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Characterizing and Classifying Eukaryotes

Eukaryotes. Four major groupsProtozoaFungiAlgaeWater molds and slime moldsInclude both human pathogens and organisms vital for human life. Reproduction in Eukaryotes. More complicated than that in prokaryotesEukaryotic DNA packaged as chromosomes in the nucleusHave variety of methods of asex

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Characterizing and Classifying Eukaryotes

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    1. Chapter 12 Characterizing and Classifying Eukaryotes

    2. Eukaryotes Four major groups Protozoa Fungi Algae Water molds and slime molds Include both human pathogens and organisms vital for human life

    3. Reproduction in Eukaryotes More complicated than that in prokaryotes Eukaryotic DNA packaged as chromosomes in the nucleus Have variety of methods of asexual reproduction (budding, fragmentation, spore formation, and schizogony) Many reproduce sexually by forming gametes and zygotes Algae, fungi, and some protozoa reproduce sexually and asexually

    4. Classification of Eukaryotic Organisms

    5. Protozoa Diverse group defined by three characteristics Eukaryotic Unicellular Lack a cell wall With exception of the group apicomplexans, they are motile by means of cilia, flagella, and/or pseudopodia

    6. Distribution of Protozoa Require moist environments Most live worldwide in ponds, streams, lakes, and oceans; critical members of plankton Others live in moist soil, beach sand, and decaying organic matter Very few are pathogens

    7. Morphology of Protozoa Characterized by great morphologic diversity Some have two nuclei Macronucleus contains many copies of genome – controls metabolism, growth, and sexual reproduction Micronucleus – involved in genetic recombination, sexual reproduction, and regeneration of macronuclei Variety in number and kinds of mitochondria All produce trophozoites; some produce cysts

    8. Life Cycle of Parasitic Protozoans consists of two stages: trophozoite (motile feeding stage) and cyst (resting stage) under certain adverse conditions, some trophozoites produce a protective cyst. this cyst enables parasitic species to survive outside of a host

    9. Nutrition of Protozoa Most are chemoheterotrophic Obtain nutrients by phagocytizing bacteria, decaying organic matter, other protozoa, or the tissues of host Few absorb nutrients from surrounding water Dinoflagellates and euglenoids are photoautrophic

    10. Reproduction in Protozoa Most reproduce asexually only (binary fission or schizogony) Few also have sexual reproduction Some become gametocytes that fuse with one another to form diploid zygote Some utilize a process called conjugation

    11. Characteristics of Protozoa

    12. Classification Protozoans are often classified into four groups based on mode of locomotion: Sarcodina (pseudopodia) Mastigophora (flagella) Ciliophora (cilia) Sporozoa (non-motile)

    13. Sarcodina Move and feed by pseudopodia using amoeboid motion

    14. Entamoeba histolytica lobe-shaped pseudopodia no shell some are disease causing Ex. Entamoeba histolytica live inside animals cause of amebic dysentary through the lysis of human intestinal cells infection occurs through ingestion of drinking water with contaminated feces, hands, food, or oral-anal intercourse Annual mortality of 100,000

    15. Classification Protozoans are often classified into four groups based on mode of locomotion: Sarcodina (pseudopodia) Mastigophora (flagella) Ciliophora (cilia) Sporozoa (non-motile)

    16. Mastigophora move by flagella

    17. Giardia intestinalis Diarrhea-causing pathogen (giardiasis) Spread in the cyst form in fecal contaminated water, food, soil.

    18. Trichomonas vaginalis Most common protozoan disease (trichomoniasis) Transmitted via sex Occurs most frequently in people with a preexisting STD

    19. Trypanosoma Hemoflaggellates: blood parasite Ex. Trypanosome: causative agent of African Sleeping sickness Transmitted by the tse-tse fly

    21. Dinoflagellates Unicellular Photoautotrophs also considered protozoans Freshwater and marine plankton Two flagella of unequal length

    22. Red Tide Some dinoflagellates produce red pigment An abundance of these organisms produces “red tide” Red tide blooms produce neurotoxins that are toxic to marine life

    23. Red Tide

    24. Dinoflagellate Poisons people who handle infected fish or inhalation of microbes

    25. BAD DINOFLAGELLATES: PARALYTIC SHELLFISH POISONING Red Tide strikes again DEP shuts down shellfish harvesting in waters of Bay and Gulf counties News Herald Staff Report State environmental officials closed Bay County and Gulf County waters to shellfish harvesting Thursday after detecting unacceptable levels of red tide. Water samples taken from Mexico Beach showed medium levels of red tide - about 933,000 cells per liter. DEP shuts down shellfish harvesting when levels reach 5,000 cells per liter.

