Myotube preparation of C2C12 cells: Difference between revisions

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== Materials ==
== Material ==
''for 1 x 96 well plate:''
''for 1 x 96 well plate:''
* DMEM (3.5 ml) –purely
* DMEM (3.5 ml) –purely
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# drip a small volume of HS-LS through the 20 µm filter
# drip a small volume of HS-LS through the 20 µm filter
# pipette the filtrate drop wise through the 20 µm filter
# pipette the filtrate drop wise through the 20 µm filter
* wash the filter with 2 ml of HS-LS
# wash the filter with 2 ml of HS-LS
* place the filter up side down into one of the both 6cm dishes with the 2 ml HS-LS
# place the filter up side down into one of the both 6cm dishes with the 2 ml HS-LS
* wash the filter with 2 ml HS-LS and then discard the filter  
# wash the filter with 2 ml HS-LS and then discard the filter  
* take the filtrate from the this 20 µm filter in the 6cm dish, which is label with FT-A (put this in the incubator)
# take the filtrate from the this 20 µm filter in the 6cm dish, which is label with FT-A (put this in the incubator)
* drip a small volume of HS-LS through the second 20 µm filter
# drip a small volume of HS-LS through the second 20 µm filter
* pipette the cell suspension  from the 6cm dish (this one in which the filter were) drop wise through the second 20 µm filter
# pipette the cell suspension  from the 6cm dish (this one in which the filter were) drop wise through the second 20 µm filter
* wash the filter with 2 ml HS-LS and place the filter up side down in the second 6 cm dish with the 2 ml HS-LS
# wash the filter with 2 ml HS-LS and place the filter up side down in the second 6 cm dish with the 2 ml HS-LS
* wash the filter with 2 ml HS-LS and then discard the filter
# wash the filter with 2 ml HS-LS and then discard the filter
* pipette the cell suspension into the 4th conventional tube
# pipette the cell suspension into the 4th conventional tube
* wash the dish with some HS-LS and pipette this also in the 4th tube
# wash the dish with some HS-LS and pipette this also in the 4th tube
* fill all up to 15 ml with HS-LS
# fill all up to 15 ml with HS-LS
* remove the fibronectin from the 96 well plate
# remove the fibronectin from the 96 well plate
* take the 5ml Multipipette and cut with the scissors the tip of this pipette
# take the 5ml Multipipette and cut with the scissors the tip of this pipette
* open the tip a little bit with a tweezers
# open the tip a little bit with a tweezers
* mix the cells carefully (don’t produce air bubbles) with the Multipipette
# mix the cells carefully (don’t produce air bubbles) with the Multipipette
* pipette in each well 150 µl of the cell suspension
# pipette in each well 150 µl of the cell suspension
* check the plate under the microscope
# check the plate under the microscope
* take the plate into the incubator
# take the plate into the incubator
* check the prep the next day under the inverted microscope
# check the prep the next day under the inverted microscope

Latest revision as of 14:31, 8 June 2015

Material

for 1 x 96 well plate:

  • DMEM (3.5 ml) –purely
  • Fibronectin (final diluted concentration should be 20 ng/µl))
  • 1x 96 well plate
  • 2% Horse Serum – Low Serum (HS-LS)
  • 4 x 25 ml conventional tubes (white with top)
  • 4 x 6 cm dishes
  • 1x filter 100 µm
  • 2x filter 20 µm
  • 1 scalpel
  • 2x tweezers
  • 1x scissors
  • Multipipetts and –tips (500µl, 5 ml)
  • Pipettes
  • PBS
  • TE

Procedure

  1. open 3 of the conventional tubes (label one of this with 100 and the other two with 20)
  2. take the 100 µm filter on the tube (label with 100) and form a funnel with a hot tweezers and fix the filter with the hot scalpel (use the back of this) at three places
  3. take the same with the two 20µm filters and the two tubes (labeled with 20)
  4. pipette in two of the 6 cm dishes 2 ml of HS-LS
  5. label the other two with FT-A and FT-B (FT= flow through)
  6. carefully aspirate the old media from the differentiated cells and wash the cells with 5 ml PBS (pipette the PBS carefully without destroying the myotubes)
  7. aspirate the PBS
  8. pipette 2 ml TE to the cells and let this incubate till the myotubes are detached in large pieces
  9. quickly stop the TE with 6 ml of HS-LS
  10. pipette the suspension up and down till the myotubes are completely detached
  11. pipette the cell suspension drop wise through the 100µm filter
  12. wash the filter with 2 ml HS-LS
  13. remove the filter from the tube
  14. drip a small volume of HS-LS through the 20 µm filter
  15. pipette the filtrate drop wise through the 20 µm filter
  16. wash the filter with 2 ml of HS-LS
  17. place the filter up side down into one of the both 6cm dishes with the 2 ml HS-LS
  18. wash the filter with 2 ml HS-LS and then discard the filter
  19. take the filtrate from the this 20 µm filter in the 6cm dish, which is label with FT-A (put this in the incubator)
  20. drip a small volume of HS-LS through the second 20 µm filter
  21. pipette the cell suspension from the 6cm dish (this one in which the filter were) drop wise through the second 20 µm filter
  22. wash the filter with 2 ml HS-LS and place the filter up side down in the second 6 cm dish with the 2 ml HS-LS
  23. wash the filter with 2 ml HS-LS and then discard the filter
  24. pipette the cell suspension into the 4th conventional tube
  25. wash the dish with some HS-LS and pipette this also in the 4th tube
  26. fill all up to 15 ml with HS-LS
  27. remove the fibronectin from the 96 well plate
  28. take the 5ml Multipipette and cut with the scissors the tip of this pipette
  29. open the tip a little bit with a tweezers
  30. mix the cells carefully (don’t produce air bubbles) with the Multipipette
  31. pipette in each well 150 µl of the cell suspension
  32. check the plate under the microscope
  33. take the plate into the incubator
  34. check the prep the next day under the inverted microscope