA for future defense reference and programming of defense cells. Yes, nobody can believe this actually exists.

  • Hi! By the way, as for mosquitoes, recently we went out of town with friends, took meat to fry, bought vegetables and booze, and also took some high-quality bongs [everythingfor420.com] to have a good time for sure. But mosquitoes... They ruined our whole vacation, it was impossible to be in nature. I have never had such an aversion to living beings.

C'est magnifique, mais ce n'est pas l'Informatique. -- Bosquet [on seeing the IBM 4341]

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