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DNA Replication and Protein Synthesis

DNA Replication and Protein Synthesis. DNA Replication. DNA replication and protein synthesis happens mainly during S phase. How DNA Replication Occurs. DNA replication is the process by which DNA is copied in a cell before a cell divides by mitosis, meiosis, or binary fission

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DNA Replication and Protein Synthesis

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  1. DNA Replication and Protein Synthesis

  2. DNA Replication

  3. DNA replication and protein synthesis happens mainly during S phase.

  4. How DNA Replication Occurs • DNA replication is the process by which DNA is copied in a cell before a cell divides by mitosis, meiosis, or binary fission • One copy moves to each new cell • Since the two strands are complementary, each strand serves as a template to make a new strand

  5. Steps of DNA Replication • Helicases separate the DNA Strands • These move along the DNA molecule breaking the hydrogen bonds between the complementary bases • This allows the two strands to separate • The Y shaped region where the strands are separating is called the replication fork (not spoon)

  6. Steps of DNA Replication • DNA polymerases add complementary nucleotides to each of the original strands • Nucleotides float freely in the nucleus • As nucleotides are added, bonds form between the sugar of one nucleotide and the phosphate group of the next • Hydrogen bonds form between the bases

  7. Steps of DNA Replication • DNA polymerases are finished and fall off - Result is two molecules of DNA identical to the original - Molecules are ready to move into new cells during division - Called semi-conservative replication because each of the new DNA molecules has kept (or conserved) one of the two (or semi) original DNA strands.

  8. Action at the Replication Fork • DNA synthesis occurs in different directions on each strand • As the replication fork moves along the original DNA, synthesis follows the movement of the replication fork • Synthesis on the other strand moves in the opposite direction, away from the replication fork • This leaves gaps in the newly synthesized strand, which are later joined by an enzyme DNA ligase

  9. Prokaryotic and Eukaryotic Replication Prokaryotic • Circular chromosome • Replication begins at one place along the chromosomes • Two replication forks are formed and proceed in opposite directions • Replication continues along each fork until they meet an thewhole molecule is copied

  10. Prokaryotic and Eukaryotic Replication Eukaryotic • Each chromosome is long, but not circular • At the rate a polymerase adds nucleotides (50/sec), it would take 53 days to replicate the largest human chromosome • Instead, replication begins at many points or origins along the DNA, and two forks move in opposite directions • In a fruit fly, replication begins simultaneously at about 3500 sites in a DNA molecule

  11. Errors in DNA Replication • DNA replication usually occurs with great accuracy (only one error for every billion nucleotides added) • How is this done??? • Polymerases have repair or “proofreading” functions in the same way the computer checks for spelling errors • For example, if A is paired with C, the polymerase removes the C and replaces it with T Click picture for video

  12. Errors in DNA Replication • When mistakes do occur, the base sequence of the newly formed DNA differs from the original • A change in the nucleotide sequence of a DNA molecule is called a mutation • These can have serious effects on the function of a gene – therefore disrupting cell function

  13. DNA Replication and Cancer • Mutations can arise and lead to altered cells and organisms • The changes allow individuals to survive and reproduce better • Sometimes un-repaired mutations can cause cancer • Tumors are caused by mutations that affect cell division

  14. How is the exact replication of DNA ensured? By complementary base pairing and proofreading by DNA polymerases

  15. What are replication forks? Areas of DNA where the double helix separates prior to replication

  16. Protein Synthesis

  17. Three Basic Steps to Protein Synthesis • Transcription-DNA code is copied by mRNA (messenger RNA). Happens in nucleus. • Translation-Ribosomes use information from mRNA to produce proteins. Happens in cytoplasm. • Protein Synthesis- ribosomes make proteins with tRNA anticodons

  18. Transcription Decoded • During transcription, RNA polymerase (enzyme) binds to DNA and splits the DNA strands. • RNA polymerase then uses one strand of DNA as a template from which nucleotides are assembled into a strand of mRNA.

  19. How does RNA polymerase “know” where to start and stop making an RNA copy of DNA?

  20. Promoters • RNA polymerase will bind only to regions of the DNA known as promoters, which have specific base sequences. • Base sequences AUG means “start” in DNA codon language

  21. Transcription video clip now!!!

  22. The genetic code • Proteins are made by joining long chains of amino acids called polypeptides (proteins). • Each polypeptide contains a combination of 20 amino acids.

  23. Genetic Code • The genetic code is read three letters at a time (a codon), so that each “word” of coded messages is three bases long. • Example • UCG-CAC-GGU • Stands for serine- histidine - glycine

  24. Translation & Protein Synthesis • mRNA code is copied by tRNA in sets of 3 bases at a time (codons). • Protein Synthesis-tRNA delivers amino acids to ribosomes which link amino acids together to make a protein.

  25. tRNA amino acid attachment site U A C anticodon

  26. Watch translation Video clip now!!!!!

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