1. Tuesday 3/6/12 Aim: How does the genetic code get out of the nucleus? Do Now: Show the product after DNA replicates: Homework:page 315 questions 19 and 20

4. Wednesday 3/7/12 pd 7 AIM: how can we make an mRNA transcript from a DNA template? DO NOW: Explain the difference between replication and transcription. HOMEWORK: Internet project on the website due friday

5. How does a DNA strand become a protein? Name the processes.

6. Tuesday 4/5/11 AIM: why is the primary transcript modified before leaving the nucleus? DO NOW: Explain what makes a skin cell different from a cardiac (heart) cell. Homework: Textbook Read page 306. reading check on page 306. analyze figure 13 on page 307. List the start codon and the 3 stop codons.

7. Before becoming a protein, name the molecule synthesized during translation. polypeptide

8. Gene Expression DNA only provides instructions. Gene expression is the process by which the information encoded in a gene is used to assemble protein. In you body, do all cells have the same genetic information? How come our cells in our stomach function differently than our skin? –Cells are differentiated meaning that different cells can have very different structure and function due to the genes they express. –Different cells listen to different instructions so that means they make different proteins

9. How do skin cells make proteins? How do cardiac cells make proteins?

10. How is the information in DNA turned into Protein?

12. DNA template On the double helix, the sequence being transcribed is called the sense strand It holds the information to build the polypeptide The noncoding DNA strand is called the anti-sense strand The sense and anti-sense strands can switch and the cell makes a different polypeptide

13. The primary transcript is complementary to the DNA template (sense strand)

15. Thursday 3/8/12 AIM:how does a mature mRNA molecule mirror its DNA template? DO NOW: Transcribe the following ATTCGTAGCATG Where does transcription take place? Homework: project DUE TOMORROW!

16. Primary transcript Rough draft mRNA First mRNA molecule made It gets modified before it leaves the nucleus

18. Transcription: DNA-RNA

19. Transcription (nucleus) DNA-RNA Step 1: unzip the DNA double helix –Breaking the hydrogen bonds between Nitrogen bases Step 2: Attract ribonucleotides to the DNA template –Base pair rules DNARNA AU TA CG GC

21. Types of RNA mRNA: messenger RNA: carries the genetic code from the nucleus to the ribosome rRNA: ribosomal RNA: builds ribosomes tRNA: transfer RNA: carries amino acids to the synthesizing polypeptide The Three RNAs (mRNA, tRNA, and rRNA) all work together to turn the information in DNA into a beautiful, 3-dimestional protein!!!

22. Friday 3/9/12 AIM: How is the primary transcript modified before it leaves the nucleus? DO NOW:Explain the difference between a codon and an anticodon. Transcribe the following: SenseTACGGTACTGTAGGA AntisenseATGCCATGACATCCT

23. POP QUIZ! Use the picture to answer questions 1-4 1-Name Enzyme A 2- What is the function Of Enzyme B 3- Name Strand 1 4- Why is strand 2 made In small fragments? Enzyme A Enzyme B Strand 1 Strand 2

24. tRNA: Transfer RNA carries amino acids to the mRNA-ribosome complex

25. Ribosomal RNA builds ribosomes

26. How does tRNA know The mRNA which amino acid to bring the ribosome The mRNA holds the codons which tell which amino acid

27. Transcription: DNA  RNA DNA template used to create RNA Step 1: RNA polymerase attaches to promoter region, unzips DNA strand Gene Complementary DNA

28. Transcription: DNA  RNA Step 2: As RNA polymerase unzips, it forms RNA strand with RNA nucleotides. Only one DNA strand is transcribed at a time. Step 3: RNA polymerase continues until termination point. A C G T A T C G C G T A U G C A U A G C G C A U

29. Tutorial 12.1 Transcription

30. Transcription cont. BUT BEFORE IT CAN LEAVE THE NUCLEUS, THE PRIMARY TRANSCRIPT (immature mRNA) MUST BE MODIFIED (changed) WHY? Make sure all the codons are in correct order Get rid of junk DNA Protect mRNA from degredation Make sure mRNA recognizes and bonds to the ribosome Start codon (AUG) must recognize and bond to the ribosome

31. AIM: how do our cells make RNA from DNA templates DO NOW: how do you think RNA polymerase unzips the DNA double helix and why does the DNA double helix have to get unzipped? HOMEWORK: Quick Lab page 310 analysis questions 1-4 will be checked on Monday EXAM WEDNESDAYEXAM WEDNESDAY

32. Monday 3/12/12 AIM: How does the primary transcript mirror the gene sequence? DO NOW: Where are the instructions for all of your physical characteristics located? (BE SPECIFIC) How do your physical characteristics develop? (from start to finish) Homework: page 314 questions 12 Write out the question followed by the answer! EXAM THIS THURSDAY DNA REPLICATION, TRANSCRIPTION and TRANSLATION Chapter 13 pages296-298,304-310

34. Transcription This animation shows the process of transcription

35. Translation RNA-Polypeptide

38. Transcription Promoter sequence: sequence of nucleotides on the DNA molecule that tells RNA polymerase to begin transcription –Start of the genes codons Terminator sequence: Tells RNA polymerase that transcription is over and to release the primary transcript

