Borrelia burgdorferi and Lyme Disease Pathogenesis

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Section

Figure 1. A scanning electron micrograph of a cluster Borrelia burgdorferi bacteria. Micrograph taken by Claudia Molins at the CDC in 2011. [http://phil.cdc.gov/phil/details.asp?pid=13176}.
Figure 2. Diagram of spirochete showing the flagella and the flagellar motor in between the outer and inner membrane. [http://www.sciencedirect.com/science/article/pii/S1369527415001368
Figure 3. Diagram of B. burgendorferi life cycle and transmission from tick host to other organisms. [http://www.nature.com/nrmicro/journal/v10/n2/fig_tab/nrmicro2714_F1.html
Figure 4. Photo of erythema migrans rash following a tick bite. [http://www.cdc.gov/lyme/signs_symptoms/rashes.html
Figure 5. Results of experiments by Troxell et al. showing the expression level of the protein SodA when exposed to different metal compounds. [http://www.jbc.org/content/287/23/19284.long
Figure 6. Results showing the expression of Scalp15 in uninfected and infected ticks. [http://www.nature.com/nature/journal/v436/n7050/fig_tab/nature03812_F1.html
Figure 7. The observed interactions between B. burgendorferi and the vasculature in mice. [http://journals.plos.org/plospathogens/article?id=10.1371%2Fjournal.ppat.1000090


Research Question: Why is the bacterium so good at evading the host's immune response? [1]

Section 1

Section 2

Section 3

Section 4

Conclusion

References

  1. [1]=Troxell, Bryan, Haijun Xu, and Frank Yang. "Borrelia Burgdorferi, a Pathogen That Lacks Iron, Encodes a Manganese-dependent Superoxide Dismutase Essential for Resistance to Streptonigrin." Borrelia Burgdorferi, a Pathogen That Lacks Iron, Encodes a Manganese-dependent Superoxide Dismutase Essential for Resistance to Streptonigrin. Journal of Biological Chemistry, 12 Apr. 2012. Web. 17 Apr. 2016.



Authored for BIOL 238 Microbiology, taught by Joan Slonczewski, 2016, Kenyon College.