1 / 37

Today: How do genes work? Discussions begin/began this week. Homework #1 posted

Today: How do genes work? Discussions begin/began this week. Homework #1 posted. Fig 5.26. Information flow in cells. Protein. Fig 5.21. Proteins are the “doers” of the cell. They act as: Enzymes Structural Support Transporters Signals. Proteins are a string of amino acids.

elvin
Download Presentation

Today: How do genes work? Discussions begin/began this week. Homework #1 posted

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Today: How do genes work? Discussions begin/began this week. Homework #1 posted

  2. Fig 5.26 Information flow in cells Protein

  3. Fig 5.21 • Proteins are the “doers” of the cell. • They act as: • Enzymes • Structural Support • Transporters • Signals Proteins are a string of amino acids

  4. The relationship between DNA and genes a gene - DNA used to produce RNA or protein promoter coding region terminator non-gene DNA

  5. Only a small percent of DNA codes for proteins Fig 21.7

  6. In humans: Each cell contains ~6 billion nucleotides of DNA. This DNA is ~2 meters long and 2 nm wide. ~98% does not directly code for amino acids In a single human cell only about 3-5% of genes are expressed at a time. DNA Composition:

  7. Fig 6.2 Length of human DNA in each cell The length of DNA in each of your cells is longer than you are tall. Width of DNA Power of ten: http://www.youtube.com/watch?v=A2cmlhfdxuY

  8. In humans: Each cell contains ~6 billion base pairs of DNA. This DNA is ~2 meters long and 2 nm wide. ~1.5% directly codes for amino acids ~25% is genes In a single human cell only about 5-10% of genes are expressed at a time. DNA Composition:

  9. The relationship between DNA and genes a gene - DNA used to produce RNA or protein promoter coding region terminator non-gene DNA

  10. 20 amino acids in proteins fig 5.17 4 nucleotides in DNA ? fig 16.5

  11. How can 4 nucleotides code for 20 amino acids? IF Ratio (nucleotide:amino acid) Possible combinations 1:1 41 4

  12. How can 4 nucleotides code for 20 amino acids? IF Ratio (nucleotide:amino acid) Possible combinations 1:1 41 4 2:1 42 16

  13. How can 4 nucleotides code for 20 amino acids? IF Ratio (nucleotide:amino acid) Possible combinations 1:1 41 4 2:1 42 16 3:1 43 64

  14. How can 4 nucleotides code for 20 amino acids? • IF • Ratio • (nucleotide:amino acid) Possible combinations • 1:1 41 4 • 2:1 42 16 • 3:1 43 64 • There are more possible combinations than amino acids.

  15. fig 17.4 Combinations of 3 nucleotides code for each 1 amino acid in a protein.

  16. Differences between DNA and RNA Fig 5.27

  17. fig 17.4 Combinations of 3 nucleotides code for each 1 amino acid in a protein.

  18. fig 17.5 the Genetic Code

  19. Changes in DNA can change the protein Fig 17.22

  20. Changes in DNA can change the protein...sickle-cell anemia

  21. The fat cat ate the rat. change one letter The zat cat ate the rat.

  22. The fat cat ate the rat. change one letter The zat cat ate the rat. delete one letter The atc ata tet her at.

  23. fig 17.4 Combinations of 3 nucleotides code for each 1 amino acid in a protein.

  24. fig 5.26 The information in genes is what to make andwhen to make it. Protein

  25. Genes have three basic parts a gene promoter coding region terminator non-gene DNA

  26. fig 5.26 Genes contain the information to make RNA and/or proteins. The information in genes is what to make andwhen to make it. Protein

  27. When to make a protein is critical for proper development.

  28. fig 21.7 Genes are replicators (selfish gene)

  29. fig 19.4 Viruses infect living cells, take over, and produce more virus.

  30. Bodies are vessels for the transmission of genes

  31. fig 21.8 Transposons

  32. fig 21.9 Genes are replicators (selfish gene) Transposons: mobile DNA

  33. fig 21.8 Barbara McClintock, discoverer of transposons

  34. fig 21.9 Genes are replicators (selfish gene) Transposons: mobile DNA

  35. Retrotransposons: mobile and self-replicating DNA fig 21.9

  36. fig 21.7 Genes are replicators (selfish gene)

  37. Next: How do your genes make you, you? Discussions begin/began this week. Homework #1 posted

More Related