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Fighting Malaria with Engineered Symbiotic Bacteria from Vector Mosquitoes. Group B05 Asia Hernandez Bridget Larsen Jiangyang Xu Zac Kannan. Introduction. Figure 1. Inside mosquito guts: Plasmodium Bacteria Genetic Modification of mosquito genome = too hard
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Fighting Malaria with Engineered Symbiotic Bacteria from Vector Mosquitoes Group B05 Asia Hernandez Bridget Larsen JiangyangXu ZacKannan
Introduction Figure 1. • Inside mosquito guts: • Plasmodium • Bacteria • Genetic Modification of mosquito genome = too hard • Plasmodium-killing gene into bacteria • BIG advantage: gut = most vulnerable part of Plasmodium’s life cycle Figure 2.
Results • Inhibitory capacity of recombinant strains on P. falciparum • mPLA2 85% • Por:EPIP 87% • Shival 94% • Scorpine and (EPIP)4 highest inhibition ~98% • Effect of mixing bacteria expressing two different effector proteins on P. falciparum • Shival + (EPIP)4 93% • Scorpine + (EPIP)4 96% • Inhibitory capacity of recombinant strains on P. berghei • (SMI)268% • Pbs + (EPIP)4 79% • Scorpine + (EPIP)4 83%
Results Recombinant P. agglomeransstrains do not affect mosquito longetivity No negative impact on mosquto fitness Figure 3.
Discussion • P. agglomerans has been reported as a dominant symbiotic bacterium in various mosquito species • A mosquitoes' midgut serves as a prime target for blocking parasite transmission • P. agglomerans was engineered to make several proteins turn the mosquitoes gut into a hostile zone for Plasmodium • The bacteria could be transferred to a village via baiting stations
Baiting Stations • Potential loading docks of the genetically modified bacteria to the mosquito • Contained cotton pads soaked with the bacteria suspended in a 5% sucrose solution • Mosquitoes fly over, sip the solution, then become loaded with the anti-Plasmodium defense • Simple and cheap • Pitfalls
Conclusion • Advantages of the method • No drugs used to terminate mosquitoes • Plasmodium in the midgut • Rapid proliferation after a blood meal • The challenges it will face • Less competitive than normal bacteria • Growing opposition in general of genetic modification • The work to prove, educate, and convince others
“Take Home…” • We have a discovered a foundation to combat malaria through the use of genetically modified symbiotic bacteria, but still face a challenge through population approval and regulatory issues.
Works Cited • Engineering Mosquito Gut Bacteria to Fight Malaria. Discover Magazine, 2012. Web. http://blogs.discovermagazine.com/notrocketscience/2012/07/16/engineering-mosquito-gut-bacteria-to-fight-malari/ > • Freeman et al. Biological Science. New Jersey: Pearson Education, 2007. Print. • Wang, Sibao et al 2012. “Fighting Malaria With Engineered Symbiotic Bacteria From Vector Mosquitoes.” PNAS July 31. Vol. (109) No. 31: 12734-12739. Web. Nov 2012. • Images • Figure 1: Engineering Mosquito Gut Bacteria to Fight Malaria. Discover Magazine, 2012. Web.http://blogs.discovermagazine.com/notrocketscience/2012/07/16/engineering-mosquito-gut-bacteria-to-fight-malari/> • Figure 2: Menard, Robert. The Plasmodium Life Cycle and Antimalarial Vaccination Strategies. Nature, Jan 13 2005. Web. Nov 2012. <http://www.nature.com/naturejournal/v433/n7022/fig> • Figure 3: Wang, Sibao et al. “Fighting Malaria With Engineered Symbiotic Bacteria From Vector Mosquitoes.” PNAS July 31 (2012) Vol. 109, No. 31: 12734-12739. Web. Nov 2012.