Animation - The molecular processes involves in the translation of a mRNA into an amino acid sequence. This is a combination of parts A and B of Fig 1.32
Animation - The practical details of performing a western blot to detect specific proteins using antibodies. Fig. 2.23
Animation - The use of plasmids bearing the lacZ' sequence a a mechanism for screening in E. coli. Fig. 3.6
Animation - The amplification of a specific DNA fragment using PCR. Fig. 4.1
Animation - Using PCR-based cDNA libraries to isolate genes that are expressed under one particular set of conditions, and not another. Fig. 5.8
Animation - The processes involved in the reconstitution of a functional transcriptional activator through protein-protein interactions. Fig. 6.8
Animation - Mutatgenesis using two oligonucleotide primers, and selecting for mutants on the basis that the parental DNA (but not the newly synthesised mutant DNA) is methylated and will therefore be digested with certain restriction enzymes. Fig. 7.9
Animation - The T7 RNA polymerase expression system for the production of large quantities of protein in E. coli cells. Fig. 8.4
Animation - The differences between whole genome shotgun sequencing and hierarchical genome shotgun sequencing. Fig. 9.11
Animation - Proposed mechanisms for the mechanism of gene silencing (knock-down) using anti-sense RNA or siRNA. Fig. 10.8
Animation - The relationship between plant and bacteria using the formation of a Crown Gall. Fig. 11.2
Animation - Retroviral infection and replication. Fig. 12.6
Animation - The production of cloned sheep using nuclear transfer. Fig. 13.6
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