このコンテンツを視聴するには、JoVE 購読が必要です。  サインイン又は無料トライアルを申し込む。
Microinjection of Live Drosophila Embryos: Early Delivery of Reagents to the Developing Embryo

Microinjection of Live Drosophila Embryos: Early Delivery of Reagents to the Developing Embryo

筆記録

Collect live Drosophila embryos and remove their non-transparent chorions. Then, onto a glass coverslip, apply a line of heptane glue, which is tape adhesive dissolved liquid heptane. To be able handle the now dechorionated embryos, carefully align the specimens a row onto the adhesive.

Transfer the coverslip into a dehydration chamber partially desiccate the embryos. This will prevent cytoplasmic leakage during or after injections. Next, remove the coverslip and cover the embryos with halocarbon oil prevent further dehydration while still allowing oxygen diffuse into the embryos.

To perform the microinjection, use a microinjection system on a compatible microscope. By looking through the eyes pieces, identify both the embryos and the needle preloaded with injection solution. Break open the needle and ensure that it produces consistent and appropriately-sized liquid drops. Then, bring the needle inside the embryo and inject the appropriate volume. Bring out the needle, and proceed the next one, repeating the injection for the remaining embryos.

In the example protocol, we will see a demonstration of Drosophila embryo microinjection for live imaging studies of cell division.

Before setting up the coverslip, make heptane glue by unrolling double-sticky tape, and placing it a 100 milliliter bottle. Add about 50 milliliters of heptane, seal the bottle, and rock it for several days.

Before preparing the embryos, make a dehydration chamber that the embryos will be placed prior injection. To do this, put one part of a 35 millimeter dish inside of a 100 millimeter Petri dish make a “table”. Add Drierite, which is anhydrous calcium sulfate, around it so that the height of the Drierite is no higher than the “table”, and cover.

To begin preparing the embryos, first collect them from the lay cage by changing the grape juice plate with yeast every hour. The embryos should be imaged about two hours after the start of the collection. To prepare the coverslip, place it on one side of a microscope slide and tape the four corners down, so it doesn’t move.

Using a cotton-tipped applicator, put one layer of heptane glue a line on the coverslip. The glue should not be viscous and should dry a few seconds. If it is too thick, add more heptane.

Finally, put a piece of double-sticky tape on the slide next the coverslip. With a moistened brush, carefully pick up the embryos from the grape juice plate and place them on the double-sticky tape on the slide.

Next, use one half of a tweezer roll the embryos over the double-sticky tape until the chorion breaks open. Pick up the embryo by gently rolling it over the chorion, so it sticks the tweezer, and place it on the heptane glue on the coverslip with the long side of the embryo parallel the long side of the coverslip.

Place 10 20 embryos one row. Remove the coverslip and place it the dehydration chamber for three eight minutes. The time depends on the local humidity and the amount be injected. Next, place the coverslip on a metal chamber with vacuum grease. Finally, cover the embryos with halocarbon oil avoid further dehydration. The embryos are now ready for injection.

First, find the embryos under a 16X objective. Move the embryos away, and find the needle without moving the focal plane. Center the needle and move it up without moving it the X or Y direction.

To open the needle, put the edge of the coverslip into the field of view, but not where a needle will be, and lower the needle the same focal plane. Very carefully, move the coverslip until it hits the needle and gently breaks it open. Move the needle up.

Now bring the embryos into view. Lower the needle into the oil, and make sure obtain nice liquid drops from the needle. Steadily move the embryo into the needle, inject a drop into the embryo, and then move the embryo away. After all the embryos have been injected, they are ready for observation on a confocal microscope with a 60 or a 100X objective.

関連ビデオ

Read Article