1. Microbial Genetics & Biotechnology

2. Figure 10.CO: A corn field © Birgit Sommer/ShutterStock, Inc.

3. Figure 10.COinsert: Bacillus thuringiensis © Medical-on-Line/Alamy Images

4. Figure 10.1a: An electron micrograph of an E. coli cell immediately after disruption. The tangled mass is the organism’s DNA. © H. Potter-D. Dressler/Visuals Unlimited.

5. Figure 10.1b: The loops in the structure chromosome, viewed head-on

6. Figure 10.2: Replication of the E. coli chromosome

7. Figure 10.3: A TEM of bacterial plasmids. Courtesy of the CDC

8. Figure 10.4: How nitrous acid causes bacterial mutations

9. Figure 10.5A-B: Bacterial conjugation

10. Figure 10.5C: Bacterial conjugation

11. Figure 10.6: Conjugation in Hfr bacteria

12. Figure 10.7A-D: Generalized transduction

13. Figure 10.7E-H: Generalized transduction

14. Figure 10.8A-D: Specialized transduction

15. Figure 10.8E-J: Specialized transduction

16. Figure 10.9a: Bacterial transformation © National Library of Medicine

17. Figure 10.9b: Oswald Avery © National Library of Medicine

18. Figure 10.10a: A restriction enzyme cuts through two strands of a DNA molecule to produce two fragments.

19. Figure 10.10b: The recognition sites of several restriction enzymes

20. Figure 10.11A-B: Construction of a recombinant DNA molecule

21. Figure 10.11C-E: Construction of a recombinant DNA molecule

22. Figure 10.12A-C: Developing new products using genetic engineering

23. Figure 10.12D-G: Developing new products using genetic engineering