39. Primary transcript Immature Rough draft Before it can leave the nucleus, must be modified –Prevents degrading (break down) –Helps ribosome to recognize

40. Tuesday 3/13/12 pd 7 AIM: How do genes develop into physical traits? DO NOW: Transcribe A C G T A T C G C G T HOMEWORK: Practice Test questions 1-10

41. Modification of RNA The most important is RNA splicing (cutting out junk DNA gluing together important DNA) Addition of 5’cap and Poly-A tail

42. Modification of RNA: splicing

44. Tuesday 3/13/12 AIM: How do genes develop into physical traits? DO NOW: Transcribe the following gene sequence A C G T A T C G C G T HOMEWORK: Textbook Page 310 Quick lab questions 1-4

45. Transcription RNA polymerase continues until termination point. RNA molecule may become rRNA, tRNA, OR mRNA depending on what sequence was transcribed.

46. Why do we have to modify the primary mRNA transcript?

47. Modification of RNA 5’ cap attached to the 5' end of the pre-mRNA Poly(A) tail attached to the 3' end of the pre- mRNA splicing is a modification of genetic information prior to translationtranslation Introns get cut out, and Exons get together

48. Splicesomes Enzymes capable of cutting out introns and pasting together exons Introns: noncoding sequences of nucleotides Exons: coding sequences of nucleotides Reading frame: sequence of coding nucleotides that code for an amino acid sequence Codon: sequence of 3 nucleotides that specify one amino acid –The genetic word

49. Monday 4/8/13 AIM: How is the mature mRNA transcript read once it is at the ribosome? DO NOW: transcribe and translate Gene sequence: TACCCTCAACTCTCAACT Homework: Textbook page 313 questions 8,9,10,12,13

50. Lets build a protein Gene sequence: TACCCTCAACTCTCAACT mRNA: AUGGGAGUUGAGAGUUGA MET-GLY-VAL-GLU-SER tRNA: UACCCUCAACUCUCAACU

53. AUG: Start codon: tells ribosome to start translation UAA UAG These are your STOP codons UGA they tell the ribosome to stop translating

54. HOW does tRNA know which amino acid to bring to the ribosome? The mRNA codon which came from the DNA gene

55. tRNA: Transfer RNA carries amino acids to the mRNA-ribosome complex

56. tRNA anticodon 3 base pair sequence complementary to the mRNA codon3 base pair sequence complementary to the mRNA codon Anticodon-codon complex allows amino acids to bond in proper sequenceAnticodon-codon complex allows amino acids to bond in proper sequence

57. Tuesday 4/9/13

58. Animation of Translation

60. Amino Acid The R group gives the amino acid it’s unique properties Size, water solubility, electrical charge

62. Skip to slide 63

63. How is DNA different from RNA?

64. DNA vs. RNA Three big differences 1.The sugar in DNA is deoxyribose; in RNA it is ribose 2. The nitrogenous base uracil (U) is used in RNA in place of Thymine (T) 3. RNA is single stranded, DNA is a double helix

65. In your own words explain the central dogma of gene expression

66. Types of RNA mRNA: messenger RNA: carries the genetic code from the nucleus to the ribosome rRNA: ribosomal RNA: builds ribosomes tRNA: transfer RNA: carries amino acids to the synthesizing polypeptide The Three RNAs (mRNA, tRNA, and rRNA) all work together to turn the information in DNA into a beautiful, 3-dimestional protein!!!

67. Why is it important to modify the primary RNA before leaving the nucleus? –the splicing process can create many unique proteins

68. Translation

69. mRNA  Protein mRNA(or messenger RNA) contains the instructions to make 1 protein. After the mRNA is made, it is trimmed down to a final size, and shipped out of the nucleus! When the mRNA gets into the cytoplasm, it is made into protein.

70. Translation Initiation: small ribosome scans along mRNA strand and finds binding site. LARGE ribosome’s come in, with APE sites. First codon aligned at P site. tRNA carries amino acid and attaches it to the start codon.

71. Translation Elongation: Amino acid on P site transfers to A site. The growing polypeptide chains moves to P site, tRNA brings new amino acid to A site. Empty TRNA is ejected from E site. The polypeptide grows off of P site.

72. Translation Termination: Stop codon on a site-release factor release polypeptide chain. Separation of machinery.

73. Transcription and translation http://www- class.unl.edu/biochem/gp2/m_biology/an imation/gene/gene_a3.html http://www.stolaf.edu/people/giannini/flas hanimat/molgenetics/translation.swf

74. How do errors in DNA replication effect an organism? –Errors in DNA replication may lead to the production of the wrong protein. Why are proteins important? Proteins serve various functions in the body. The structure of a protein determines its function. –Example: » Antibodies: specialized proteins that defend our body »Enzymes: proteins that facilitate biochemical reactions.

75. If my DNA makes a mistake, how will the protein behave? –The protein will have a different shape, and without its shape, it cannot function properly –Proteins are shape specific

76. Example: Sickle Cell Anemia 1 base pair change leads to 1 change in the amino acid. This leads a change in the structure of hemoglobin, a transport protein. –Why is the shape of the red blood cell important? Because of the mutation in the hemoglobin, decreases the cells' flexibility and results in a risk of various complications.