Chapter 5 - Eukaryotic microorganisms

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Chapter 5 - Eukaryotic microorganisms Some things to think about as we discuss the difference between prokaryotic and eukaryotic organisms Relate importance of differences between prokaryotic pathogens and eukaryotic victims and similarities of eukaryotic pathogens and victims relative to treatment of disease Note the organelles and their function Endosymbiotic Hypothesis Table 5.1 Explains the origin of eukaryotic organelles Eukaryotic cells arose from engulfing smaller prokaryotic (bacteria) cells Symbiosis so perfect that relationship ended up into s single functioning cell Eukaryotes External and internal structures are more complex than prokaryotes Examples of eukaryotes Yeast Protozoa Algae Helminths Animal cells 1

External Structures Appendages Flagella Cilia Glycocalyx Cell wall Cell membrane A flagellum enables locomotion, and is composed of microtubules, arranged in a 9 + 2 fashion - Paramecium have cilia, which are similar to flagella but are smaller and more numerous - Similar 9+2 arrangement Glycocalyx Similar to prokaryotes Composed of polysaccharides Slime layer or capsule Role: protection, adherance to surfaces, reception of signals from other cells and the environment Cell Wall Present in some fungi and algae Made of cellulose or chitin 2

Nucleus Internal Structures Endoplasmic reticulum Golgi apparatus Mitochondria Chloroplast (photosynthetic cells only) Ribosomes Cytoskeleton Nucleus Membrane bound organelle Chromatin- chromosomal DNA Nucleolus- site for RNA synthesis Histones-proteins that associate with DNA during mitosis An electron micrograph section of the nucleus showing its contents Mitochondria Site of energy generation Cristae-folds of the inner membrane Matrix-consist of ribosomes, DNA, and enzymes Note the similarity to a single bacterial cell! Eukaryotic mitochondria contain prokaryotic ribosomal material The structure of the mitochondria and its contents Endoplasmic Reticulum Two kinds, Rough (RER) and Smooth (SER) RER due to presence of ribosomes Protein synthesis SER Synthesis of lipids RIBOSOMES - 60S and 40S subunits = 100S ribosome GOLGI APPARATUS Modification and packaging of molecules 3

Chloroplast Site of photosynthesis Thylakoids- folded membrane containing the green pigment chlorophyll Stroma- surrounds the thylakoids Eucaryotic cell division involves mitosis, in which the cell and nucleus undergo several stages of change. Chloroplasts transform solar energy to chemical energy, which is then used to synthesize carbohydrates - Lysosomes contain enzymes for digestion of food particles. - Originate from Golgi Cytoskeleton Anchor organelles Cellular structural support Enable cell shape changes Two types Microfilaments Microtubules 4

Microfilaments allow movement of molecules in the cytoplasm, and microtubules maintain shape of the cell and enable movement of molecules within the cell. Eukaryotic Pathogens Fig. 5.14 A model of the cytoskeleton Fungi Present in nature (ex. mushrooms) Medically important (ex. athlete s foot) Industrially important (ex. fermentation) Fungi can cause disease in plants - Dutch elm disease in elm trees - or humans - aspergillosis, candidiasis, histoplasmosis, coccidiomycosis Fungi produce antimicrobics - penicillin Fungi are facultative parasites - never obligate! The scourge of a Montana State Mad Scientist!!!! Fungi A scanning electron micrograph of yeast cells, and the budding reproductive process Classification Morphology - dimorphism yeast or hyphal Reproduction (asexual and sexual) Budding is most straightforward example of fungal reproduction Beaver Street Yeast - Yeah!!! 5

Morphology and Reproduction Hyphae cell Septate Nonseptate Yeast cells Single cells Pseudohypha Reproduction Asexual and sexual process - mostly dealing with spores Mushrooms undergo sexual spore formation A scanning electron micrograph of the hyphae cells Fungi are capable of causing superficial and systemic infection Fungal infection caused by a soil microorganism 6

Tinea cruris ringworm infection; a fungal infection Blastomycosis lesions Candidiasis Algae Photosynthetic Inhabitants of fresh and marine waters Most are not considered human pathogens Pathogens produce toxins (ex. red tide) -- Pfiesteria Unique morphology enables identification Medically important protozoa Amoeboid protozoa Brain infections - Flagellated protozoa Giardiasis Apicomplexan protozoa Malaria 7

Protozoa- the classical idea of a parasite Complex structure and function - Pseudopods, flagella, cilia Inhabitants of fresh water and soil Reproduction (asexual) Trophozoite Encystment Fig. 5.27 1 2 Trichomonas vaginalis - a human sexually transmitted disease Medically important protozoa Flagellated protozoa Giardiasis Trypanosomes Apicomplexan protozoa Malaria Life cycle of Trypanosoma cruzi causative agent of Chagas disease - The causative agent of malaria is an animallike protist and is a member of the apicomplexans. - The causative agent is any of several species of Plasmodium. When a female Anopheles mosquito bites a human it transmits sporozoites from its salivary glands into the blood of the human. - The sporozoites go to the liver and develop into merozoites which are shed into the blood. 8

- Merozoites enter red blood cells and become trophozoites which feed and form new merozoites. Lifecycle of Plasmodium causative agent of malaria - When the merozoites are released by the red cells, fever (>40 o C) ensues with chills and sweating. After several asexual reproductive cycles, gametocytes are formed, transferred to the blood and ingested by mosquitoes. - The gametocytes form a zygote in the mosquito and develop into oocysts which in turn produce more sporozoites and the cycle begins again. Helminths fancy word for WORMS! Fluke Tapeworm Roundworms Tapeworms Flukes Roundworms Helminths are multicellular animals with organ-like systems A variety of tapeworms can infect humans - from beef, pork, dogs and fish - Taenia saginata - beef tapeworm Parasitic flatworms 9

Flukes -The most important genus of flukes that cause disease in humans are the Schistosomes - Their larvae can actively PENETRATE human skin - All Schistosomes require a snail host for reproduction AND for subsequent infection Schistosoma japonicum the Japanese Liver Fluke Roundworms -The pinworm life cycle in the human host In this scenario worms can mate inside your intestines and cause autoinoculation or autoinfection Some of the roundworms are transmitted by mosquitoes and enter the body as larvae with the bite of a mosquito - e.g. W. bancrofti causes elephantiasis. 10

Athropods Artropods can serve as vectors in addition to being parasites - e.g. lice, ticks, mosquitoes etc. 11

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