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REVISION: TOPICs 2.6 & 2.7 – DNA & RNA STRUCTURE DNA REPLICATION

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Presentation on theme: "REVISION: TOPICs 2.6 & 2.7 – DNA & RNA STRUCTURE DNA REPLICATION"— Presentation transcript:

1 REVISION: TOPICs 2.6 & 2.7 – DNA & RNA STRUCTURE DNA REPLICATION
The structure of DNA allows efficient storage of genetic information. IB Biology Miss Werba

2 NUCLEIC ACIDS Both DNA and RNA are examples of nucleic acids
They are polymers of monomers called nucleotides J WERBA – IB BIOLOGY 2

3 NUCLEIC ACIDS Each nucleotide consists of: a nitrogenous base
a pentose sugar a phosphate group (hydrogens have been removed) J WERBA – IB BIOLOGY 3

4 NUCLEOTIDE STRUCTURE D R DNA: RNA: Phosphate group Deoxyribose sugar
One of four nitrogen bases: A = Adenine T = Thymine U = Uracil G = Guanine C = Cytosine D R J WERBA – IB BIOLOGY 4

5 NUCLEIC ACID STRUCTURE
DNA: RNA: double stranded single stranded deoxyribose sugar ribose sugar Bases used are A, T, C & G Bases used are A, U, C & G C G A T J WERBA – IB BIOLOGY 5

6 DRAW STRUCTURE OF DNA Draw 2 strands Draw strands anti-parallel:
use the 5’ and 3’ direction markers face the pentose sugars in the opposite ways Show complementary base pairs: A bonded to T C bonded to G Label the phosphate, deoxyribose sugar and nitrogen bases Label the covalent and hydrogen bonds J WERBA – IB BIOLOGY 6

7 DRAW STRUCTURE OF RNA Draw 1 strand
Label phosphate, ribose sugar and nitrogen bases Label the covalent bonds Identify the nitrogen bases present (including Uracil) J WERBA – IB BIOLOGY 7

8 WATSON & CRICK NOS 1.10 – James Watson and Francis Crick used model making to discover the structure of DNA. J WERBA – IB BIOLOGY 8

9 DNA REPLICATION DNA double helix “unwinds”.
Two strands of DNA “unzip”. Free DNA nucleotides pair up with exposed bases. A new complementary strand forms. J WERBA – IB BIOLOGY 9

10 DNA REPLICATION DNA replication depends on complementary base pairing.
Means that the new strand will match one of the parent strands. J WERBA – IB BIOLOGY 10

11 DNA REPLICATION DNA replication is semi- conservative.
Means that the new molecules have half of the old molecule joined to a new strand ie. the parent molecule has been partially conserved J WERBA – IB BIOLOGY 11

12 MESELSON & STAHL Their work helped establish semi-conservative replication as the sole theory of DNA replication. J WERBA – IB BIOLOGY 12

13 MESELSON & STAHL J WERBA – IB BIOLOGY 13

14 HELICASE Unwinds the double helix and separates the two strands by breaking hydrogen bonds. Requires ATP J WERBA – IB BIOLOGY 14

15 DNA POLYMERASE Links free-floating nucleotides together to form a new strand, using the pre-existing strand as a template. The nucleotides align opposite their complementary base partner Forms covalent bonds between the nucleotides Works in a 5’ 3’ direction J WERBA – IB BIOLOGY 15

16 Taq DNA POLYMERASE Taq DNA polymerase is a thermostable DNA ploymerase (ie. stable at high temps) Used in polymerase chain reaction (PCR). Used to rapidly produce multiple copies of a specific DNA target sequence. PCR is useful when only a small sample is available – eg. crime scene samples J WERBA – IB BIOLOGY 16

17 POLYMERASE CHAIN REACTION (PCR)
Process: Denaturation: Heat DNA to separate the strands Annealing: DNA primers attach to the 2 ends of the target sequence Elongation: heat-tolerant Taq DNA polymerase copies the strands One cycle yields two identical copies Standard PCR includes 30 cycles, yielding over a billion copies of the DNA sample J WERBA – IB BIOLOGY 17

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