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Cheek Cells Bacterial Cells Elodea Cells OnionCells 400x
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Organelles specialized structure that performs important cellular functions “little organ”
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Type of Cell: Plant Prokaryotes (bacteria) Fungi Some protists Structure: Rigid outer layer of cell made of mainly carbs and some protein. Cellulose for plants. Chitin for fungi Peptidoglycan for bacteria. Function: Support Protection
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Type of Cells: All cells Structure: Fluid mosaic lipid bi-layer Function: Control movement in and out of cell Selectively permeable – only let certain substances in and out of the cell Barrier from outside environment cell membrane animation
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Types of Cells: All cells Structure: Clear, thick jelly-like material Function: Support cellular organelles Move nutrients in cell
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Consists of Microtubules & Microfilaments A network of protein fibers extending throughout the cytoplasm
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Types of Cells: All Cells Structure: Twisted chain of proteins Thinnest protein fibers in the cell Function: Help maintain shape and supports the cell cause cytoplasmic streaming in plant cells
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Types of Cells: Eukaryotic Structure Hollow tubes made of Protein Function Facilitate the movement of vesicles Motor proteins
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Cilia Structure: Tiny hair-like projections on the outside of certain cells Function: Moves materials around the outside of the cell Ex: cells found in the lining of the trachea (windpipe) Moves mucus and dirt out of the lungs Flagella Structure: Long whip-like tail Function: Moves the cell Ex: sperm cells
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Cell Type: Only animals cells Structure: Cylinder shape Made of 9 sets of 3 microtubules Function: Involved in forming the mitotic spindle during cell division Chromosomes attach to spindle and separate properly
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Types of Cells: Eukaryotic Cells (Plant, Animal, Fungi, Protist) Structure: Large, oval shape Near center Double membrane (nuclear envelope) with nuclear pores (holes) Function: Contains and protects genetic information (DNA) Controls the cell
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A. Animal B. Plant C. Bacteria D. Fungi
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1. Mitochondria 2. Nucleus 3. Cytoplasm 4. Golgi Apparatus
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A. Nucleus B. Cell wall C. Cell membrane D. Cytoplasm
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1. Cell membrane 2. Cytoplasm 3. Nucleus 4. Ribosome
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Types of Cells: All cells Inside nucleus in eukaryotic cells or in middle of prokaryotic cells Structure: Double helix of nucleic acids DNA is coiled to form chromatin and wound up even more into organized packages of DNA called chromosomes Function: Genetic information (“blue- print of life”) Contains the code for making proteins
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Types of Cells: Eukaryotic (plant, animal, fungi, protist) Structure: Small round structure inside the nucleus Function: Makes ribosomes
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1. Plant 2. Animal 3. Bacteria 4. All of the above 0
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1. Chloroplast 2. Vesicle 3. Cell wall 4. Cytoplasm
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Types of Cells: All Cells Structure: Small organelles made of rRNA & protein No membrane Floating free in the cytoplasm or attached to Rough ER Function: Help make proteins Link together amino acids by reading the genetic code
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Type of Cells: Eukaryotic (plant, animal, fungi, protist) Structure: Network of folded tubes or membranes ROUGH ER: Ribosomes attached SMOOTH ER: Nothing attached Function: Rough ER: help synthesize proteins Smooth ER: synthesizes lipids & carbs. Also….detoxification! Package materials (proteins or lipids) into transport vesicles
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Types of Cells: Eukaryotic (plant, animal, fungi, protist) Structure: membranous sac Function: transport of materials made by the cell (lipids, carbs, proteins) Secrete materials to the outside of the cell
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Location: Eukaryotic (plant, animal, fungi, protist) Structure: Flattened membranous sacs (like a stack of pancakes) Function: Modifies lipids & proteins Package materials into secretory vesicles to send them outside of the cell
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1. Digestion of food 2. Movement of cell 3. makes lipids 4. Contains DNA
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1. Cell Membrane 2. Endoplasmic Reticulum 3. Cytoplasm 4. Lysosome
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1. Make lipids 2. Make proteins 3. Control the cell 4. Package and transport materials
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1. Make lipids & carbs & detox 2. Control cell movement 3. Store nutrients 4. Help make proteins
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Types of Cells: Eukaryotic (plant, animal, fungi, protist) Structure: Fluid-filled membranous sacs Larger in plants Function: Stores waste, food, water for later use
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Types of cells: Animal cells Some protists Structure: Small, round membranous sac that holds digestive enzymes Function: Breakdown large food particles Digest old cell parts “Clean up”
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Types of cells: Eukaryotic cells Structure: Membranous sac contain a variety of enzymes Function: rid the cell of toxic substances, and in particular, hydrogen peroxide (a common byproduct of cellular metabolism).
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1. Transport materials 2. Control the cell 3. Store water and nutrients 4. Protect the cell
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1. Rough ER 2. Smooth ER 3. Cytoplasm 4. Lysosome
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Types of Cells: Eukaryotic (plant, animal, fungi, protist) Structure: Bean-shaped Folded inner membranes Double outer membrane Function: Make energy (ATP) Cellular Respiration occurs here Convert glucose, oxygen, and water into useable energy (ATP)
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Types of cells: Plant Cells Structure: Oval shaped Double membrane Thylakoids contain chlorophyll (green pigment) Function: Convert sunlight, carbon dioxide, and water into glucose (food) and oxygen (photosynthesis)
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Endosymbiotic theory – Mitochondria and chloroplasts, the two energy related organelles, arose when a large eukaryotic cell engulfed independent prokaryotes This explains why they have a double membrane and why they have genetic material separate from the nucleus
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1. Make lipids 2. Make proteins 3. Control the cell 4. Make energy
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1. Mitochondria 2. Chloroplast 3. Golgi apparatus 4. Lysosomes
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1. Plant 2. Animal 3. Eukaryote 4. Prokaryote
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1. Nucleus 2. Endoplasmic reticulum 3. Cell Wall 4. Cell Membrane
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PLANTANIMALBOTH
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