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Transcript
What’s the Difference between Animal and Plant Cells? Both animal and plant cells have some similar structural elements. First off they are both eukaryotic, which means they have a defined nucleus. The nucleus contains chromosomes. It is protected and surrounded by the cytoplasm, which is a watery or gel-like liquid. Further, animal and plant cells have a cell membrane that surrounds the cell. This allows for the cell to control, in most cases, what can enter and leave the cell, and what cannot. One of the primary differences between animal and plant cells is that plant cells have a cell wall made up of cellulose. This helps the plant cells to allow high pressure to build inside of it, without bursting. A plant cell has to be able to accept large amounts of liquid through osmosis, without being destroyed. An animal cell does not have this cell wall. This allows animal cells to form and adopt various shapes. A type of animal cell called the phagocytic cell can even absorb other structures. This ability is not inherent in plant cells. If you start to fill the animal cell with too much distilled water or other fluid, it will eventually pop. Plasmodesmata (singular, plasmodesma) are small channels that directly connect the cytoplasm of neighboring plant cells to each other, establishing living bridges between cells. These are similar to the gap junctions (communication junctions) found in animal cells. The plasmodesmata, which penetrate both the primary and secondary cell walls allow certain molecules to pass directly from one cell to another and are important in cellular communication. Plant cells are also different from animal cells because they use chloroplasts to carry out photosynthesis which converts sunlight into needed sugars for the plant. Chloroplasts are unique from most other organelles because they have their own DNA which directs the work of the chloroplasts. If one could view a plant cell under the microscope, it would appear extremely different than an animal cell because of the presence of a large central vacuole. The central vacuole is found in the cell’s cytoplasm. It usually takes up most of the room in the cell, and the membrane of the cell encircles it. It contains waste materials, water, and nutrients that can be used or secreted as necessary. Animal cells have small vacuoles and may have numerous ones. They never have the large single vacuole that takes up most of the space in plant cells. As well, under the microscope plant cells often have a more regular shape. Animal cells tend to vary greatly in appearance. Animal cells have lysosomes which are not found in plant cells. Lysosomes are membrane-bound sacs of digestive enzymes. They are used to breakdown macromolecules such as proteins, fats, polysaccharides, and nucleic acids. Lysosomes can fuse with food vacuoles, exposing the food to the enzymes that digest it. Found only in animal cells are two small organelles called centrioles. These paired organelles are typically located together near the nucleus in the centrosome, a granular mass that serves as an organizing center for microtubules. They are there to help the cell when it comes time to divide. They are put to work in both the process of mitosis and the process of meiosis. They cannot be seen when the cell is not dividing. Centrioles are made of microtubules. Cilia and flagella are motile cellular appendages found in most microorganisms and animals, but not in higher plants. In multicellular organisms, cilia function to move a cell or group of cells or to help transport fluid or materials past them. For example, the respiratory tract in humans is lined with cilia that keep inhaled dust, smog, and potentially harmful microorganisms from entering the lungs. Some prokaryotic cells have flagella (singular, flagellum), which are long filamentous appendages that propel bacteria through their environment. Flagella are also found on the gametes in animals. For single-celled eukaryotes, cilia and flagella are essential for the locomotion of the individual organisms. Campbell, Reece, and Simon. (2007). “Lysosomes”. In: Essential nd Biology with Physiology, 2 ed. pp. 64-65. Pearson Benjamin Cummings, San Francisco CA. http://micro.magnet.fsu.edu/cells/centrioles/centrioles.html http://micro.magnet.fsu.edu/cells/ciliaandflagella/ciliaandflagella.ht ml http://micro.magnet.fsu.edu/cells/plants/plasmodesmata.html http://www.wisegeek.com/what-are-some-differences-betweenplant-and-animal-cells.htm# http://www.differencebetween.net/science/difference-betweenanimal-and-plant-cells/ Close Reading Instructions: 1) Number each paragraph. 2) As you read, underline the differences between plant and animal cells. 3) Circle any organelle that plant cells have that animal cells do not have. 4) Box any organelle that animal cells have that plant cells do not have. Cell Graphic Organizer Name _________________________ Date _____________ Per _______
