Cytoplasmdivides intotwo daughtercellsSisterchromatidsseparateDNA isreplicated(S phase)NuclearenvelopesreappearSpindlefibers attachtocentromeresNucleolusreappears ineachdaughternucleusCell growsandperformsnormalfunctionsResults intwogeneticallyidenticalcellsChromosomesline up at thecell’s equatorCellelongatesCell checksthatchromatidsare attachedcorrectlyChromosomesuncoil backinto chromatinSpindlefibersbegin toformAlignmentforms themetaphaseplateSpindlefibersbreakdownChromatinis looseanduncoiledChromosomesare fullycondensedand easy toseeNucleolusdisappearsEach chromatidis nowconsidered anindividualchromosomeCentriolesmove tooppositepolesNuclearenvelopebreaksdownCellprepares formitosis bychecking forDNA errorsPlant cellsform a cellplateAnimalcells forma cleavagefurrowOrganellesand proteinsareproduced fordivisionTwo newnucleibegin toformChromatincondensesinto visiblechromosomesChromatidsmove tooppositepolesOrganellesare splitbetweendaughtercellsSpindlefibersshortenCytoplasmdivides intotwo daughtercellsSisterchromatidsseparateDNA isreplicated(S phase)NuclearenvelopesreappearSpindlefibers attachtocentromeresNucleolusreappears ineachdaughternucleusCell growsandperformsnormalfunctionsResults intwogeneticallyidenticalcellsChromosomesline up at thecell’s equatorCellelongatesCell checksthatchromatidsare attachedcorrectlyChromosomesuncoil backinto chromatinSpindlefibersbegin toformAlignmentforms themetaphaseplateSpindlefibersbreakdownChromatinis looseanduncoiledChromosomesare fullycondensedand easy toseeNucleolusdisappearsEach chromatidis nowconsidered anindividualchromosomeCentriolesmove tooppositepolesNuclearenvelopebreaksdownCellprepares formitosis bychecking forDNA errorsPlant cellsform a cellplateAnimalcells forma cleavagefurrowOrganellesand proteinsareproduced fordivisionTwo newnucleibegin toformChromatincondensesinto visiblechromosomesChromatidsmove tooppositepolesOrganellesare splitbetweendaughtercellsSpindlefibersshorten

Mitosis Bingo! - Call List

(Print) Use this randomly generated list as your call list when playing the game. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


1
B
2
B
3
I
4
I
5
I
6
G
7
G
8
N
9
N
10
B
11
!
12
G
13
!
14
N
15
!
16
O
17
G
18
I
19
N
20
O
21
O
22
!
23
G
24
I
25
!
26
B
27
O
28
!
29
O
30
B
31
B
32
O
33
N
34
I
35
G
36
N
  1. B-Cytoplasm divides into two daughter cells
  2. B-Sister chromatids separate
  3. I-DNA is replicated (S phase)
  4. I-Nuclear envelopes reappear
  5. I-Spindle fibers attach to centromeres
  6. G-Nucleolus reappears in each daughter nucleus
  7. G-
  8. N-Cell grows and performs normal functions
  9. N-Results in two genetically identical cells
  10. B-Chromosomes line up at the cell’s equator
  11. !-Cell elongates
  12. G-Cell checks that chromatids are attached correctly
  13. !-Chromosomes uncoil back into chromatin
  14. N-Spindle fibers begin to form
  15. !-Alignment forms the metaphase plate
  16. O-Spindle fibers break down
  17. G-Chromatin is loose and uncoiled
  18. I-
  19. N-Chromosomes are fully condensed and easy to see
  20. O-Nucleolus disappears
  21. O-Each chromatid is now considered an individual chromosome
  22. !-
  23. G-Centrioles move to opposite poles
  24. I-Nuclear envelope breaks down
  25. !-Cell prepares for mitosis by checking for DNA errors
  26. B-
  27. O-Plant cells form a cell plate
  28. !-Animal cells form a cleavage furrow
  29. O-Organelles and proteins are produced for division
  30. B-Two new nuclei begin to form
  31. B-Chromatin condenses into visible chromosomes
  32. O-
  33. N-
  34. I-Chromatids move to opposite poles
  35. G-Organelles are split between daughter cells
  36. N-Spindle fibers shorten