G3P1st Law ofThermodynamicsMitochondriaVisiblelightspectrumActivationEnergyPhotorespirationChemiosmosisStomaCO2 + H2O+ LightEnergy →O2 +C6H12O6ReactioncentercomplextoproduceusefulenergyRuPProteinPositive6CO2 + H2O+ LightEnergy →6O2 +C6H12O6HeterotrophGlycolysis-OxidativeDecarboxylation-Citric AcidCycle- ETCNegative18 ORubiscotorecycleNAD+C4Plantabsence ofoxygen (ornot sufficientoxygen)During theday (Underthe presenceof light)O2 +C6H12O6→ CO2 +H2O + ATPXylemandPhloem4enzymesCytosol/Cytoplasm2 pyruvate2 ATP 2NADHATPandglucose34ATPphosphorylationAutotrophChlorophyllNAD+andethanol1moleculeof CO2NADHandFADH2oxidativedecarboxylationEnzymeQ6O2 +C6H12O6 →6CO2 +6H2O + ATPTheelectronegativitythat increasesas you movefrom enzyme toenzyme3TurnsH2OH+ andH+gradientEndergonicChloroplastsTheCalvinCycleOxaloacetatePGALNAD+ andlactic acidStromaONLY whenlightreactions aretaking placeSpongyMesophyllTheactivesiteExergonicG3P1st Law ofThermodynamicsMitochondriaVisiblelightspectrumActivationEnergyPhotorespirationChemiosmosisStomaCO2 + H2O+ LightEnergy →O2 +C6H12O6ReactioncentercomplextoproduceusefulenergyRuPProteinPositive6CO2 + H2O+ LightEnergy →6O2 +C6H12O6HeterotrophGlycolysis-OxidativeDecarboxylation-Citric AcidCycle- ETCNegative18 ORubiscotorecycleNAD+C4Plantabsence ofoxygen (ornot sufficientoxygen)During theday (Underthe presenceof light)O2 +C6H12O6→ CO2 +H2O + ATPXylemandPhloem4enzymesCytosol/Cytoplasm2 pyruvate2 ATP 2NADHATPandglucose34ATPphosphorylationAutotrophChlorophyllNAD+andethanol1moleculeof CO2NADHandFADH2oxidativedecarboxylationEnzymeQ6O2 +C6H12O6 →6CO2 +6H2O + ATPTheelectronegativitythat increasesas you movefrom enzyme toenzyme3TurnsH2OH+ andH+gradientEndergonicChloroplastsTheCalvinCycleOxaloacetatePGALNAD+ andlactic acidStromaONLY whenlightreactions aretaking placeSpongyMesophyllTheactivesiteExergonic

Biology Bingo! - 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.


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  1. G3P
  2. 1st Law of Thermodynamics
  3. Mitochondria
  4. Visible light spectrum
  5. Activation Energy
  6. Photorespiration
  7. Chemiosmosis
  8. Stoma
  9. CO2 + H2O + Light Energy → O2 + C6H12O6
  10. Reaction center complex
  11. to produce useful energy
  12. RuP
  13. Protein
  14. Positive
  15. 6CO2 + H2O + Light Energy → 6O2 + C6H12O6
  16. Heterotroph
  17. Glycolysis- Oxidative Decarboxylation- Citric Acid Cycle- ETC
  18. Negative
  19. 18 O
  20. Rubisco
  21. to recycle NAD+
  22. C4 Plant
  23. absence of oxygen (or not sufficient oxygen)
  24. During the day (Under the presence of light)
  25. O2 + C6H12O6 → CO2 + H2O + ATP
  26. Xylem and Phloem
  27. 4 enzymes
  28. Cytosol/Cytoplasm
  29. 2 pyruvate 2 ATP 2 NADH
  30. ATP and glucose
  31. 34 ATP
  32. phosphorylation
  33. Autotroph
  34. Chlorophyll
  35. NAD+ and ethanol
  36. 1 molecule of CO2
  37. NADH and FADH2
  38. oxidative decarboxylation
  39. Enzyme Q
  40. 6O2 + C6H12O6 → 6CO2 + 6H2O + ATP
  41. The electronegativity that increases as you move from enzyme to enzyme
  42. 3 Turns
  43. H2O
  44. H+ and H+ gradient
  45. Endergonic
  46. Chloroplasts
  47. The Calvin Cycle
  48. Oxaloacetate
  49. PGAL
  50. NAD+ and lactic acid
  51. Stroma
  52. ONLY when light reactions are taking place
  53. Spongy Mesophyll
  54. The active site
  55. Exergonic