DNA for Grade 12

1. DNA – The Molecule of LifeDNA – The Molecule of Life Hidden in all life is aHidden in all life is a unique codeunique code This code is in the formThis code is in the form of a chemical, calledof a chemical, called DNADNA DDeoxyriboeoxyriboNNucleicucleic AAcidcid 11

2. ChromosomeChromosome uncoiled touncoiled to show DNAshow DNA Genes areGenes are pieces of DNApieces of DNA that code forthat code for aa characteristiccharacteristic e.g. Eyee.g. Eye colourcolour ChromosomesChromosomes in the cellin the cell nucleusnucleus OneOne chromosomeschromosomes enlargedenlarged Where is DNA found in the cell?Where is DNA found in the cell?22

3. DNA – The Molecule of LifeDNA – The Molecule of Life What does DNA look like?What does DNA look like? A photo of DNA from an electronA photo of DNA from an electron microscopemicroscope 33

4. DNA – The Molecule of LifeDNA – The Molecule of Life We can’t see too much from this but if weWe can’t see too much from this but if we look at the molecules that make up DNA welook at the molecules that make up DNA we see a a truly amazing molecule – one thatsee a a truly amazing molecule – one that contains the hidden code of all life on earthcontains the hidden code of all life on earth 44

5. DNA – The Molecule of LifeDNA – The Molecule of Life What is DNA made up of ?What is DNA made up of ? What results if a DNA molecule likeWhat results if a DNA molecule like this is broken down?this is broken down? 55

6. DNA – The Molecule of LifeDNA – The Molecule of Life DNA is found to be made of threeDNA is found to be made of three types of molecules:types of molecules: 66

7. DNA – The Molecule of LifeDNA – The Molecule of Life SugarSugar This is a specialThis is a special type of sugar calledtype of sugar called deoxyribosedeoxyribose 77

8. DNA – The Molecule of LifeDNA – The Molecule of Life PhosphatePhosphate Similar to the chemicalsSimilar to the chemicals used as fertilisersused as fertilisers to growto grow plantsplants 88

9. DNA – The Molecule of LifeDNA – The Molecule of Life BaseBase D O O M Similar to the chemicalsSimilar to the chemicals used in insecticides –used in insecticides – NITROGENOUS BASENITROGENOUS BASE 99

10. DNA – The Molecule of LifeDNA – The Molecule of Life SugarSugar PhosphatePhosphate Nitrogenous BaseNitrogenous Base SUMMARY: DNA is made ofSUMMARY: DNA is made of three types of moleculesthree types of molecules 1010

11. THE NUCLEUS • Most plant and animal cells have a well-defined nucleus surrounded by a double, permeable nuclear membrane made up of proteins and phospholipids • Ribosomes occur on the outer membrane and these are concerned with protein synthesis. • The nucleoplasm is the matrix, in which various substances are suspended. • There may be one or more nueleoli [singular = nueleolus] in the nucleus. These contain proteins and nucleic acids found within the nucleus and they manufacture RNA and are concerned with protein synthesis. • Chromosomes are long threads made of DNA and some protein. They are the carriers of GENES which are responsible for our hereditary traits. When a cell Is not dividing the chromosomes are not visible but are in a very tangled mass, the chromatin network

12. FUNCTIONS OF THE NUCLEUS • Controls metabolic activities of the cell by dictating the type of proteins to be manufactured. • Carries hereditary traits and allows the transmission of these from parent to offspring.

13. During cell division, the chromatin is visible as chromosomes. Chromosomes are the control centres of the nucleus

14. • A DNA profile of a person can be made from these sources! • Police and forensic scientists use this information in criminal investigations! • This is known as DNA fingerprinting. No two people except identical twins have the same DNA

15. DNA STRUCTURE • DNA [deoxyribose nucleic acid] is known as the key to life. It is the hereditary material found in the chromosomes as well as other parts of the cell e.g. mitochondria.

16. • It is a very long giant molecule made up of smaller units called NUCLEOTIDES. Watson & Crick were awarded the Nobel Prize for working out its structure [although a South African woman was just pipped at the post (1953-1962)].

17. • Each side is made up of alternating SUGARS [deoxyribose] and PHOSPHATES. • Forming the 'rungs' are PAIRED NITROGENOUS BASES;

18. • ADENINE pairs with THYMINE A T • GUANINE pairs with CTYOSINE G C • These pairs are linked by weak hydrogen bonds.

19. • ONE sugar + ONE PHOSPHATE + ONE BASE = A NUCLEOTIDE. • Many nucleotides = one gene • Thousands of genes may occur on one DNA (chromosome) strand.

