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Chapter 26: Protists

Diversity in the Protists

  • Protists have various means of locomotion, including pseudopodia, flagella, and cilia; a few are nonmotile.

  • Protists obtain their nutrients autotrophically or heterotrophically.

    • Protists are free-living or symbiotic, with symbiotic relationships ranging from mutualism to parasitism.

  • Most protists live in the ocean or in freshwater ponds, lakes, and streams.

    • Parasitic protists live in the body fluids or cells of their hosts.

  • Many protists reproduce both sexually and asexually; others reproduce only asexually.

How Did Eukaryotes Evolve?

  • According to the hypothesis of serial endosymbiosis, mitochondria and chloroplasts arose from symbiotic relationships between larger cells and the smaller bacteria that were incorporated and lived within them.

  • Chloroplasts of red algae, green algae, and plants probably arose in a single primary endosymbiotic event in which a cyanobacterium was incorporated into a cell.

    • Multiple secondary endosymbiosis led to chloroplasts in euglenoids, dinoflagellates, diatoms, golden algae, and brown algae and to the non-functional chloroplasts in apicomplexans.

  • Relationships among protists are determined largely by ultrastructure, which is the fine details of cell structure revealed by electron microscopy, and by comparative molecular data.

    • Biologists have compared nuclear genes, many of which code for proteins, in different protist taxa.

Excavates

  • Excavates are a diverse group of unicellular protists with flagella, an excavated oral groove, and atypical, greatly modified mitochondria.

    • The inclusion of diplomonads, parabasalids, and euglenoids in the excavate superfamily is controversial.

  • Diplomonads are excavates with one or two nuclei, no functional mitochondria, no Golgi complex, and up to eight flagella.

  • Parabasilids are anaerobic, flagellated excavates that often live in animals.

    • Trichonymphs and trichomonads are examples of parabasilids

  • Euglenoids are unicellular and flagellate. Some euglenoids are photosynthetic.

Chromalveolates

  • Chromalveolates probably originated as a result of secondary endosymbiosis in which an ancestral cell engulfed a red alga.

    • Some DNA sequence data suggest that the chromalveolates are not monophyletic.

  • Alveolates have similar ribosomal DNA sequences and alveoli, flattened vesicles located just inside the plasma membrane.

    • Most stramenopiles have motile cells with two flagella, one of which has tiny hairlike projections off the shaft.

  • Dinoflagellates are mostly unicellular, biflagellate, photosynthetic alveolates of great ecological importance as producers in marine ecosystems.

    • Their alveoli, flattened vesicles under the plasma membrane, often contain cellulose plates impregnated with silicates.

    • Some dinoflagellates produce toxic blooms known as red tides.

  • Apicomplexans are parasites that produce sporozoites and are nonmotile.

    • An apical complex of microtubules attaches the apicomplexan to its host cell.

    • The apicomplexan Plasmodium causes malaria.

  • Ciliates are alveolates that move by hairlike cilia, have micronuclei (for sexual reproduction) and macronuclei (for controlling cell metabolism and growth), and undergo a sexual process called conjugation.

  • Water molds have a coenocytic mycelium.

    • They reproduce asexually by forming biflagellate zoospores and sexually by forming oospores.

  • Diatoms are mostly unicellular, with shells containing silica.

    • Some diatoms are part of floating plankton, and others live on rocks and sediments where they move by gliding.

  • Brown algae are multicellular stramenopiles that are ecologically important in cooler ocean waters.

    • The largest brown algae (kelps) possess leaflike blades, stemlike stipes, anchoring holdfasts, and gas-filled bladders for buoyancy.

  • Golden algae are mostly unicellular, biflagellate freshwater and marine stramenopiles that are of ecological importance as a component of the ocean’s extremely minute nanoplankton.

Rhizarians

  • Rhizarians are amoeboid cells that often have hard outer shells, called tests, through which cytoplasmic projections extend; molecular evidence indicates that this group is monophyletic.

  • Forams secrete many-chambered tests with pores through which cytoplasmic projections extend to move and obtain food.

  • Actinopods are mostly marine plankton that obtain food by means of axopods, slender cytoplasmic projections that extend through pores in their shells.

Archaeplastids

  • Archaeplastids, are considered a monophyletic group based on molecular data and on the presence of chloroplasts bounded by outer and inner membranes.

  • Red algae, which are mostly multicellular seaweeds, are ecologically important in warm tropical ocean waters.

  • Green algae exhibit a wide diversity in size, structural complexity, and reproduction. Botanists hypothesize that ancestral green algae gave rise to land plants.

Unikonts

  • Unikonts have a single posterior flagellum in flagellate cells.

    • Amoebas move and obtain food using cytoplasmic extensions called pseudopodia.

  • The feeding stage of plasmodial slime molds is a multinucleate plasmodium.

    • Reproduction is by haploid spores produced within sporangia.

  • Cellular slime molds feed as individual amoeboid cells.

    • They reproduce by aggregating into an aggregate (slug) and then forming asexual spores.

  • Choanoflagellates are unikonts that are probably the closest living nonanimal relative of animals.

    • A collar of microvilli surrounds their single flagellum at the base.

  • Choanoflagellates are included with animals in the opisthokont clade, which also includes fungi.

