LaggingStrandReplicatedDNA strandthat is madein chunksCovalentBondBonds foundin the DNA"backbones"SphasePhase inwhich DNAReplicationoccursNucleotideThemonomersof DNALeadingStrandReplicatedDNA strandthat iscontinuouslymadePhosphate,Sugar,NitrogenBaseThe threeparts of anucleotideAdenineNitrogenbase thatbinds toThiamineChromatinLong,readableform ofDNAMonomer"Building Blocks"ofmacromoleculesGuanineThe nitrogenbase thatbinds tocytosineNitrogenBasesThesequence ofthese willdeterminegenetic infoCytosineThe nitrogenbase thatbinds toguanineEdwinChargaffScientist whodiscoveredDNA bases arecomplimentaryDoubleHelixShape ofthe DNAmoleculeDNAPolymeraseEnzyme thatadds freenucleotidesto the originalDNA strand3' to5'DNA strandthat startswith a sugarand ends witha phosphate5' to3'DNA strandthat starts witha phosphateand ends witha sugarMPhaseDNA will beinchromosomeform duringthis phaseInterphaseDNA will bein chromatinform duringthis phase ofthe cell cycleComplementaryBasesExamplesA & T orC & GReplicationForkStructureformed bya singlehelicaseLigaseEnzyme that"glues"OkazakifragmentstogetherChromosomeCoiledup formof DNADeoxyriboseThe sugarfound inDNAnucleotidesHelicaseEnzymethat"unzips"DNAChargaff'sPrincipleMathematicalformula usedto find missingbase pairspercentagesThiamineThe nitrogenbase thatbinds toadenineCentromereThe proteincenter of achromosomeHydrogenBondBonds foundbetweennitrogenbasesAntiparallelDescribeshow DNAstrands runin oppositedirectionsNucleusWhereDNA isstored inthe cellChromatidsThebranches ofachromosomeOkazakiFragmentsPieces ofreplicatedDNA in thelaggingstrandReplicationBubbleStructurethat speedsup DNAreplicationSemiconservativeDescribes howDNA replicationsaves half ofthe originalDNA in eachnew moleculeLaggingStrandReplicatedDNA strandthat is madein chunksCovalentBondBonds foundin the DNA"backbones"SphasePhase inwhich DNAReplicationoccursNucleotideThemonomersof DNALeadingStrandReplicatedDNA strandthat iscontinuouslymadePhosphate,Sugar,NitrogenBaseThe threeparts of anucleotideAdenineNitrogenbase thatbinds toThiamineChromatinLong,readableform ofDNAMonomer"Building Blocks"ofmacromoleculesGuanineThe nitrogenbase thatbinds tocytosineNitrogenBasesThesequence ofthese willdeterminegenetic infoCytosineThe nitrogenbase thatbinds toguanineEdwinChargaffScientist whodiscoveredDNA bases arecomplimentaryDoubleHelixShape ofthe DNAmoleculeDNAPolymeraseEnzyme thatadds freenucleotidesto the originalDNA strand3' to5'DNA strandthat startswith a sugarand ends witha phosphate5' to3'DNA strandthat starts witha phosphateand ends witha sugarMPhaseDNA will beinchromosomeform duringthis phaseInterphaseDNA will bein chromatinform duringthis phase ofthe cell cycleComplementaryBasesExamplesA & T orC & GReplicationForkStructureformed bya singlehelicaseLigaseEnzyme that"glues"OkazakifragmentstogetherChromosomeCoiledup formof DNADeoxyriboseThe sugarfound inDNAnucleotidesHelicaseEnzymethat"unzips"DNAChargaff'sPrincipleMathematicalformula usedto find missingbase pairspercentagesThiamineThe nitrogenbase thatbinds toadenineCentromereThe proteincenter of achromosomeHydrogenBondBonds foundbetweennitrogenbasesAntiparallelDescribeshow DNAstrands runin oppositedirectionsNucleusWhereDNA isstored inthe cellChromatidsThebranches ofachromosomeOkazakiFragmentsPieces ofreplicatedDNA in thelaggingstrandReplicationBubbleStructurethat speedsup DNAreplicationSemiconservativeDescribes howDNA replicationsaves half ofthe originalDNA in eachnew molecule

DNA Structure & Replication Review - 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
30
31
32
33
34
35
  1. Replicated DNA strand that is made in chunks
    Lagging Strand
  2. Bonds found in the DNA "backbones"
    Covalent Bond
  3. Phase in which DNA Replication occurs
    S phase
  4. The monomers of DNA
    Nucleotide
  5. Replicated DNA strand that is continuously made
    Leading Strand
  6. The three parts of a nucleotide
    Phosphate, Sugar, Nitrogen Base
  7. Nitrogen base that binds to Thiamine
    Adenine
  8. Long, readable form of DNA
    Chromatin
  9. "Building Blocks" of macromolecules
    Monomer
  10. The nitrogen base that binds to cytosine
    Guanine
  11. The sequence of these will determine genetic info
    Nitrogen Bases
  12. The nitrogen base that binds to guanine
    Cytosine
  13. Scientist who discovered DNA bases are complimentary
    Edwin Chargaff
  14. Shape of the DNA molecule
    Double Helix
  15. Enzyme that adds free nucleotides to the original DNA strand
    DNA Polymerase
  16. DNA strand that starts with a sugar and ends with a phosphate
    3' to 5'
  17. DNA strand that starts with a phosphate and ends with a sugar
    5' to 3'
  18. DNA will be in chromosome form during this phase
    M Phase
  19. DNA will be in chromatin form during this phase of the cell cycle
    Interphase
  20. Examples A & T or C & G
    Complementary Bases
  21. Structure formed by a single helicase
    Replication Fork
  22. Enzyme that "glues" Okazaki fragments together
    Ligase
  23. Coiled up form of DNA
    Chromosome
  24. The sugar found in DNA nucleotides
    Deoxyribose
  25. Enzyme that "unzips" DNA
    Helicase
  26. Mathematical formula used to find missing base pairs percentages
    Chargaff's Principle
  27. The nitrogen base that binds to adenine
    Thiamine
  28. The protein center of a chromosome
    Centromere
  29. Bonds found between nitrogen bases
    Hydrogen Bond
  30. Describes how DNA strands run in opposite directions
    Antiparallel
  31. Where DNA is stored in the cell
    Nucleus
  32. The branches of a chromosome
    Chromatids
  33. Pieces of replicated DNA in the lagging strand
    Okazaki Fragments
  34. Structure that speeds up DNA replication
    Replication Bubble
  35. Describes how DNA replication saves half of the original DNA in each new molecule
    Semiconservative