G15SecL05Tpc3: Difference between revisions
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==Structure== | ==Structure== | ||
==Significance in Lyme Disease== | ==Significance in Lyme Disease and Bind Briefing== | ||
Lyme disease is | Lyme disease is a bacterial infectious disease of the skin, joints, nervous system and heart dominantly caused by the spirochete ''Borrelia burgdorferi'', transmitted to humans via the bite of the deer tick ''Ixodes scapularis'' (Becker, 2005). The importance of antibodies in controlling such spirochaetal infections was underscored by the discovery of two particular antibodies with distinctive bactericidal properties: the monoclonal antibodies CB2 and H6831 (Connoly, Benach). When directed against the C-terminus of the outer-surface protein Osp-B, these fragments are bactericidal even in the absence of complements or phagocytes (Sadziene, 1994). The formation of the OspB-CB2 and OspB-H6831 complexes were dependent upon a single lysine residue in Osp-B, Lys 253 (GREEN LINK THAT), for binding and thus leading to lysis of the outer membrane of the spirochete; the structural changes that result culminate into molecular instabiltiy and protease susceptibility that eventually lead to said lysis, though the exact physiological consequences of these changes are not yet fully sequenced nor understood (Connoly, Benach). | ||
==Osp-B and Antibody Binding Processes== | |||
==Osp-B and | |||
<scene name='G15SecL05Tpc3/Not_ours/1'>ExampleNotOurs</scene> | <scene name='G15SecL05Tpc3/Not_ours/1'>ExampleNotOurs</scene> | ||
Revision as of 21:02, 14 August 2012
Outer Surface Protein B (Osp-B) of the Borrelia burgdorferi Spirochete BacteriumOuter Surface Protein B (Osp-B) of the Borrelia burgdorferi Spirochete Bacterium
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IntroductionIntroduction
is a primary outer-surface lipoprotein molecule found in the Lyme disease spirochete Borrelia burgdorferi, a molecule essential for the survival of the bacterium. Since its primary function is to serve both as a site of antibody recognition and as the microvillar attachment to the Ixodes scapularis midgut, it is constitutively expressed.
StructureStructure
Significance in Lyme Disease and Bind BriefingSignificance in Lyme Disease and Bind Briefing
Lyme disease is a bacterial infectious disease of the skin, joints, nervous system and heart dominantly caused by the spirochete Borrelia burgdorferi, transmitted to humans via the bite of the deer tick Ixodes scapularis (Becker, 2005). The importance of antibodies in controlling such spirochaetal infections was underscored by the discovery of two particular antibodies with distinctive bactericidal properties: the monoclonal antibodies CB2 and H6831 (Connoly, Benach). When directed against the C-terminus of the outer-surface protein Osp-B, these fragments are bactericidal even in the absence of complements or phagocytes (Sadziene, 1994). The formation of the OspB-CB2 and OspB-H6831 complexes were dependent upon a single lysine residue in Osp-B, Lys 253 (GREEN LINK THAT), for binding and thus leading to lysis of the outer membrane of the spirochete; the structural changes that result culminate into molecular instabiltiy and protease susceptibility that eventually lead to said lysis, though the exact physiological consequences of these changes are not yet fully sequenced nor understood (Connoly, Benach).
Osp-B and Antibody Binding ProcessesOsp-B and Antibody Binding Processes
H6831H6831
Related StructuresRelated Structures
LinksLinks
- Lyme Disease CDC Lyme Disease Webpage
- Borrelia burgdorferi
- Ixodes Dammini
Notes and Literature ReferencesNotes and Literature References
- 1. Becker, M., Bunikis, J., Lade, B.D, Dunn, J.J., Barbour, A.G., Lawson, C.L. “Structural Investigation of Borrelia burgdorferi OspB, a BactericidalFab Target” The Journal of Biological Chemistry; Vol. 280, No.17, issue of April 29, pp. 17363- 17370, 2005
- 2. Connolly, S.E., Benach, J.L. “The Versatile Roles of Antibodies in Borrelia Infections” Nature Reviews: Microbiology, Volume 3, May 2005, pp. 411-420