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DNA The Molecule of Life: Replication. Replication: Why? When cells replicate, each new cell needs it’s own copy of DNA. Where? Nucleus in Eukaryotes.

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Presentation on theme: "DNA The Molecule of Life: Replication. Replication: Why? When cells replicate, each new cell needs it’s own copy of DNA. Where? Nucleus in Eukaryotes."— Presentation transcript:

1 DNA The Molecule of Life: Replication

2 Replication: Why? When cells replicate, each new cell needs it’s own copy of DNA. Where? Nucleus in Eukaryotes. Cytosol in Prokaryotes

3 Replication: When? S phase of cell cycle (S for synthesis, during interphase) What? Many proteins involved as enzymes: major one is DNA Polymerase How?

4 Replication Defined Using one side of the DNA strand as a TEMPLATE to make a complementary side.

5 Replication - definitions Template – parental strand Complementary copy – daughter strand Both sides of the DNA double strand do this. End result – two identical double helixes (helices).

6 DNA Replication is Semiconservative Each double helix has one parent strand that is conserved and one daughter strand that is new The new strand forms by base-pairing that is complementary to the parent strand. (A-T and C-G) Meselson & Stahl http://preuniversity.grkraj.org/html/10_MOLECULAR_ BIOLOGY.htm

7 Semiconservative: http://www.cpsd.us/CRLS/LC_R/classrooms/AUGUSTINE/DNA_structure_function/index_files/frame.html

8 Replication: Here’s How How? Enzymes! 5’  3’ directionality Starts with RNA primer Leading Strand Lagging Strand Okasaki Fragments Sequence determined by base pairing DNA Replication Animation

9 Replication: Prerequisites Parent DNA needs to unwind and “unzip” The hydrogen bonds between the paired bases break. RECALL hydrogen bonds are not really bonds, they are forces between atoms of H and either N or O (for DNA and RNA). Weaker than covalent bonds in rungs Phosphate/sugar bond Nucleotide bases are always present in the nucleus

10 Replication Enzymes 1. Helicase: the enzyme required to unwind and split the H-bonds in the DNA double helix – exposing the bases. 2. Primase is the enzyme that lays down the RNA primer (establishes starting point) Needs a “primer” or a place to start from—they cannot pick up the first two required nucleotides unless they have the RNA primer (primase).

11 DNA Polymerase: 3. DNA Polymerase III recognizes the exposed bases and matches them up with free, complementary nucleotides (H bonds). 4. The enzyme then bonds the sugars and phosphates together to form the backbone of the new strand

12 Proofreading 4. Makes only one mistake every 10^8 or 10^11 bases it adds. Has proof-reading abilities! A single strand of DNA has about 10^7 – 10^11 base pairs DNA replication occurs fairly quickly; as many as 4000 nucleotides per second are replicated. This helps explain why bacterial cells, under ideal conditions, can reproduce in 20 minutes.

13 Proofreading (cont’d) 4. DNA polymerase I removes the RNA primers when done and fills in the RNA gaps with DNA. DNA ligase seals any nicks in the DNA by linking up the deoxyribose to the phosphate to seal the new DNA strand together. There are a few others, but this is enough for now.

14 Enzyme Summary http://www.nature.com/nature/journal/v421/n6921/box/nature01407_bx1.html

15 Deoxy vs ribose sugar http://www.mun.ca/biology/scarr/iGen3_02-07.html

16 5’ to 3’ Direction http://www.sciencegeek.net/Biology/review/U5Storyboard.htm

17 5’ to 3’ http://click4biology.info/c4b/7/pro7.2.htm#one Animation

18 Replication is 5’-3’ Replication is always 5’ to 3’. But this means one strand is made in one long segment but the other ends up in fragments… http://www.britannica.com/EBchecked/media/110068/In-semiconservative- DNA-replication-an-existing-DNA-molecule-is-separated

19 One strand: Continuous One strand of DNA is synthesized continuously from 5’ to 3’ end. This strand is called the leading strand It is called this because it requires only one primer Replication proceeds in the same direction/towards as the replication fork in the DNA strand At the end of the strand, a TELOMERE is added by another enzyme. Telomere: none-coding redundant sequences.

20 Other: Discontinuous The other strand of DNA is synthesized discontinuously – in pieces – because it also needs to be made 5’ to 3. This strand is called the lagging strand. The many small fragments are called Okazaki fragments

21 Other: Discontinuous It requires multiple primers because it replications AWAY from the replication fork As a fork opens up, a RNA primer attaches, DNA polymerase adds bases 5’ to 3’ until it reaches the “other” RNA primer. This process continues as the fork opens up until the end of the DNA. At the end, another enzyme adds a telomere.

22 http://www.esb.utexas.edu/mabrybio211/chapter05/ch5.htmhttp://www.esb.utexas.edu/mabrybio211/chapter05/ch5.htm)

23 DNA polymerase assembles new complementary strands http://dnainfo.wikispaces.com/DNA+Replication

24 SUMMARY and demo How? Enzymes make it happen correctly. There are many 5’  3’ directionality for both strands Starts with RNA primer for DNA polymerase to attach Leading Strand is continuous Lagging Strand is discontinuous Okasaki Fragments are connected by polymerase I Sequence determined by complementary basepairing enzyme roles Replication animation-slow Animation-johnkyrk Animation-fast

25 Sources of info, Assignments Good sources of info: Your textbook! Chapter 11 pg. 280-287 Especially pg 286-287 Copying DNA Fig 11.5 Assignment Worksheets Text pg. 287 Q 1-5 ? The internet has a LOT of good animations you could view. Google DNA replication animations.

26 Transcription DNA  RNA The difference between DNA and RNA Uracil not thymine http://biochem.co/page/3/

27 Transcription DNA  RNA The difference between DNA and RNA Ribose Sugar http://bilingualbiology11a.blogspot.com/2010_09_01_archive.html

28 Transcription Where? Nucleus in Eukaryotes Cytosol in Prokaryotes What? RNA Polymerase (enzyme) plus some minor proteins When? When RNA is needed Why? RNA’s serve many important functions in cells How?

29 http://blog.coturnix.org/2008/05/01/lithium_circadian_clocks_and_b_2/ Where are we?

30 Transcription How? 5’  3’ directionality Usually only one strand Uses Base-pairing Same idea as with DNA replication Transcription Animation Transcription & translation - fast

31 Translation What? RNA  Protein Where? Cytosol/Cytoplasm When? When proteins are need, after RNA is made Why? Proteins are vital for cells How?

32 Translation How? Ribosomal Subunits Small subunit Large subunit Codon Triplet code used tRNA, rRNA, mRNA Translation Animation Translation 2 DNA Rap

33 The Genetic Code

34 Why is this important? Genetic Engineering Gene Splicing Mutations Cloning


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