Figure 15.5 Replicative transposition creates a 5. 4 Transposition occurs by copy of the transposon, which inserts at a both replicative and recipient site. The donor site remains nonreplicative mechanisms unchanged, so both donor and recipient have a copy of the transposon Donor Recipient 请莘大
Figure 15.5 Replicative transposition creates a copy of the transposon, which inserts at a recipient site. The donor site remains unchanged, so both donor and recipient have a copy of the transposon. 15.4 Transposition occurs by both replicative and nonreplicative mechanisms
Figure 15.6 Nonreplicative transposition 5. 4 Transposition occurs by allows a transposon to move as a physical both replicative and entity from a donor to a recipient site. This nonreplicative mechanisms leaves a break at the donor site, which is lethal unless it can be repaired Donor Recipient n 请莘大
Figure 15.6 Nonreplicative transposition allows a transposon to move as a physical entity from a donor to a recipient site. This leaves a break at the donor site, which is lethal unless it can be repaired. 15.4 Transposition occurs by both replicative and nonreplicative mechanisms
5.4 Transposition occurs by Figure 15.7 Conservative transposition both replicative and involves direct movement with no loss of nonreplicative mechanisms nucleotide bonds; compare with lambda integration and excision Donor Recipient ■口 uuu 请莘大
Figure 15.7 Conservative transposition involves direct movement with no loss of nucleotide bonds; compare with lambda integration and excision. 15.4 Transposition occurs by both replicative and nonreplicative mechanisms
15.5 Transposons cause rearrangement of dna Deletions are generated by removal of a sequence of dNa, the regions on either side being joined together 消当
Deletions are generated by removal of a sequence of DNA, the regions on either side being joined together. 15.5 Transposons cause rearrangement of DNA
Direct repeats 15.5 Transposons cause rearrangement of dna Figure 15.8 Reciprocal Paining of direct recombination repeats between direct repeats excises the material between them each product of recombination has one Recom bination copy of the direct releases material between repeats as repeat circular molecule 请莘大
Figure 15.8 Reciprocal recombination between direct repeats excises the material between them; each product of recombination has one copy of the direct repeat. 15.5 Transposons cause rearrangement of DNA