Chapter 17 From Gene to Protein
Objectives
| The Connection Between Genes and Proteins | |||
| 1. | Explain why dwarf peas have shorter stems than tall varieties. | ||
| 2. | Explain the reasoning that led Archibald Garrod to first suggest that genes dictate phenotypes through enzymes. | ||
| 3. | Describe Beadle and Tatums experiments with Neurospora and explain the contribution they made to our understanding of how genes control metabolism. | ||
| 4. | Distinguish between the one geneŠone enzyme hypothesis and the one geneŠone polypeptide hypothesis and explain why the original hypothesis was changed. | ||
| 5. | Explain how RNA differs from DNA. | ||
| 6. | Briefly explain how information flows from gene to protein. | ||
| 7. | Distinguish between transcription and translation. | ||
| 8. | Compare where transcription and translation occur in prokaryotes and in eukaryotes. | ||
| 9. | Define codon and explain the relationship between the linear sequence of codons on mRNA and the linear sequence of amino acids in a polypeptide. | ||
| 10. | Explain the early techniques used to identify what amino acids are specified by the triplets UUU, AAA, GGG, and CCC. | ||
| 11. | Explain why polypeptides begin with methionine when they are synthesized. | ||
| 12. | Explain what it means to say that the genetic code is redundant and unambiguous. | ||
| 13. | Explain the significance of the reading frame during translation. | ||
| 14. | Explain the evolutionary significance of a nearly universal genetic code. | ||
| The Synthesis and Processing of RNA | |||
| 15. | Explain how RNA polymerase recognizes where transcription should begin. Describe the promoter, the terminator, and the transcription unit. | ||
| 16. | Explain the general process of transcription, including the three major steps of initiation, elongation, and termination. | ||
| 17. | Explain how RNA is modified after transcription in eukaryotic cells. | ||
| 18. | Define and explain the role of ribozyme. | ||
| 19. | Describe the functional and evolutionary significance of introns. | ||
| The Synthesis of Protein | |||
| 20. | Describe the structure and functions of tRNA. | ||
| 21. | Explain the significance of wobble. | ||
| 22. | Explain how tRNA is joined to the appropriate amino acid. | ||
| 23. | Describe the structure and functions of ribosomes. | ||
| 24. | Describe the process of translation (including initiation, elongation, and termination) and explain which enzymes, protein factors, and energy sources are needed for each stage. | ||
| 25. | Describe the significance of polyribosomes. | ||
| 26. | Explain what determines the primary structure of a protein and describe how a polypeptide must be modified before it becomes fully functional. | ||
| 27. | Describe what determines whether a ribosome will be free in the cytosol or attached to the rough endoplasmic reticulum. | ||
| 28. | Describe two properties of RNA that allow it to perform so many different functions. | ||
| 29. | Compare protein synthesis in prokaryotes and in eukaryotes. | ||
| 30. | Define point mutations. Distinguish between base-pair substitutions and base-pair insertions. Give examples of each and note the significance of such changes. | ||
| 31. | Describe several examples of mutagens and explain how they cause mutations. | ||
| 32. | Describe the historical evolution of the concept of a gene. | ||
