Covers transforming plasmid DNA into bacteria and isolating DNA from bacterial colonies.
Explores bacterial adaptations, genetic diversity acquisition, conjugation mechanisms, and the success factors of prokaryotes in the biosphere.
Covers the purification of expressed proteins using methods like transformation, lysis, IMAC, and protein analysis.
Delves into protein synthesis, emphasizing recombinant expression and the production of proteins using plasmids and bacteria.
Explores protein expression systems, vector design, and solubility enhancement in E. coli and other common systems.
Explores mutations, genetic diversity, and horizontal gene transfer, emphasizing the impact of errors during replication and exposure to mutagens.
Explores the use of ApE for planning and analyzing cloning projects.
Delves into synthetic biology, assembling molecular components for biological functions in living cells, including gene expression control and engineered receptor signaling.
Covers the continuous evolution of T7 RNA polymerase variants to recognize different promoters.
Explores the three domains of life, metabolic processes, genetic diversity acquisition, and the human microbiome.
