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Classification of Living Things: this week we look at the groups in red

Classification of Living Things: this week we look at the groups in red. Domain Prokarya— made of prokaryotic cells Kingdom Archea Kingdom Bacteria (eubacteria) Domain Eukarya— made of Eukaryotic cells “kingdom protista” protozoans— “animal” like protists algae— “plant like” protists

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Classification of Living Things: this week we look at the groups in red

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  1. Classification of Living Things: this week we look at the groups in red • Domain Prokarya— made of prokaryotic cells • Kingdom Archea • Kingdom Bacteria (eubacteria) • Domain Eukarya— made of Eukaryotic cells • “kingdom protista” • protozoans— “animal” like protists • algae— “plant like” protists • Plant Kingdom • Animal Kingdom • Fungi Kingdom

  2. Terminology Photosynthetic Autotrophs: • use energy of sunlight and inorganic molecules to make their own food (energy molecules) • Photosynthesis • Uses photosynthetic pigments

  3. Terminology • Heterotrophic: • Break down organic molecules for food/energy • eat other organisms (living or dead) • eat wastes of other organism

  4. Terminology • Unicellular = the entire organisms (living thing) is made of just a single cell • Multicellular = the organism is made of multiple cells that are dependent on one another for the survival of the organism

  5. Prokaryotes (e.g. Bacteria): • small and simple • very diverse • very successful • found everywhere • even extreme environments (boiling hot hotsprings, in ice, is super salty water….environments that would kill plants and animals) • they are abundant and widespread because simplicity makes them easily adaptable (because of high mutation rate and other forms of rapid genetic change; so new traits arise frequently)

  6. Fundamental Prokaryotic Characteristics:they are small and simple • Very small (1/10th-1/1000th the size of a eukaryotic cell) • no nucleus (single circular piece of DNA is “unprotected”) • lacks all organelles except ribosomes and simple cytoskeleton • have cell wall (for shape and protection) • Unicellular Typical eukaryotic cell Prokaryotic cell virus

  7. Prokaryotic cell structure Plasmid “additional” DNA)

  8. Additional Prokaryotic Features of Note • Capable of rapid reproduction • binary fission • one cell copies its DNA and then divides to make a exact copy of itself…a clone) • from 1 to 1 billion (1,000,000,000) in 10 hours if they divide every 20 min • Can transfer DNA from one to another • conjugation • Can absorb DNA from environment • transformation • Can form resistant endospores that stay dormant until environment is good for growth again. • Can even survive clean rooms and outerspace • high mutation rate (adapt and spread quickly)

  9. Binary Fission (how bacteria reproduce)Cells copy DNA and then split into two

  10. Categorizing Bacteria:historically bacteria were categorized based on Lab utilizes/focuses on these • Shape • Rods (bacilli) • Spheres (cocci) • Spirals (spirilli) • metabolism • heterotrophic v. autotrophic • aerobic v. anearobic • DNA/genetics YOU SHOULD BE ABLE TO IDENTIFY THE THREE SHAPES BY THEIR OFFICIAL NAMES

  11. Importance/Relevance of bacteria:be able to give some examples • Environmentally: • decomposers • Break down dead things to make nutrient available for other organisms • Nitrogen fixers • only organisms that can take atmospheric N2 and make it available for use by other organisms • root nodules • crop rotation • create oxygen (photosynthetic varieties) • symbiotes with other organisms • e.g., gut fermentation

  12. NITROGEN CYCLE -- nitrogen passes from physical environment to producers (e.g., plants) to animals, to another animal (etc.) and returns to the physical env through waste and decomposition (of dead).

  13. Importance/Relevance of bacteria:be able to give some examples • In human health • pathogens • “normal flora” • prevent infections & can influence our immune system • provide vitamins • “pro-biotics” (e.g., Activia…you know the commercials) • May alter immune function and be linked to autoimmune disorders and allergies (hygenien hypothesis & old-friends hypothesis) • May alter our fat deposition • original source of some antibiotics • Botox is made from bacterial toxin • produce flatulents and B.O.

  14. Importance/Relevance of bacteria:be able to give some examples • Food/Nutrition Bacteria are used to chemical alter/change milk into things such as: • yogurt • kefer milk • cheeses • other fermented food items that are more resistant to spoiling • Some bacteria are pathogens to crop plants

  15. Importance/Relevance of bacteria:be able to give some examples • Biotechnology: Genetically engineered bacteria: • production of drugs and/or hormones for human use • Are being developed to production of ethanol (a fuel) • Used to break up oil spills Other applications: • gene mining for new substances and enzymes • PCR/genetic analysis (e.g., DNA fingerprinting) • assembling nanostructures (nanotechnology)

  16. Protists are: • Eukayrotic • Can be unicellular or multicellular • Can be autotrophic or heterotrophic

  17. The “Mostly Heterotrophic” Protists • Include: • Paramecium • Amoeba • Euglena • Plasmosdium • They are: • Unicellular • Mostly heterotrophic • Have special structure for feeding and/or to make them mobile

  18. Protozoans:Animal-like protists Feeding and movement structures: • cilia (ciliates) • Flagella (flagellates) • Psuedopods (ameobas)

  19. Mostly Heterotrophic Protists • You should know: • The protists covered in the lab manual • The structures each uses to feed and move with • Any details about these from the lab manual that I emphasized in lab • Also know the two organisms that plasmodium must pass through, the disease plasmodium causes, and what parts of the human body it infects.

  20. Euglena Paramecium amoeba

  21. Algae:plant-like protists • Photoautotrophic: • uses sunlight • Can be unicellular (e.g., diatoms) or multicellular • Traditionally classified by the color of photosynthetic pigment • the molecule that captures the energy of sunlight • Brown • Red • Green

  22. Kelp Structure

  23. Algae • You should know: • The examples we looked at • The structure of the “giant bladder kelp” and the function of the holdfast, air cyst, and blade • Know which are multicellular and which are unicellular • Give some examples of how Algae are commerially important/relavent

  24. Relevance of algae • Base of aquatic/marine food chain • O2 production • Food for humans, e.g., nori • Commercial uses • Agar gelatin (in scientific labs) • Potential source of biofuel • Fertilizer • Bioremediation (e.g.,uptake and remove phosphates) • Source of Dyes/coloring agents • Thickening and stabilizing agents in foods, soaps, and cosmetics • Clarifying beer (“irish moss”) • Component of “personal lubricants”

  25. Spirogyra (a green algae)

  26. Diatoms a unicellular algae

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