Welcome guest, Sign in

Home

X
加载中

Attaining a large synchronized population of worms is desirable for use in some assays in order to eliminate variation in results due to age differences. Two ways to get synchronized worms include egg preparation via bleaching and egg lay. The former in general yields more progeny than the latter, however, egg lay can generate a better synchronized population than egg preparation.

Thanks for your further question/comment. It has been sent to the author(s) of this protocol. You will receive a notification once your question/comment is addressed again by the author(s).
Meanwhile, it would be great if you could help us to spread the word about Bio-protocol.

X

[Bio101] Synchronization of Worm

[Abstract] Attaining a large synchronized population of worms is desirable for use in some assays in order to eliminate variation in results due to age differences. Two ways to get synchronized worms include egg preparation via bleaching and egg lay. The former in general yields more progeny than the latter, however, egg lay can generate a better synchronized population than egg preparation.

Materials and Reagents

  1. General chemicals (Sigma-Aldrich)
  2. Regular bleach (Clorox)
  3. M9 buffer
  4. Worm lysis solution

Equipment

  1. Votex (Scientific Industries)
  2. Vacuum pump (Welch)
  3. 15 ml conical tube
  4. 60 x 15 mm petri dish (VWR)

Procedure

  1. Egg preparation via bleaching
    1. Chunk starved worms onto a seeded (with bacterial food, E coli OP50-1) NGM plate (60 x 15 mm). Allow the worms to grow for about 2 days at 25 °C.
    2. Once you have plenty of eggs/adults, pour 6 ml of M9 buffer onto the plate and gently swirl it to dislodge the worms.
    3. Transfer 5 ml worms to a 15 ml conical tube.
    4. Add 5 ml of 2x worm lysis solution to the tube.
    5. Vortex the tube at max speed for approximately 4 min or until you see very few intact adult worms (usually bleach no longer than 6 min, otherwise the eggs will be killed).
    6. Centrifuge at ~1,000 x g for 1 min.
    7. Carefully decant the supernatant without disturbing the worm pellet.
    8. Wash twice with 10 ml of M9 buffer (spin at ~1,000 x g for 1 min)
    9. Add 7 ml of M9 buffer to resuspend the egg pellet.
    10. Let eggs shake overnight at 20 °C to hatch. Since there is no food the larvae should be halted at the L1 stage.
    11. Next day, let the tube sit on the bench for 10 - 15 min and starved L1 worms can precipitate by gravity.
    12. Remove most of supernatant and distribute the liquid onto seeded plates or into liquid culture.
      Note: This protocol is also used to remove bacterial and yeast contamination from a worm strain.

  2. Egg lay
    Gravid worms have a maximal egg-laying rate of 7 eggs/h at 20 °C.
    1. Pick 10-15 gravid worms/plate.
    2. Incubate at desired temperature (15, 20, or 25 °C) for desired time (2-6 h).
    3. Remove adults by suction off the plate or picking.
    4. Grow until progeny are at appropriate stage.

References

  1. Sulston, J. & Hodgkin, J. (1988) Methods. In: The Nematode Caenorhabditis elegans. (Ed.): W.B. Wood. Cold Spring Harbor Laboratory Press: New York, 587-606.
  2. Shapira, M. and Tan, M. W. (2008). Genetic analysis of Caenorhabditis elegans innate immunity. Methods Mol Biol 415: 429-442.


How to cite this protocol: He, F. (2011). Synchronization of Worm. Bio-protocol Bio101: e56. DOI: 10.21769/BioProtoc.56; Full Text



Share Your Feedback:

  • Add Photo
  • Add Video

Bio-protocol's major goal is to make reproducing an experiment an easier task. If you have used this protocol, it would be great if you could share your experience by leaving some comments, uploading images or even sharing some videos. Please login to post your feedback.

Q&A and Troubleshooting:

  • Add Photo
  • Add Video

Please login to post your questions/comments. Your questions will be directed to the authors of the protocol. The authors will be requested to answer your questions at their earliest convenience. Once your questions are answered, you will be informed using the email address that you register with bio-protocol.
You are highly recommended to post your data (images or even videos) for the troubleshooting. For uploading videos, you may need a Google account because Bio-protocol uses YouTube to host videos.


Login | Register
2/20/2014 1:29:14 PM  

AR
University of Delaware

1. Is this protocol referenced in any journal? Also, is 20 degree overnight incubation essential or room temperature works?

2/21/2014 5:45:14 PM  

Fanglian He (Author)
Carnegie Institution for Science at Stanford

Hi,
This protocol was adapted from Man-Wah Tan's group (see reference 2 above). 20 degree overnight incubation is not essential. Room temperature should work too.

Reply

Please login to post your questions/comments. Your questions will be directed to the authors of the protocol. The authors will be requested to answer your questions at their earliest convenience. Once your questions are answered, you will be informed using the email address that you register with bio-protocol.
You are highly recommended to post your data (images or even videos) for the troubleshooting. For uploading videos, you may need a Google account because Bio-protocol uses YouTube to host videos.

Login | Register