    26. BAD DINOFLAGELLATES: PARALYTIC SHELLFISH POISONING

    27. Classification Protozoans are often classified into four groups based on mode of locomotion: Sarcodina (pseudopodia) Mastigophora (flagella) Ciliophora (cilia) Sporozoa (non-motile)

    28. Balantidium coli human parasite that causes a rare type of severe dysentery (Balantidiasis) ingested as cysts, they enter the intestine and trophozoites are released the trophozoites destroy host cells and feeds on the host cell fragments

    29. Classification Protozoans are often classified into four groups based on mode of locomotion: Sarcodina (pseudopodia) Mastigophora (flagella) Ciliophora (cilia) Sporozoa (non-motile)

    30. Sporozoans (Apicomplexans) Animal pathogens Adults are non-motile Ex. Plasmodium (Genus) – causative agent of malaria

    31. Eukaryotes Four major groups Protozoa Fungi Algae Water molds and slime molds Include both human pathogens and organisms vital for human life

    32. Fungi Chemoheterotrophic Decompose dead organisms and recycle their nutrients Have cell walls typically composed of chitin Related to animals Important research tools

    33. Significance of Fungi Form beneficial associations with roots of vascular plants that help plant absorb water and minerals Used for food and in manufacturing of foods and beverages Produce antibiotics 30% cause diseases of plants, animals, and humans Can spoil fruit, pickles, jams, and jellies

    34. Nutrition of Fungi Acquire nutrients by absorption Most are aerobic; some are anaerobic; many yeasts are facultative anaerobes

    35. Fungal Morphology the body of fungi is termed thallus (non-reproductive) The thalli of yeast are small, globular and are single celled The thalli of mold are composed of long, branched tubular filaments called hyphae.

    36. Fungal Morphology Within multi-ceullar hyphae of molds, the can either be separated (septae) or continuous (aseptate)

    37. Fungal Morphology Some members of fungi are dimorphic. They take either a globular form or filamentous form depending on environmental conditions.

    38. Reproduction of Fungi All have some means of asexual reproduction Yeasts bud in manner similar to prokaryotic budding Filamentous fungi produce lightweight spores that differ in mode of development Most also reproduce sexually

    39. Budding and Asexual Spore Formation Budding:

    40. Asexual Spores of Molds Some asexual spores are enclosed in sacs called sporangium at the end of the hyphae.

    41. Asexual Spores of Molds Some asexual spores are located in the middle of the hyphae and enclosed in a thick wall (chlamydiospores).

    42. Asexual Spores of Molds Some asexual spores called conida are not enclosed in sacs at the end of the hyphae.

    43. Asexual Spores of Molds The type of asexual spore produced by a mold is often used clinically to identify the identity of the mold pathogen.

    44. Sexual Spores Formation

    45. Eukaryotes Four major groups Protozoa Fungi Algae Water molds and slime molds Include both human pathogens and organisms vital for human life

    46. Algae Simple, eukaryotic, phototrophic organisms that carry out oxygenic photosynthesis. Reproduce asexually and sexually. Differ widely in distribution, morphology, reproduction, and biochemical traits

    47. Distribution and Morphology of Algae Most are aquatic, living in the photic zone of fresh, brackish, and salt water Unicellular, colonial, or have simple multicellular bodies (thalli)

    48. Classification of Various Algae

    49. Red Algae

    50. Diatom

    51. Brown Algae

    52. Parasitic Helminths and Vectors Parasitic worms have microscopic infective and diagnostic stages – usually eggs or larvae Vectors are animals such as ticks, lice, and mosquitoes that carry and transmit microscopic pathogens

    53. The Helminths Helminths (parasitic worms) Multicellular eukaryotes Consumers Common intestinal parasites Kingdom: Animalia Phylum: flatworms Class: flukes Class: tapeworms Phylum: roundworms

    54. Flatworms

    55. Flatworm: Flukes flat, leaf shaped bodies contain oral and ventral suckers that allow for attachment to the host

    59. Roundworms Long, cylindrical; tapered at each end Complete digestive tracts Dioecious (females are larger)

    60. Life Cycle of Trichinella spiralis

    61. Arthropods as Vectors Kingdom: Animalia Phylum: Arthropoda Class: Insecta (6 legs) Lice, fleas, mosquitoes Class: Arachnida (8 legs) Mites and ticks May transmit diseases (vectors)

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