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Published byJayson York Modified over 8 years ago
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Cells have evolved two different architectures: Prokaryote “style”: ancient, simple Eukaryote “style”: modern, complex
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Prokaryote cells are smaller and simpler Commonly known as bacteria Single-celled(unicellular) or Filamentous (strings of single cells)
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These are prokaryote E. coli bacteria on the head of a steel pin.
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Prokaryote lifestyle unicellular: all alone Have cell wall colony: forms a film DNA is circular No nucleus or membrane bound oganelles
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Prokaryote Feeding Photosynthetic: energy from sunlight Disease-causing: feed on living things Decomposers: feed on dead things
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How do prokaryotes move? Flagella: whip-like projections -Rotate in a circular motion -Made up of protein “flagellin”
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Eukaryotes are bigger and more complicated Have a nucleus Have organelles DNA is organized in chromosomes in nucleus can be multicellular include animal (no cell wall) and plant cells (cell wall)
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Organelles are membrane-bound cell parts Mini “organs” that have unique structures and functions
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How do eukaryotic cells move? Some can crawl with pseudopods Some can swim with a flagellum Some can swim very fast with cilia
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Pseudopods means “fake feet” extensions of cell membrane example: ameoba
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Flagellum/flagella large whiplike tail pushes or pulls cell through water Made up of protein “tubulin” can be single, or a pair Moves back and forth like a whip
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Cilia Many Many Many fine, hairlike extensions attached to cell membrane beat in unison
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Cell membrane delicate lipid and protein skin around cytoplasm found in all cells Cell Structures
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Nucleus a membrane-bound sac evolved to store the cell’s chromosomes(DNA ) has pores: holes
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Nucleolus inside nucleus location of ribosome factory made or RNA
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mitochondrion makes the cell’s energy the more energy the cell needs, the more mitochondria it has
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Ribosomes build proteins from amino acids in cytoplasm may be free- floating, or may be attached to ER made of RNA
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Endoplasmic reticulum may be smooth: builds lipids and carbohydrates may be rough: stores proteins made by attached ribosomes
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Golgi Complex takes in sacs of raw material from ER sends out sacs containing finished cell products
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Lysosomes sacs filled with digestive enzymes digest worn out cell parts digest food absorbed by cell
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Centrioles pair of bundled tubes organize cell division
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Cytoskeleton made of microtubules found throughout cytoplasm gives shape to cell & moves organelles around inside.
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Structures found in plant cells Cell wall very strong made of cellulose protects cell from rupturing glued to other cells next door
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Vacuole huge water- filled sac keeps cell pressurized stores starch
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Chloroplasts filled with chlorophyll turn solar energy into food energy
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How are plant and animal cells different?
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StructureAnimal cellsPlant cells cell membraneYesyes nucleusYesyes nucleolusyes ribosomesyes ERyes Golgiyes centriolesyesno cell wallnoyes mitochondriayes cholorplastsnoyes One big vacuolenoyes cytoskeletonyesYes
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Eukaryote cells can be multicellular The whole cell can be specialized for one job cells can work together as tissues Tissues can work together as organs
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Advantages of each kind of cell architecture ProkaryotesEukaryotes simple and easy to growcan specialize fast reproductionmulticellularity all the samecan build large bodies
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Examples of specialized euk. cells liver cell: specialized to detoxify blood and store glucose as glycogen.
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sperm cell: specialized to deliver DNA to egg cell
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Mesophyll cell specialize d to capture as much light as possible inside a leaf
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How did organelles evolve? many scientists theorize that eukaryotes evolved from prokaryote ancestors. in 1981, Lynn Margulis popularized the “endosymbiont theory.”
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Endosymbiont theory: a prokaryote ancestor “eats” a smaller prokaryote the smaller prokaryote evolves a way to avoid being digested, and lives inside its new “host” cell kind of like a pet.
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Endo = inside Symbiont = friend
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the small prokaryotes that can do photosynthesis evolve into chloroplasts, and “pay” their host with glucose. The smaller prokaryotes that can do aerobic respiration evolve into mitochondria, and convert the glucose into energy the cell can use. Both the host and the symbiont benefit from the relationship
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Chlorella are tiny green cells that live inside some amoeba... endosymbiosis may still be evolving today!
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