Assess the impact of modern genetic technologies such as PCR, CRISPR-Cas9, and next-generation sequencing on research and medicine. Provide examples where these tools have directly advanced our understanding or treatment of disease

Compare and contrast the replication mechanisms of prokaryotic and eukaryotic DNA, highlighting the roles of key enzymes and structural differences that impact replication fidelity.

Discuss how transcriptomics and proteomics complement each other in studying cellular function. What limitations exist in each approach, and how can combining them provide a more complete picture of gene expression and regulation?

Discuss the similarities and differences between gene regulation in prokaryotes (e.g., operon models) and eukaryotes (e.g., epigenetic modifications). Provide examples of how these regulatory mechanisms respond to environmental or developmental signals

Evaluate how different types of mutations (point mutations, insertions/deletions, chromosomal rearrangements) affect gene expression and protein function. How do DNA repair systems minimize the impact of these mutations, and what happens when these systems fail?

Evaluate the applications of molecular genetics in medicine and biotechnology (e.g., gene therapy, GMOs, personalized medicine). Discuss the major ethical considerations that arise from these applications.

Explain how population genetics tools are used to analyze genetic variation. How can such analyses provide insights into human evolution, disease susceptibility, and the effectiveness of public health interventions?

Explain the molecular steps of transcription and translation, then analyze the importance of post-transcriptional regulation (e.g., RNA splicing, RNA interference) in controlling protein diversity and abundance.

Thesis Question (Choose 1 and elaborate in-depth)