My name is Voia Friedman. I am associate researcher at Princeton University. And today I'm going to tell you about a few protocols that I developed to trans infect, to I initially to isolate, to go back from the heli of infected flies, and later on help to inject the heli feed to unaffected flights.
So basically, this is a very simple protocol to isolate him oly for basics. And you will use this device from, from mepo that contains a filter that goes on top of an E.So you basically needs to put you, we start from around a hundred flies. You anize the flies, you put them into the filter device, you can just use a funnel and that will add our other fit very easily on this device and wash it with 70%ethanol.
You just take the, take the future away, you can throw away the ethanol, and then after three times your last wash you do with molecule water because you don't want have the bacteria from the, with traces of ethanol. Well, and then you just go to a new weapon door and, and then you spin down on a micro, real micro for two minutes And later on how you can inject that. He only feed do unaffected flies.
So basically take a double stick tape and usually these double stick tapes have two side, one side is a sticker than the other. So leave the sticker side up because that's the side that you're gonna glue that flies on top of it. And basically you'll, the gas apparatus, if you have this light on top of it, you'll be no gas flow and the flies you wake up if they're on top of the slide.
So you can just direct the flow, making a little hood, a little chamber using tape. Then you direct the gas over the flies. So then you put your, this light here with the tape and you, you have your flies.
Stick the flies on the top of the tape, all of them the same orientation, and put their head towards the direction that you'll be bringing the needle from. Because then you can just over the, the wing, you make sure since they fly, you don't want to fly. If they woke up during the procedure, don't want them to go away.
So make sure that you take a little tip and pressure against the, the, the wings of the fly on the tail. And it's okay if they wings get damaged. And when you get rid, when you take the flies up the injection, most likely they'll lose their wings anyway, so they'll survive.
That can, that can be useful because you're not gonna lose the flies that, so he puts a mineral oil on the micrometer for the back of the needle, then the needle injection polar, and then the, you can just adjust the pressure to bring the material up to the tip of the needle. I, I did to inject Somewhere between 10 to 15 nanoliters, but as, as long, as long as I'm consistents. Okay, so one important detail there is a cushion of this experiment is that the, the fly, once the apply is being injected when you saw the needle needs to come as far as you can through the upper part of the abdomen.
Because here, basically when the needle penetrates, you have a, a, a, a, a bigger space to go up and down. And basically if it's close, closer to the cuticle, it's less likely they're gonna penetrate vital organs in the flight. You, it is very likely unlikely that you're gonna punch a hole in your gut, for instance, if that is gonna kill the flight that you are performing the surgery.
My name is Voia Friedman. I am associate researcher at Princeton University in the lab of Eric Hels. And today I would like to tell you about this protocol that you just saw, the demonstration.
So this protocol was done because we wanted to prove that UBA is capable of crossing tissues. So UBA is one of the most successful intracellular paras on the face of the earth. Infects from 20 to 70%of insects and many particles.
And also is, is very important in terms of human diseases because also infect nematodes that transmit diseases like river blindness or s and ssis. And so, and CCA is our obligatory endo in, in these worms. And there's a great, a very big interest in using CCA also as means to control parasitic diseases transmitter by mosquito and Danny and this and by mosquito such as malaria and dengue.
So this, this, this protocol basically was developed to show that once CCA inside the abdominal cavity of a fly, they can cross tissues and reach the germ. So basically what you can see here is the oph of the drosophila ovary and go back once present in the he leaf it, it can cross a pink peronial. She that is around the ovary.
And then they cross a muscle layer. And actually one of the first places that they, they go inside the ovary is the somatic stem cell image. And then they can reach the germline.
And this bacteria is transmitted the same way that mitochondria is transmitted is through, is through the mother transmitted, through the mother cyop plants present in the egg. So of course they needs to be present into the germline. So that's why this protocol is developed.
And this protocol is, can be very useful to basically traditionally the way that people would try to trans infect wbaa basically take wbaa and introduce a new insect species. It would be through doing micro injections into the, into the embryo. But those are much more complicated.
And basically here we are just taking advantage of the o biology since they are capable to cross tissues and moving into the stem cell tissues from, they can pass to the, through to the germline. So that's make easier taking UBA from certain, from, from certain species of insects that are infected and they can be transmitted to uninfected species. Prob I think it's the injection itself.
Basically you need to be careful to mobilize the fly as well as you can. We are using double sided stick tape and you need to penetrate the needle basically as close to the, as parallel to the fly as possible so you don't go to deep. And it's less likely that we're gonna kill the fly after they're performing the surgery.
