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Morphology & Cell Biology of Bacteria (Part II). Siti Sarah Jumali (ext 2123) Room 3/14 sarah_jumali84@hotmail.com. Bacterial cell Inclusion Bodies. Definition: A collective variety of small bodies within bacterial cytoplasm. Some are called vesicles, some are called vacuoles
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Morphology & Cell Biology of Bacteria (Part II) Siti Sarah Jumali (ext 2123) Room 3/14 sarah_jumali84@hotmail.com
Bacterial cell Inclusion Bodies • Definition: A collective variety of small bodies within bacterial cytoplasm. • Some are called vesicles, some are called vacuoles • Act as reserve deposits/storage • Cells may accumulate nutrients and use them whenever in impermissible condition
May consists of • Polyhydroxybutyrate • Polyphosphate • Glycogen • Sulphur
2 types • Granules- not bounded by membrane, substance densely compacted and hard to dissolve in cytoplasm (glycogen or polyphosphate) • Vesicles- bounded by specialize membrane, mostly consist of gas, carbon, carbohydrate, iron, poly-B-hydroxybutyrate (lipid)
Granule • Densely compacted substances without a membrane • Each granule contains specific substances: • Glycogen (glucose polymer) • Polyphosphate (phosphate polymer, supplies energy to metabolic processes) • Sulphur bacteria contains reserve granules of sulphur • Polyphosphate granules- called volutin or metachromic granules exhibit metachromasia (metachromic granules exhibit different intensities of color). These granules are depleted in starvation
Cytoplasmic bridge vacuole Cleavage furrow
Vesicles • Certain bacteria have specialized membrane enclosed structure called vesicles or vacuoles. • Some aquatic photosynthetic bacteria and cyanobacteria have rigid gas-filled vacuoles and it helps in floating at certain level • Some magnetotactic bacterium e.g. Aquaspirillummagnetotacticumstores magnetite (Ferric oxide). The presence of such magnetic inclusions enables these bacteria to respond to magnetic fields.
The bacterial endospore • Microscopic, highly resistant, non-motile, non-reproductive structure produced by few types of bacteria as a result of tough environmental conditions to ensure survival because it allows the bacteria to remain dormant for extended amount of time • Two most common types- Bacillus and Clostridium • Helps to survive in impermissible condition • Highly resistant to heat, drying, acids, bases, desiccation, certain disinfectants and radiation
Component of Endospores • The heat resistance is due to -Calcium-dipicolinate: abundant within the endospore, may stabilize and protect the endospore’s DNA • Specialized DNA-binding proteins saturate the endospore’s DNA and protect it from heat, drying, chemicals and radiation. • The cortex may osmotically remove water from the interior of the endospore and the dehydration caused is thought to be very important in the endospore’s resistance to heat and radiation. • DNA repair enzymes contained within the endospore are able to repair damage during germination • The chemical resistance of endospores is due to impermeability of the sporecoat towards the chemical substance
Formation of Endospores • Sporulation (sporogenesis) • A process of endospore formation • The endospore can survive possibly thousands of years until a variety of environmental stimuli trigger germination, allowing outgrowth of a single vegetative bacterium.
Sporulation Process • 1- Vegetative bacterium about to enter the endospore cycle • 2- A spore septum forms as the cytoplasmic membrane invaginates • 3- Each nucleiod becomes surrounded by its own cytoplasmic membrane
Sporulation Process cont’d • 4- Cytoplasmic membrane surrounds the isolated nucleiod, cytoplasm and membrane from the previous step, forming a forespore • 5- Forespore is completed and other DNA molecule is eventually degraded • 6- A thick peptidoglycan (cortex) is synthesized between the inner and outer forespore membranes. Calcium dipicolinate is synthesized and incorporated in the forming endospore.
Sporulation Process cont’d • 7- A second impermeable proteinaceous protective layer called the spore coat is then synthesized • 8- As the vegetative portion of the bacterium is degraded, the completed endospore is released • 9- Sometimes, a final layer called the exosporium may be added
Germination Process • A process of endospore returning to their vegetative state • With the proper environmental stimuli. The endospore germinates. As the protective layers of the endospore are enzymatically broken down, a vegetative bacterium begins to form and emerge
Endospore and Infectious Disease • Anthrax is caused by Bacillus anthracis; • Tetanus is caused by Clostridium tetani; • Botulism is caused by Clostridium botulinum; • Gas gangrene is caused by Clostridium perfringens; • Clostridium difficilecauses the most serious cause of antibiotic-associated diarrhea (AAD) and can lead to pseudomembranous colitis, a severe infection of the colon.
Notice anything? What are the 2 common bacteria that are associated with endospores?
Prokaryotes vs Eukaryotes Features of Eukaryotes Features of Prokaryotes Pro = “before”, karyon = “nucleus” Prokaryotes, the first living organisms to evolve, they lack a membrane-bound nucleus. The only membrane in prokaryotic cells is the plasma membrane--the outer boundary of the cell itself. Their genetic material is naked within the cytoplasm, ribosomes the only type of organelle. Prokaryotes are most always single-celled, except when they exist in colonies. • Eu = “true”, karyon = “nucleus” • Presence of a nucleus, a double membrane-bound control center separating DNA from the rest of the cell. • In addition to the plasma membrane, eukaryotic cells contain internal membrane-bound structures called organelles such as mitochondria and chloroplasts • Eukaryotic cells can reproduce in one of several ways, including meiosis (sexual reproduction) and mitosis (cell division producing identical daughter cells).
Announcement • Your first test will be next week, during tutorial • Bring 2B along • There will be super easy multiple choice questions and few subjective questions.