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Experiment of cytobiology

Experiment of cytobiology. schedual. cell culture and counting cell isolation of subcellular structure cell proliferation assays methods in apoptosis. Finish the experiment Finish the experiment report Clean the lab after experiment. Cell culture and Counting cell. Cell culture.

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Experiment of cytobiology

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  1. Experiment of cytobiology

  2. schedual • cell culture and counting cell • isolation of subcellular structure • cell proliferation assays • methods in apoptosis

  3. Finish the experiment • Finish the experiment report • Clean the lab after experiment

  4. Cell cultureandCounting cell

  5. Cell culture

  6. cell culture • Many research need the use of animal cells as in vitro model system. • 1st cell line, Hela, from human cervical cancer.

  7. culture cells taken directly from animal tissues or organs are primary culture cell ( primary culture ). • culture cells taken from primary culture cell are subculture cell (subculture)

  8. Growing in suspending or growing as adherent monolayer attached to the surface of tissue culture flask. Most culture cell are latter.

  9. culture cells should be maintained under mimic culture conditions as in the body • must sterile • Need nutrient culture medium and providing optimal temperature and PH(7.2-7.4, by sodium bicarbonate)

  10. Material and instrument needed • Biosafety cabinet (Laminar flow cabinet)

  11. Incubator with CO2 • 5% CO2

  12. nonvented tissue culture flasks (with lid) • dropping pipette

  13. inverted microscope

  14. Liquid nitrogen storage vessel

  15. culture medium needed • Formulations are vary according to the type of the cell cultured. • RPMI 1640, MEM, DMEM • Serum (10%, from newborn bovine)

  16. Phenol red needed as it will turn purple above PH7.6 and yellow below PH7.0.

  17. Examine the condition of the cell (today) • using inverted microscope • at 10x objective • the clarity and color of culture solution • density and shape of the culture cells • ensure the cells are healthy and sub confluent and free of contamination

  18. 光学显微镜(10倍)下活细胞形态

  19. 光学显微镜(40倍)下活细胞形态

  20. HeLa

  21. 细胞呈圆形,边缘清晰整齐,贴壁生长

  22. 细胞形态不规则,向四周伸展伪足,边缘不清,贴壁生长

  23. Material and instrument (today) • Biosafety cabinet • CO2 Incubator • inverted microscope • Subculture cell(CHL) • nonvented tissue culture flasks (with lid), dropping pipette • Culture medium:RPMI 1640 with 10% newborn bovine serum • 0.25% trypase solution (pH7.2)

  24. procedure • Subculture cell (CHL) → discard origin culture medium solution → dealed with trypase solution for 30 sec → abandon trypase solution → then add 2ml culture medium solution → produce cell suspension (mix by pipette up/down several times), keep 1 drop of solution for counting → divide a half of cell suspension to another culture flask → add culture medium solution both flasks →incubate at 37℃ → observe after 2 days.

  25. Before (left) and after (right) dealed with trypase solution

  26. work in this order • clean hands with alchole • work close to the flame (ignite at start) • put the culture flasks upslope

  27. Counting cell

  28. counting cell • For microbiology, cell culture, and many applications that require use of suspensions of cells it is necessary to determine cell concentration.

  29. counting cell • The number of cells per milliliter of medium or per centimeter squared area of attach surface

  30. Material and instrument • CHL cell • 0.25% trypase solution (pH7.2) • Culture medium solution

  31. Material and instrument • Hemocytometer is used for determining the number of cells per unit volume of a suspension • Optical microscope

  32. Hemocytometer has 2 counting chambers • Each chamber has 9 squares (subgrids), each square being 1mm2

  33. procedure • Subculture cell (CHL) → discard origin culture medium solution → dealed with trypase solution for 30 sec → abandon trypase solution → then add 2ml culture medium solution → produce cell suspension → counting at 10x (10x objective)

  34. The use of Hemocytometer • Hemocytometer has a glass coverslip of precise thickness which is supported 0.1mm above the ruled area. • This coverslip is specially made and thicker since they must be heavy enough to overcome the surface tension of a drop of liquid. • It should be placed over the counting surface prior to putting on the cell suspension.

  35. The suspension is introduced into one of counting chambers with a pipet. • The area under the coverslip fills by capillary action. • Enough liquid should be introduced so that the mirrored surface is just covered. The charged counting chamber is then placed on the microscope stage and the counting grid is brought into focus at low power.

  36. The volume of liquid over each subgrid is 0.1mm3 Count 4 corner squares, start in the upper left small square and follow the pattern

  37. Calculation C=N × 104×D C: cells per ml N: the average number of cells counted in each corner square (4 squares÷4) D: the dilution factor 1ml=1000mm3

  38. Count the fields in this order • Count all of the cells within each square, including cells touching the lines at the top and on the left. Do not count any cells that touch the lines on the right or at the bottom. • Do not damage the coverslide • It is improperly loaded with flooded or with air bubbles

  39. The end

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