AutotrophCan make ownfood viaphotosynthesisorchemosynthesisCellSmalleststructural andfunctionalunit of anorganismDefenseCell functionthat protectsagainstenemiesCellTheoryAll organismscomposed of cells.Cells are basicunit of life. All cellsdivision is ofpreviously livingcellsHeterotrophCannotmake itsown foodAsexualReporoductionInherit the genesof one parent,100% of parentDNA ,geneticallyidenticalProkaryoticAn organismthat does nothave amembranebound nucleusKingdomProtistaI cannot beclassified as ananimal, plant, orfungi, most areunicellular andEukaryoticOrganismAn individualanimal,plant, orsingle-celledlife formKingdomFungiI am amulticellular,heterotrophic,eukaryoticorganismRudolphVirchowProposedthird partof celltheoryChemosynthesisUses chemicalreactions toproduce energyfor an autotrophRobertHookeObserved corktrees undermicroscope anddiscovered cellsin 1665HomeostasisKeepingconditionsinside theorganismbalancedSexualReproduction2 organismneeded, 50% ofeach parent's DNAgoes to offspring,not geneticallyidenticalAnton vanLeeuwenhoekFirst toobservebacteriaunder amicroscopeReproductioncell functionthatproducesoffspringGrowthCell functionthatincreases insizeEukaryoticAn organismthat hasmembraneboundnucleusKingdomPlantaeI am anautotroph,live mostlyon land, andeukaryoticUnicellularOne cellorganismMetabolismWhat functioncauses a chemicalreaction to breakdown food intoenergyNutritionobtainingfood toprovideenergy forgrowthResponseRespondingto changesin theenvironmentMulticellularManycelledorganismKingdomEubacteriaI amprokaryotic,unicellularautotroph orheterotrophKingdomAnimaliaI amheterotrophicandmulticellular, Ilive everywhereTheodorSchwannConcluded allanimal tissuesare composed ofcells, helpedestablish celltheoryKingdomArchaebacteriaI am found inextremeenvironments,prokaryotic,unicellular, and anautotroph orheterotrophAutotrophCan make ownfood viaphotosynthesisorchemosynthesisCellSmalleststructural andfunctionalunit of anorganismDefenseCell functionthat protectsagainstenemiesCellTheoryAll organismscomposed of cells.Cells are basicunit of life. All cellsdivision is ofpreviously livingcellsHeterotrophCannotmake itsown foodAsexualReporoductionInherit the genesof one parent,100% of parentDNA ,geneticallyidenticalProkaryoticAn organismthat does nothave amembranebound nucleusKingdomProtistaI cannot beclassified as ananimal, plant, orfungi, most areunicellular andEukaryoticOrganismAn individualanimal,plant, orsingle-celledlife formKingdomFungiI am amulticellular,heterotrophic,eukaryoticorganismRudolphVirchowProposedthird partof celltheoryChemosynthesisUses chemicalreactions toproduce energyfor an autotrophRobertHookeObserved corktrees undermicroscope anddiscovered cellsin 1665HomeostasisKeepingconditionsinside theorganismbalancedSexualReproduction2 organismneeded, 50% ofeach parent's DNAgoes to offspring,not geneticallyidenticalAnton vanLeeuwenhoekFirst toobservebacteriaunder amicroscopeReproductioncell functionthatproducesoffspringGrowthCell functionthatincreases insizeEukaryoticAn organismthat hasmembraneboundnucleusKingdomPlantaeI am anautotroph,live mostlyon land, andeukaryoticUnicellularOne cellorganismMetabolismWhat functioncauses a chemicalreaction to breakdown food intoenergyNutritionobtainingfood toprovideenergy forgrowthResponseRespondingto changesin theenvironmentMulticellularManycelledorganismKingdomEubacteriaI amprokaryotic,unicellularautotroph orheterotrophKingdomAnimaliaI amheterotrophicandmulticellular, Ilive everywhereTheodorSchwannConcluded allanimal tissuesare composed ofcells, helpedestablish celltheoryKingdomArchaebacteriaI am found inextremeenvironments,prokaryotic,unicellular, and anautotroph orheterotroph

Characteristics of Organisms and Cell Theory - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. 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
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
  1. Can make own food via photosynthesis or chemosynthesis
    Autotroph
  2. Smallest structural and functional unit of an organism
    Cell
  3. Cell function that protects against enemies
    Defense
  4. All organisms composed of cells. Cells are basic unit of life. All cells division is of previously living cells
    Cell Theory
  5. Cannot make its own food
    Heterotroph
  6. Inherit the genes of one parent, 100% of parent DNA , genetically identical
    Asexual Reporoduction
  7. An organism that does not have a membrane bound nucleus
    Prokaryotic
  8. I cannot be classified as an animal, plant, or fungi, most are unicellular and Eukaryotic
    Kingdom Protista
  9. An individual animal, plant, or single-celled life form
    Organism
  10. I am a multicellular, heterotrophic, eukaryotic organism
    Kingdom Fungi
  11. Proposed third part of cell theory
    Rudolph Virchow
  12. Uses chemical reactions to produce energy for an autotroph
    Chemosynthesis
  13. Observed cork trees under microscope and discovered cells in 1665
    Robert Hooke
  14. Keeping conditions inside the organism balanced
    Homeostasis
  15. 2 organism needed, 50% of each parent's DNA goes to offspring, not genetically identical
    Sexual Reproduction
  16. First to observe bacteria under a microscope
    Anton van Leeuwenhoek
  17. cell function that produces offspring
    Reproduction
  18. Cell function that increases in size
    Growth
  19. An organism that has membrane bound nucleus
    Eukaryotic
  20. I am an autotroph, live mostly on land, and eukaryotic
    Kingdom Plantae
  21. One cell organism
    Unicellular
  22. What function causes a chemical reaction to break down food into energy
    Metabolism
  23. obtaining food to provide energy for growth
    Nutrition
  24. Responding to changes in the environment
    Response
  25. Many celled organism
    Multicellular
  26. I am prokaryotic, unicellular autotroph or heterotroph
    Kingdom Eubacteria
  27. I am heterotrophic and multicellular, I live everywhere
    Kingdom Animalia
  28. Concluded all animal tissues are composed of cells, helped establish cell theory
    Theodor Schwann
  29. I am found in extreme environments, prokaryotic, unicellular, and an autotroph or heterotroph
    Kingdom Archaebacteria