Warm UP: (2/18 Silent!) DNA, RNA or Both? 1. Single Stranded 2. Double Stranded 3. Ribose 4. Deoxyribose 5. In cytoplasm 6. In nucleus
Warm UP: (2/18 Silent!) DNA, RNA or Both? 1. Single Stranded 2. Double Stranded 3. Ribose 4. Deoxyribose 5. In cytoplasm 6. In nucleus.
Dec 22, 2015
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- Slide 1
- Warm UP: (2/18 Silent!) DNA, RNA or Both? 1. Single Stranded 2. Double Stranded 3. Ribose 4. Deoxyribose 5. In cytoplasm 6. In nucleus
- Slide 2
- Quiz Time!! Take out a piece of paper and number it 1-8!!
- Slide 3
- Synthesis - Means "to make something." DNA RNA (a copy) Proteins
- Slide 4
- M= Messenger!!!!
- Slide 5
- Converting DNA to mRNA DNAmRNA A=U T= A G=C C=G
- Slide 6
- Amino Acids Building Blocks (monomers) for Proteins Condon: Set of three bases that codes for one amino acid. 3: Bases = 1: amino acid
- Slide 7
- Converting mRNA to Amino Acids (AA)
- Slide 8
- Lets Practice: mRNA: UUG
- Slide 9
- Converting mRNA to Amino Acids (AA) Lets Practice: mRNA: UUG mRNA: CGA
- Slide 10
- Converting mRNA to Amino Acids (AA) Lets Practice: mRNA: UUG mRNA: CGA mRNA: CGG DNA: CCA
- Slide 11
- You ALWAYS need to start with a START codon.. Look for the AUG
- Slide 12
- Code # 1: ATGGTAGCTAACCTT 1. What is the complementary DNA strand? 2. Convert the complementary DNA strand to mRNA 3. Convert the mRNA Strand to Amino Acids remember to start with AUG Code # 2: CAGATGGAATTGCTCGAT
- Slide 13
- Complete Practice Questions Building Protein in Packet, Complete Both Sides (DNA to RNA and RNA to Protein)
- Slide 14
- Amoeba Sisters http://www.bing.com/videos/search?q=Ameboa%20sisters &qs=n&form=QBVR&pq=ameboa%20sisters&sc=8-13&sp=- 1&sk=#view=detail&mid=B9451DBB53E455D382C7B9451D BB53E455D382C7
- Slide 15
- Name of Process: Where is this process located (assuming eukaryote cell)? Is DNA directly involved in process? Which types of RNA are involved? End Result Transcription 1.2.mRNA only3. Translation 4.5. mRNA tRNA rRNA 6.
- Slide 16
- Solving a Crime!
- Slide 17
- A Crime at Sweet Home High School! The Victim: Mr. Nichol
- Slide 18
- A Crime at Sweet Home High School! The Crime
- Slide 19
- A Crime at Sweet Home High School! The Evidence
- Slide 20
- DNA Unit Study the hypothetical DNA from the crime scene by..... 1. Building a large model of its structure 2. Decoding the DNA into protein 3. Using the protein to determine the suspect's genetic traits 4. Using DNA Technology to identify the criminal.
- Slide 21
- Protein Folding
- Slide 22
- In your Packet complete the protein folding assignment with your table partner Make sure to draw each structure!
- Slide 23
- Genetic Technologies NOVA cracking your genetic code!
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