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Chapter 26: Protists

Diversity in the Protists

  • Protists have various means of locomotion, including pseudopodia, flagella, and cilia; a few are nonmotile.

  • Protists obtain their nutrients autotrophically or heterotrophically.

    • Protists are free-living or symbiotic, with symbiotic relationships ranging from mutualism to parasitism.

  • Most protists live in the ocean or in freshwater ponds, lakes, and streams.

    • Parasitic protists live in the body fluids or cells of their hosts.

  • Many protists reproduce both sexually and asexually; others reproduce only asexually.

How Did Eukaryotes Evolve?

  • According to the hypothesis of serial endosymbiosis, mitochondria and chloroplasts arose from symbiotic relationships between larger cells and the smaller bacteria that were incorporated and lived within them.

  • Chloroplasts of red algae, green algae, and plants probably arose in a single primary endosymbiotic event in which a cyanobacterium was incorporated into a cell.

    • Multiple secondary endosymbiosis led to chloroplasts in euglenoids, dinoflagellates, diatoms, golden algae, and brown algae and to the non-functional chloroplasts in apicomplexans.

  • Relationships among protists are determined largely by ultrastructure, which is the fine details of cell structure revealed by electron microscopy, and by comparative molecular data.

    • Biologists have compared nuclear genes, many of which code for proteins, in different protist taxa.

Excavates

  • Excavates are a diverse group of unicellular protists with flagella, an excavated oral groove, and atypical, greatly modified mitochondria.

    • The inclusion of diplomonads, parabasalids, and euglenoids in the excavate superfamily is controversial.

  • Diplomonads are excavates with one or two nuclei, no functional mitochondria, no Golgi complex, and up to eight flagella.

  • Parabasilids are anaerobic, flagellated excavates that often live in animals.

    • Trichonymphs and trichomonads are examples of parabasilids

  • Euglenoids are unicellular and flagellate. Some euglenoids are photosynthetic.

Chromalveolates

  • Chromalveolates probably originated as a result of secondary endosymbiosis in which an ancestral cell engulfed a red alga.

    • Some DNA sequence data suggest that the chromalveolates are not monophyletic.

  • Alveolates have similar ribosomal DNA sequences and alveoli, flattened vesicles located just inside the plasma membrane.

    • Most stramenopiles have motile cells with two flagella, one of which has tiny hairlike projections off the shaft.

  • Dinoflagellates are mostly unicellular, biflagellate, photosynthetic alveolates of great ecological importance as producers in marine ecosystems.

    • Their alveoli, flattened vesicles under the plasma membrane, often contain cellulose plates impregnated with silicates.

    • Some dinoflagellates produce toxic blooms known as red tides.

  • Apicomplexans are parasites that produce sporozoites and are nonmotile.

    • An apical complex of microtubules attaches the apicomplexan to its host cell.

    • The apicomplexan Plasmodium causes malaria.

  • Ciliates are alveolates that move by hairlike cilia, have micronuclei (for sexual reproduction) and macronuclei (for controlling cell metabolism and growth), and undergo a sexual process called conjugation.

  • Water molds have a coenocytic mycelium.

    • They reproduce asexually by forming biflagellate zoospores and sexually by forming oospores.

  • Diatoms are mostly unicellular, with shells containing silica.

    • Some diatoms are part of floating plankton, and others live on rocks and sediments where they move by gliding.

  • Brown algae are multicellular stramenopiles that are ecologically important in cooler ocean waters.

    • The largest brown algae (kelps) possess leaflike blades, stemlike stipes, anchoring holdfasts, and gas-filled bladders for buoyancy.

  • Golden algae are mostly unicellular, biflagellate freshwater and marine stramenopiles that are of ecological importance as a component of the ocean’s extremely minute nanoplankton.

Rhizarians

  • Rhizarians are amoeboid cells that often have hard outer shells, called tests, through which cytoplasmic projections extend; molecular evidence indicates that this group is monophyletic.

  • Forams secrete many-chambered tests with pores through which cytoplasmic projections extend to move and obtain food.

  • Actinopods are mostly marine plankton that obtain food by means of axopods, slender cytoplasmic projections that extend through pores in their shells.

Archaeplastids

  • Archaeplastids, are considered a monophyletic group based on molecular data and on the presence of chloroplasts bounded by outer and inner membranes.

  • Red algae, which are mostly multicellular seaweeds, are ecologically important in warm tropical ocean waters.

  • Green algae exhibit a wide diversity in size, structural complexity, and reproduction. Botanists hypothesize that ancestral green algae gave rise to land plants.

Unikonts

  • Unikonts have a single posterior flagellum in flagellate cells.

    • Amoebas move and obtain food using cytoplasmic extensions called pseudopodia.

  • The feeding stage of plasmodial slime molds is a multinucleate plasmodium.

    • Reproduction is by haploid spores produced within sporangia.

  • Cellular slime molds feed as individual amoeboid cells.

    • They reproduce by aggregating into an aggregate (slug) and then forming asexual spores.

  • Choanoflagellates are unikonts that are probably the closest living nonanimal relative of animals.

    • A collar of microvilli surrounds their single flagellum at the base.

  • Choanoflagellates are included with animals in the opisthokont clade, which also includes fungi.