Foundations in Microbiology - Talaro Chapter 5 - PDF
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Guimaras State University
Kathleen Park Talaro
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This document is a lecture PowerPoint presentation on Eucaryotic Cells and Microorganisms, a chapter from the textbook "Foundations in Microbiology". The presentation contains the history of eucaryotes, including their evolution from procaryotic organisms and the origin of organelles. It also looks at various structures within the cell, such as External Structures (flagella, cilia, glycocalyx, cell wall), and Internal Structures (nucleus, endoplasmic reticulum, and others).
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Lecture PowerPoint to accompany Foundations in Microbiology Sixth Edition Talaro Chapter 5 Eucaryotic Cells and Microorganisms Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The History of Eucary...
Lecture PowerPoint to accompany Foundations in Microbiology Sixth Edition Talaro Chapter 5 Eucaryotic Cells and Microorganisms Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The History of Eucaryotes They first appeared approximately 2 billion years ago. Evidence suggests evolution from procaryotic organisms by symbiosis. Organelles originated from procaryotic cells trapped inside them. 2 3 4 5 External Structures Locomotor appendages – flagella long, sheathed cylinder containing microtubules in a 9+2 arrangement covered by an extension of the cell membrane 10X thicker than procaryotic flagella function in motility – cilia similar in overall structure to flagella, but shorter and more numerous found only on a single group of protozoa and certain animal cells function in motility, feeding and filtering 6 7 8 External Structures Glycocalyx – an outermost boundary that comes into direct contact with environment – usually composed of polysaccharides – appears as a network of fibers, a slime layer or a capsule – functions in adherence, protection, and signal reception – beneath the glycocalyx Fungi and most algae have a thick, rigid cell wall. Protozoa, a few algae, and all animal cells lack a cell wall and have only a membrane. 9 External Boundary Structures Cell wall – rigid, provides structural support and shape – Fungi have thick inner layer of polysaccharide fibers composed of chitin or cellulose and a thin layer of mixed glycans. – algae – varies in chemical composition; substances commonly found include cellulose, pectin, mannans, silicon dioxide, and calcium carbonate 10 External Boundary Structures Cytoplasmic (cell) membrane – typical bilayer of phospholipids and proteins – sterols confer stability – serves as selectively permeable barrier in transport – Eucaryotic cells also contain membrane-bound organelles that account for 60-80% of their volume. 11 Internal Structures Nucleus – compact sphere, most prominent organelle of eucaryotic cell – nuclear envelope composed of two parallel membranes separated by a narrow space and is perforated with pores – contains chromosomes – nucleolus – dark area for rRNA synthesis and ribosome assembly 12 13 Internal Structures Endoplasmic reticulum – two types: – Rough endoplasmic reticulum (RER)– originates from the outer membrane of the nuclear envelop and extends in a continuous network through cytoplasm; rough due to ribosomes; proteins synthesized and shunted into the ER for packaging and transport; first step in secretory pathway – Smooth endoplasmic reticulum (SER)– closed tubular network without ribosomes; functions in nutrient processing, synthesis and storage of lipids, etc. 14 15 Internal Structures Golgi apparatus – consists of a stack of flattened sacs called cisternae – closely associated with ER – Transitional vesicles from the ER containing proteins go to the Golgi apparatus for modification and maturation. – Condensing vesicles transport proteins to organelles or secretory proteins to the outside. 16 17 Internal Structures Lysosomes – vesicles containing enzymes that originate from Golgi apparatus – involved in intracellular digestion of food particles and in protection against invading microbes 18 19 Internal Structures Mitochondria – consists of an outer membrane and an inner membrane with folds called cristae – Cristae hold the enzymes and electron carriers of aerobic respiration. – divide independently of cell – contain DNA and procaryotic ribosomes – function in energy production 20 21 Internal Structures Chloroplast – found in algae and plant cells – outer membrane covers inner membrane folded into sacs, thylakoids, stacked into grana – larger than mitochondria – contain photosynthetic pigments – convert the energy of sunlight into chemical energy through photosynthesis – primary producers of organic nutrients for other organisms 22 23 Internal Structures Ribosomes – composed of rRNA and proteins – 40S and 60S subunits form 80S ribosomes – larger than procaryotic ribosomes – function in protein synthesis 24 Internal Structures Cytoskeleton – flexible framework of proteins, microfilaments and microtubules form network throughout cytoplasm – involved in movement of cytoplasm, amoeboid movement, transport, and structural support 25 26 Survey of Eucaryotic Microbes Fungi Algae Protozoa Parasitic worms 27 Kingdom Fungi 100,000 species divided into 2 groups: – macroscopic fungi (mushrooms, puffballs, gill fungi) – microscopic fungi (molds, yeasts) Majority are unicellular or colonial; a few have cellular specialization 28 Microscopic Fungi Exist in two morphologies: – yeast – round ovoid shape, asexual reproduction – hyphae – long filamentous fungi or molds Some exist in either form – dimorphic – characteristic of some pathogenic molds 29 30 31 Fungal Nutrition All are heterotrophic Majority are harmless saprobes living off dead plants and animals Some are parasites, living on the tissues of other organisms, but none are obligate; mycoses – fungal infections Growth temperature 20o-40oC Extremely widespread distribution in many habitats 32 Fungal Organization Most grow in loose associations or colonies Yeast – soft, uniform texture and appearance Filamentous fungi – mass of hyphae called mycelium; cottony, hairy, or velvety texture – hyphae may be divided by cross walls – septate – vegetative hyphae – digest and absorb nutrients – reproductive hyphae – produce spores for reproduction 33 34 Fungal Reproduction Primarily through spores formed on reproductive hyphae Asexual reproduction – spores are formed through budding or mitosis; conidia or sporangiospores 35 36 Fungal Reproduction Sexual reproduction – spores are formed following fusion of male and female strains and formation of sexual structure Sexual spores and spore-forming structures are one basis for classification. 37 38 39 40 Fungal Classification Subkingdom Amastigomycota – terrestrial inhabitants including those of medical importance: 1. Zygomycota – zygospores; sporangiospores and some conidia 2. Ascomycota – ascospores; conidia 3. Basidiomycota – basidiospores; conidia 4. Deuteromycota – majority are yeasts and molds; no sexual spores known; conidia 41 Fungal Identification Isolation on specific media Macroscopic and microscopic observation of: – asexual spore-forming structures and spores – hyphal type – colony texture and pigmentation – physiological characteristics – genetic makeup 42 Roles of Fungi Adverse impact – mycoses, allergies, toxin production – destruction of crops and food storages Beneficial impact – decomposers of dead plants and animals – sources of antibiotics, alcohol, organic acids, vitamins – used in making foods and in genetic studies 43 Kingdom Protista Algae Protozoa 44 Algae Photosynthetic organisms Kelps, seaweeds, euglenids, green algae, diatoms, dinoflagellates, brown algae, and red seaweeds Microscopic forms are unicellular, colonial, filamentous. Macroscopic forms are colonial and multicellular. Contain chloroplasts with chlorophyll and other pigments Cell wall May or may not have flagella 45 Algae Most are free-living in fresh and marine water – plankton. Provide basis of food web in most aquatic habitats Produce large proportion of atmospheric O2 Dinoflagellates can cause red tides and give off toxins that cause food poisoning with neurological symptoms. Classified according to types of pigments and cell wall Used for cosmetics, food, and medical products 46 47 Protozoa 65,000 species Vary in shape, lack a cell wall Most are unicellular; colonies are rare Most are harmless, free-living in a moist habitat Some are animal parasites and can be spread by insect vectors. All are heterotrophic. Feed by engulfing other microbes and organic matter 48 Protozoa Most have locomotor structures – flagella, cilia, or pseudopods. Exist as trophozoite - motile feeding stage Many can enter into a dormant resting stage when conditions are unfavorable for growth and feeding – cyst. All reproduce asexually, mitosis or multiple fission; many also reproduce sexually – conjugation. 49 50 Protozoan Identification Classification is difficult because of diversity. Simple grouping is based on method of motility, reproduction, and life cycle. 1. Mastigophora – primarily flagellar motility, some flagellar and amoeboid; sexual reproduction; cyst and trophozoite 2. Sarcodina – primarily ameba; asexual by fission; most are free-living 3. Ciliophora – cilia; trophozoites and cysts; most are free- living, harmless 4. Apicomplexa – motility is absent except male gametes; sexual and asexual reproduction; complex life cycle – all parasitic 51 52 53 54 55 Important Protozoan Pathogens Pathogenic flagellates – Trypanosomes – Trypanosoma T. brucei – African sleeping sickness T. cruzi – Chaga’s disease; South America Infective amebas – Entameba histolytica – amebic dysentery; worldwide 56 57 58 Parasitic Helminths Multicellular animals, organs for reproduction, digestion, movement, protection Parasitize host tissues Have mouthparts for attachment to or digestion of host tissues Most have well-developed sex organs that produce eggs and sperm. Fertilized eggs go through larval period in or out of host body. 59 Major Groups of Parasitic Helminths 1. Flatworms – flat, no definite body cavity; digestive tract a blind pouch; simple excretory and nervous systems cestodes (tapeworms) Trematodes or flukes, are flattened , nonsegmented worms with sucking mouthparts. 2. Roundworms (nematodes)- round, a complete digestive tract, a protective surface cuticle, spines and hooks on mouth; excretory and nervous systems poorly developed 60 Helminths 50 species parasitize humans. Acquired though ingestion of larvae or eggs in food; from soil or water; some are carried by insect vectors Afflict billions of humans 61 62 63 Helminth Classification and Identification Classify according to shape, size, organ development, presence of hooks, suckers, or other special structures, mode of reproduction, hosts, and appearance of eggs and larvae Identify by microscopic detection of adult worm, larvae, or eggs 64 Distribution and Importance of Parasitic Worms Approximately 50 species parasitize humans. Distributed worldwide; some restricted to certain geographic regions with higher incidence in tropics 65