Protists
Parazoa
True tissues absent
General Protists Characteristics
Unicellular Small No symmetry or variety of No germ layers No tissue or organs; but specialized organelles Aquatic or Terrestrial; free-living or parasitic
Fission
Yields two essentially genetically identical individuals
Saprozoic Feeder
food particles are absorbed across the plasma membrane
Holozoic Feeders
phagocytosis, where protozoan actually eats food particles with cytostome (mouth-like) and lysosomes (stomach)
Protists: Sexual Reproduction
Conjugation or syngamy
How do protists relate to other eukaryotes?
First Eukaryotes; Reveal evolutionary history for other Eukaryotes
Flagella
A long, whip-like filament that helps in cell motility.
Phyla Ciliophora
Ciliates, use cilia for feeding and movement, develop cysts, has defined mouth and feeding organelle, free-living, asexual and sexual reproduction
Phyla within Excavata
Euglenozoa Kinetoplastida
Protists Super Groups
Excavata Aveolata Amoebozoa Rhizaria Archaeplastida
Phyla within Rhizaria
Formiferans Radiolara Actinosphaerliem
Excavata
Groove on one side of the cell body, modified (or reduced) mitochondria.
Super group Amoebozoa
Include naked and testate amebas; amebas with flagellated stages in the life cycle. Typically have branched tubular mitochodrial cristae
Cristae
Infoldings of the inner membrane of a mitochondria that houses the electron transport chain and the enzyme catalyzing the synthesis of ATP.
Endosymbiosis
Key organelles of eukaryotes originated as symbiosis between separate single-celled organisms
Eumetazoa
Members of the subkingdom that includes all animals except sponges. (true tissues)
Autotrophic
Organism that makes its organic nutrients from inorganic raw materials
Heterotrophic
Organism that obtains both organic and inorganic raw materials from the environment in order to live; includes most animals and microorganisms and those plants that do not have photosynthesis
Protists Movement
Pseudopodia, flagella and cilia
(Genus) Paramecium
Supergroup: Alveolata Phyla: Ciliophora A ciliated (it propels itself via cilia) protist that lives in fresh water and eats other tiny organisms for food.
Phyla Dinoflagella
Supergroup: Alveolata Two flagella Sexual reproduction present
Syngamy
Union of male and female gametes to form a zygote
Pseudopodia
A temporary footlike extension of a one-celled organism, such as an amoeba, used for moving about and for surrounding and taking in food
Phyla within Aveolata
Apicomplexa Dinoflegella Ciliophora
Old Classification of Protists
Based on how they move, how they eat, habitat, etc.
Protists: Asexual Reproduction
By fission, budding and cysts
New Classification of Protists
By super groups based on taxonomy and shared characteristics. Cladistics approach.
Cilia
Hairlike projections that extend from the plasma membrane and are used for locomotion
Osmotrophs
Heterotrophic organisms that absorb dissolved nutrients
Metazoa
Multicellular parasites.
Genus' within Ciliophora
Paramecium Didinium Stentor SPirostomum Vorticella
Trypanosoma
SG: Excavata Phyla: Kinetoplastida Causes African sleeping sickness in humans; spread by biting bugs
Difference between cilia/flagella vs pseudopodia?
Structurally, flagella and cilia are very similar; both are also used in feeding and locomotion. Pseudopodia are cytoplasmic extensions (caused by elongation of microtubules) that aid in feeding and locomotion.
(Genus) Plasomodium
Supergroup: Alveolata Phyla: Apicomplexa Spreads malaria
(Genus) Stentor
Supergroup: Alveolata Phyla: Ciliophora filter-feeding, heterotrophic ciliate protists. They reproduce asexually through binary fission
(Genus) Spirostomum
Supergroup: Alveolata Phyla: Ciliophora free-living ciliate protists, found in both salt and fresh water. All are elongated, flexible and highly contractile. reproduces by binary fission. Reproduction may be purely asexual, or it may follow conjugation, during which compatible mating individuals come together and transfer genetic material across a cytoplasmic link.
(Genus) Didinium
Supergroup: Alveolata Phyla: Ciliophora When it hits a Paramecium, poison darts (toxicysts) and attachment lines fire automatically
Phyla Apicomoplexa
Supergroup: Alveolata Possess alveoli (membrane bound sacs that lie beneath the plasma membrane and serve structural functions cysts present
Giardia
Supergroup: Excavata lives inside the intestines of infected humans or other animals. Individuals become infected through ingesting or coming into contact with contaminated food, soil, or water. The Giardia parasite originates from contaminated items and surfaces that have been tainted by the feces of an infected carrier
Kinetoplastida and example
Supergroup: Excavata Parasitic in plants and animals Ex Genus: Trypanosoma
Euglinida and example
Supergroup: Excavata Phyla: Euglenozoa have chloroplasts with chlorophyll, surrounded by double membrane Ex: Euglena has light sensitive stigma (eyespot) allows light from one direction to strike light-sensitive receptor
Euglenozoa
Supergroup: Excavata Presence of nucleoli during mitosis Cristae Pellicle: series of longitudinal microtubules just beneath the plasma membrane that help stiffen the membrane
Why is endosymbiosis important?
Supports evolutionary history
(Genus) Vorticella
Vorticella species mainly live in freshwater ponds and streams—generally anywhere protists are plentiful. Reproduction is by budding, where the cell undergoes longitudinal fission and only one daughter keeps the stalk. They reproduce by fission, which is also known as cell division. They are also capable of reproducing by conjugation, a form of sexual reproduction where two individuals attach at the oral groove and exchange DNA.
Super group Rhizaria
are amoeboids with filose, reticulose, or microtubule-supported pseudopods. Many produce shells or skeletons, which may be quite complex in structure, and these make up the vast majority of protozoan fossils. Nearly all have mitochondria with tubular cristae.
