1. Describe the process of transcription in prokaryotes. 2. Explain the initiation of transcription at promoters. 3. Give the diagrammatic representation of the action of E. coli R... 1. Describe the process of transcription in prokaryotes. 2. Explain the initiation of transcription at promoters. 3. Give the diagrammatic representation of the action of E. coli RNA polymerase. 4. Explain the elongation and termination of RNA chain. 5. Elaborate the promoters and enhancers in prokaryotic transcription. 6. Explain the prokaryotic initiation of translation. 7. Discuss the nature of genetic codes. 8. Explain the arabinose operon model in E. coli. 9. Explain the lytic and lysogenic cycles for regulation of gene expression. 10. Explain the lac operon system of gene expression in bacteria. 11. Narrate the life cycle of temperate lambda phage. 12. Explain the trp operon system of gene expression in E. coli. 13. Explain the process of transcription of protein coding genes. 14. Describe the promoters and enhancers in eukaryotic transcription. 15. Describe the eukaryotic RNA polymerases along with their types. 16. Explain the assembly of the transcription initiation machinery with diagram. 17. Write a short note on eukaryotic mRNA. 18. Describe the process of synthesis of functional mRNA in prokaryotes and eukaryotes. 19. Describe the transcription of rRNA genes. 20. Explain the spliceosomes to process pre-mRNA to mature mRNA. 21. Explain the model of RNA splicing with steps and diagrammatic representation. 22. Narrate the elongation of polypeptide chain in prokaryotic translation. 23. Explain translocation and termination steps in translation. 24. Discuss the arabinose operon system of gene regulation in E. coli. 25. Narrate the life cycle of temperate lambda phage. 26. Compare the lytic and lysogenic cycles. 27. Explain the trp operon system of gene expression in bacteria. 28. Discuss the lytic cycle to regulate gene expression in viruses. 29. Explain the RNA editing process giving an example with diagram. 30. Explain the synthesis of RNA in bacterial transcription. 31. Describe the post transcriptional modification in detail. 32. Explain the process of termination in eukaryotic transcription. 33. Explain the initiation process of translation in bacteria. 34. Discuss the characteristics of genetic codes. 35. Prepare the table for coding and non coding codons. 36. Explain the wobble hypothesis with an example. 37. Explain the lac operon system of gene expression in E. coli. 38. Explain the trp operon system of gene expression in E. coli. 39. Discuss the lytic cycle to regulate gene expression in viruses. 40. Discuss the lysogenic cycle to regulate gene expression in viruses.
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The question is a list of topics related to molecular biology, specifically focusing on transcription, translation, and gene regulation in prokaryotes and eukaryotes. It requires detailed explanations and diagrams for various processes, such as transcription initiation, the action of RNA polymerases, and the operon systems in bacteria.
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The image lists questions from a molecular biology exam.
The image contains a list of questions from a molecular biology examination paper, covering topics like transcription, translation, operons, genetic codes, and viral life cycles.
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The image contains a list of questions from a molecular biology examination paper, covering topics like transcription, translation, operons, genetic codes, and viral life cycles.
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These questions are typical topics covered in advanced molecular biology courses, focusing on gene expression and regulation mechanisms in both prokaryotes and eukaryotes, and also exploring aspects of viral genetics.
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