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Transcript
Name____________________________________ Class___________ Date_______________ Assembling a Protein Molecule Pre-lab Discussion DNA and RNA, the two types of nucleic acids found in cells, determine which protein molecules a cell makes, or synthesizes. Protein molecules, formed by sequencing twenty different amino acids in various combinations, are important to living things because they control biological pathways, direct the synthesis of organic molecules, and are responsible for cell structure and movement. DNA carries the information for the synthesis of all the proteins in code form. The three different types of RNA carry out the DNA instructions to synthesize proteins. During transcription, the DNA code is transcribed by mRNA into the language of protein synthesis. Three base codons of mRNA carry this information of the ribosomes, where translations occur. During translations, mRNA codons are translated into a protein molecule when tRNA anticodons bring the correct amino acids to the ribosome. The amino acids brought side-by-side by tRNA form peptide bonds and become protein molecules. In this investigation you will model the process of proteins synthesis carried out by the cells of your body. Problem How can you and your classmates carry out the different processes of protein synthesis and assemble a protein molecule? Figure 1 Amino acid DNA Triplets Alanine Glutamine Glutamic Acid Leucine Lysine Phenylalanine Proline Serine Tyrosine Valine CGT GTT CTT GAT TTT AAA GGC AGC ATG CAA Observations 1. Using figure 1, complete the Data Table for each protein molecule. Data table Protein Amino Acids DNA Triplet mRNA Codon GGC CCG 1 Proline Glutamic Acid CTT Alanine CGT 2 tRNA Anticodon GGC Lysine Glutamine Valine 3 Leucine Proline Tyrosine 4 Phenylalanine Glutamine Proline 5 Lysine Serine Leucine 2. In what Four ways do DNA and RNA molecules differ? a. DNA is made of deoxyribose, while RNA is made of_____________________________________ b. DNA is double stranded, while RNA is _____________________________________________ c. There is one type of DNA, while there is ___________types of RNA d. DNA has a Thymine, while RNA has _____________________________ 3. How was mRNA formed? 4. How do mRNA and tRNA differ? 5. Where in the cell are protein molecules formed? Analysis and Conclusions 1. What is the role of DNA in protein synthesis? 2. What is the role of mRNA in protein synthesis? 3. Which step in the procedure represents transcription? Explain your answer. 4. What would happen to Protein 1 if the first DNA triplet was TTT instead of GGC? Critical Thinking and Application 1. What does the processes of transcription and translation have in common (how are they related)? 2. How do DNA replication and DNA transcription differ? 3. If an incorrect nucleotide is in a DNA molecule due to mutation, will protein syntheses be affected? Explain your answer. Chumba wumbicans Simulating Protein Synthesis Part 2 In this investigation, you will simulate the mechanism of protein synthesis and thereby determine the traits inherited by fictitious organisms called Chumba wumbicans. Chumba wumbicans, whose cells contain only one chromosome, are members of the kingdom Animalia. A Chumba wumbicans chromosome is made up of six genes (A, B, C, D, E and F), each of which is responsible for a certain trait. Problem How can the traits on a particular chromosome be determined? How can these traits determine the characteristics of an organism? Materials (per student) Blue pencil Orange pencil Procedure 1. To determine the trait from Gene A of your, Chumba wumbicans fill in the information in the box labeled Gene A in the Data Table. Notice the sequence of the nucleotide in DNA. On the line provided, write the sequence of nucleotides of mRNA that are complementary to DNA. Then, on the line provided, write the sequence of nucleotides on tRNA that is complementary to mRNA. 2. In order to determine the sequence of amino acids, match each tRNA triplet with the specific amino acid in Figure 1. Using a – (hyphen) to separate each amino acid number, record this information in the appropriate place in the Data Table. 3. Using Figure 2, fine the trait that matches the amino acid sequence. Record this information in the appropriate place in the Data Table. 4. Repeat steps 1 through 3 for the remaining genes (B through F) 5. Using all the inherited traits, ketch your i Chumba wumbicans n the space provided. Figure Table 1 tRNA Triplet ACC AGC CGA AAC CGC GGG AGG AAA UUU GGU UAU CCC AUC CUA GGA Amino Acid Number 20 16 2 4 3 5 7 8 9 12 13 1 6 10 11 Figure Table 2 Amino Acid Sequence 20-11-13 20-12-13 20-21-21 13-14-15 16-2 15-5 12-7-8-1 5-7-8-1 9-8 9-4 11-3-2 11-3-3 6-6-10 6-6-14 Trait Hairless Hairy Plump Skinny Four-legged Two -legged BIG NOSE No Nose, just holes 4 little Eyes One big Eye Blue skin and hair Orange skin and hair Male= Mustache Female = Eyelashes Observations Data Table Gene A DNA ACC GGT TAT Gene B DNA AGC CGA Gene C DNA TTT AAC mRNA UGG CCA AUA mRNA _____________________ mRNA ___________________ tRNA _ACC_______________ tRNA _____________________ tRNA ____________________ Amino acid sequence __ 20__ 12 13 Trait __HAIRY____________ Amino acid sequence ____________________________ Amino acid sequence ___________________________ Trait _______________________ Trait ______________________ Gene D DNA GGA CGC CGA Gene E DNA GGG AGG AAA CCC Gene F DNA ATC ATC CTA mRNA _________________ mRNA ____________________ mRNA ____________________ tRNA __________________ tRNA _____________________ tRNA _____________________ Amino acid sequence ________________________ Amino acid sequence ___________________________ Amino acid sequence ___________________________ Trait___________________ Trait ______________________ Trait _____________________ Analysis and Conclusions Use page 304 in your book for a visual and to answer these questions. 1. What are the differences between translation and transcription. 2. What is the specific site for transcription and translation in the cell? Transcription: Translation: 3. How many tRNA nucleotides form an anticodon that will attach to the mRNA codon? _________ 4. Draw what a tRNA anticodon looks like on page 304. Critical Thinking and Application 1. Suppose you know the make up specific proteins in a cell. How would you determine the particular DNA code that coded for them? 2. How could one change in a DNA nucleotide alter the formation of the translated protein? (An example would be the difference between normal and sickle-cell hemoglobin)