20. • The DNA is twisted into a double helix

21. These threeThese three molecules aremolecules are bonded in abonded in a special way tospecial way to form the units ofform the units of the DNA moleculethe DNA molecule calledcalled NUCLEOTIDESNUCLEOTIDES A SINGLEA SINGLE NUCLEOTIDENUCLEOTIDE Consists of aConsists of a SugarSugar and a base joinedand a base joined to the sideto the side a Phosphatea Phosphatejoined tojoined to 11

22. In the DNAIn the DNA molecule,molecule, nucleotides linknucleotides link together to formtogether to form long chains calledlong chains called polynucleotidepolynucleotide chains.chains. (poly=many)(poly=many) 22

23. The sugar andThe sugar and phosphates are thephosphates are the same throughout thesame throughout the DNA molecule but …DNA molecule but … There are fourThere are four different bases.different bases. 33

24. The four bases are eitherThe four bases are either single or doubled ringedsingle or doubled ringed AA singlesingle ringedringed basebase AA doubledouble ringedringed basebase 44

25. There are two types ofThere are two types of singlesingle ringedringed basesbases ThymineThymine CytosineCytosine TT CC 55

26. AA GuanineGuanine AdenineAdenine GG There are two types ofThere are two types of doubledouble ringedringed basesbases 66

27. Four different nucleotides thereforeFour different nucleotides therefore occur in the DNA moleculeoccur in the DNA molecule A GC T 77

28. TheThe polynucleotidepolynucleotide chain now withchain now with the fourthe four different basesdifferent bases A G C T 88

29. The DNAThe DNA moleculemolecule consists ofconsists of TWO chainsTWO chains The sugarThe sugar andand phosphatesphosphates form theform the backbonebackbone 99

30. It is arrangedIt is arranged in thein the oppositeopposite direction todirection to the firstthe first chainchain What do youWhat do you notice aboutnotice about the secondthe second chain?chain? 1010

31. ? But how areBut how are the basesthe bases arranged toarranged to link the twolink the two chains?chains? ? ? ? 1111

32. When bases combine ..When bases combine .. always links toalways links to a one ringeda one ringed basebase A two ringedA two ringed basebase 1212

33. AA GG TT CC AdenineAdenine ThymineThymine GuanineGuanine CytosineCytosine Adenine always joins to Thymine Guanine always joins to Cytosine 1313

34. A G C T C A T G Now look at how the bases link with each other to join the two chains of the DNA molecule 1414

35. DNADNA UNIT 3UNIT 3 DNA ReplicationDNA Replication

36. • The DNA molecule has many nucleotides •To see this clearly we need to simplify a nucleotide A SugaSuga rr PhosphatePhosphate BaseBase 11

37. C C G T A A A A T T T G G G C A T T T T A A A C Try to determine which nucleotide will link to the form the second DNA chain WhichWhich nucleotide willnucleotide will link to A ?link to A ? Remember A joins to T and G to C 22

38. As the bases link to each other, the DNA molecule is twisted into a double helix Two Sugar-Two Sugar- PhosphatePhosphate backbonesbackbones Inter-Inter- linkinglinking basesbases 33

39. DNADNA replicationreplication How DNA is copiedHow DNA is copied 44

40. When a cell divides, the DNA needs to be copied so that each new cell has the same DNA as the parent cell DNA replicationDNA replication 55

41. An enzymeAn enzyme breaks thebreaks the hydrogenhydrogen bondsbonds linking thelinking the two chainstwo chains The two chainsThe two chains separateseparate New strandsNew strands formform complimentarycomplimentary to parent strandsto parent strands DNA replicationDNA replication66

42. C C G T A A A A T T T G G G C A T T T T A A A C A closer view ofA closer view of DNA replicationDNA replication looking at partlooking at part of a strandof a strand An enzyme unzipsAn enzyme unzips the DNA moleculethe DNA molecule 77

43. C C G T A A A A T T T G G G C A T T T T A A A C DNADNA StrandsStrands separateseparate 88

44. C C G T A A A A T T T G G G C A T T T T A A A C C C G T A A A A T T T G G G C A T T T T A A A C FreeFree NucleotidesNucleotides link tolink to formform newnew chainschains andand twotwo identicalidentical DNADNA moleculesmolecules 99

45. DNA REPLICATION • The weak hydrogen bonds holding the complementary base pairs together break as a result of enzyme action. • Two single strands now result. • Each single strand picks up free nucleotides from the nucleotide pool in the nucleoplasm and becomes double again. • Since Thymine can only combine with Adenine, and Guanine with Cytosine, the two new double strands are identical to each other as well as to the original strand.

46. The drawing below summarises the functions of the nucleotides: D.N.A R.N.A D.N.A. mR.N.A. tR.N.A. Proteins

47. Transcription

48. Translation

DNA for Grade 12

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DNA for Grade 12

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DNA for Grade 12