Structure of mycobacterium leprae
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M leprae -its structure and bichemistry
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Structure of mycobacterium leprae
- 2. • Discovered by Gerhard Armauer Hansen in 1873 , Norwegian physician. • First bacterium- causing disease in humans.
- 3. • Hansen - born in Bergen and got his degree in university of Oslo. • With Daniel Cornelius Danielssen, he did the study of leprosy. • In 1879 he gave tissue samples to Albert Neisser who stained the bacteria & announced his findings in 1880. • Hansen as discoverer of the bacillus and Neisser as identifier of it as the etiological agent. • Neisser put in some effort to downplay the assistance of Hansen. • Hansen’s distinguished work was recognized at the International Leprosy Congress held at Bergen in 1909. • Hansen had suffered from syphilis since the 1860s but died of heart disease
- 4. • Cultured -Mouse foot pads of nine-banded armadillos.(Dasypus novemcinctus)
- 6. CHARACTERISTICS • Family- Mycobacteriaceae. • Schizomycete ; order- Actinomycetales • Intracellular parasite – macrophages. • Gross Morphology- straight / curved slender Capsulated Non-motile
- 7. Non sporing Acid fast Rod – 1 to 8u in length 0.2 to 0.5u in width Appear fragmented or beaded • Cells stain homogeneously;(altered and dead) • Divides by binary fission
- 9. • Non cultivable; cultured only on footpad of Nine Banded Armadillos. • Possesses enzyme phenol oxidase. • Bound together like cigar bundles by lipid like substances – Glia. • Only Mycobacterium – infecting peripheral nerves.
- 10. • Resistence- 9 -16 days in warm humid climate. 46 days in moist soil. 2 hours in sunlight 30 minutes in UV rays
- 11. ULTRASTRUCTURE • Components- 1. Capsule 2. Cell wall 3. Cell membrane 4. Cytoplasm
- 12. CAPSULE • Electron transparent zone of foamy or vesicular material • 2 capsular lipids- (a) phthicerol demycocerosate. (b)phenolic glycolipid-1 • Protects bacteria- lysosomal enzymes & metabolites. • Present in Urine and serum, helps in early diagnosis.
- 13. CELL WALL • Outer and inner layer • 20nm thick • Consists of cross linked peptidoglycan attached to arabinogalactan polymer. • Outer layer- Lipopolysaccharides & lipopolysaccharides- protein complexes Electron lucent
- 15. • Inner layer- Peptidoglycan Electron dense • Cell wall proteins form a major target of T cell immunogenicity. • Mediates the uptake of nutrients into mycobacterium. • Last structure to disappear with chemotheraphy.
- 16. CELL MEMBRANE • Responsible for transport of molecules inside and out of the organism • Composed of lipids & proteins • LIPIDS- phospholipids • PROTEINS- MMP-I & MMP II
- 17. CYTOPLASM • Consist of storage granules, DNA, RNA. • Concerned with translation and multiplication • Gel electrophoresis separates these 3 major proteins
- 19. CLINICAL APPILICATION • PCR technique for DNA amplification – high degree sensitivity • PCR – sensitive method for detecting small number of M.leprae. • Reverse transcriptase-PCR tecnique useful to detect live and dead bacteria
- 20. SUMMARY • Mycobacteiaceae. • Straight/ slightly curved slender, capsulated, non motile ,non sporing, acid fast. • Binary fission. • Cultured- footpad – nine banded armadillos. • Glia. • Infect peripheral nerves.
- 21. • Capsule- electron transparent 2 capsular lipids- (PDIM & PGL -1) • Cell wall- 2 layers. • Cell membrane-responsible for molecules into and out membrane. • Cytoplasm- Contains DNA, RNA, storage granules.
- 22. THANK YOU