Cellular Adventure A Homemade PowerPoint Game By Caroline D’Huyvetter University of Georgia Play the game Game Directions Story Credits Copyright Notice.
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Cellular Cellular AdventureAdventure
A Homemade PowerPoint Game
ByCaroline D’HuyvetterUniversity of Georgia
Play the game
Game Directions
Story
Credits
Copyright Notice
Game Preparation
Objectives
Game Pieces
The Story of the “Cellular Adventure”
It’s time to grow!!! Imagine you are a nerve signal, sent from the brain to each cell in the body to initiate replication in that cell. Upon reaching the cell membrane, you must enter the cell and navigate your way to the nucleus. On your way, you will encounter several different cellular organelles and you must be able to identify them (and their function) to know if they are to receive your “replicate!” message. You will need to acquire energy in the form of Adenosine Triphosphate (ATP) in order to complete your mission and allow the cell to begin replication. But watch out, some sneaky, sneaky viruses may infiltrate your host cell if you are not adequately prepared for the trip! Fighting these viruses will use up some of your ATP supply, so you will have to be careful to have enough left once you reach the nucleus. If you don’t have adequate energy once you reach the nucleus, you will have to acquire extra vitamins to re-charge your supply and be able to complete your mission.
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Game DirectionsThe goal of the game is to provide a review of the parts of an animal cell and their function within the cell.
To play the game you have to have more than one, but no more than four, players. Each player will first roll the dice to determine the playing order of the game.1. Once the order has been decided, the first player will roll the dice again to see how many “spaces” in the cytoplasm he/she can move.2. If the player lands on an organelle, the player must first be able to identify the organelle. If the player is correct, then he/she can “draw” a question card for that particular organelle by clicking on the organelle’s button on the computer screen. If the player does not correctly identify the organelle, he/she must lose one turn before answering a question card. 3. If the player can correctly answer the organelle question, the student receives five ATP points (ATP point tallies must be recorded on the ATP/Virus Point Chart). The next player in order can then roll the dice and start their turn. If the first player cannot answer the question correctly, they must accept two virus points. 4. Players must make their way to the nucleus to initiate replication. On the way, they must only pass through each organelle once (no back-tracking), unless they skipped that organelle on the first pass. While following the path to the nucleus, if a player lands on an ATP space, they receive an extra three ATP points. 5. If a player rolls a number on the dice that could take them past the next organelle on their path, they have the option to skip that organelle. However, players must be warned that they have to have enough ATP points once they reach the nucleus to initiate replication, and the way to receive the majority of ATP points is to correctly answer organelle questions. 6. Upon reaching the nucleus, virus points are subtracted from ATP points. If the total is 19 – 30, then the player wins. If the point total is 18 or less, then the player must click on a Vitamin card. If the vitamin question is answered correctly, three ATP points are awarded. If this new total is still not enough points to initiate replication, then the player must wait another turn and “draw” another medicine card.
To win the game you have to reach the nucleolus first and have enough ATP points to initiate replication.
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Game Preparation• Gameboard: Print out slides 18 and 19, tape together to create a
unified cell gameboard.
• Point Chart: Print out slide 17 to allow players to keep a tally of their acquired points.
• Game Pieces: Print out slide 5 and allow players to select and cut out their game piece if desired. Other objects may also be used as game pieces (paper clips, buttons, etc).
• Other Supplies: You will also need a dice and access to a computer to play this game because the questions are accessible from the “Time to Play…” screen within the PowerPoint presentation.
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CreditsAll teachers and students at non-profit schools can use, revise, or adapt this game
at will at no cost on the condition that all prior designers are cited.
• Originally designed by Caroline D’Huyvetter, University of Georgia, May 28, 2003 with the title “Cellular Adventure”.
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Educational Objectives
• Audience
Students in grades 9 to 12, depending on the complexity of the questions that the teacher wants to write/change.
• Subject Area
Students will be able to identify the parts of an animal cell and answer questions pertaining to each organelle’s function within the cell.
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Copyright• Copyright 2003 Caroline D’Huyvetter
• Permission to copy this game at no cost is granted to all teachers and students of non-profit schools.
• Permission is also granted to all teachers and students of non-profit schools to make revisions to this game for their own purposes, on the condition that this copyright page and the credits page remain part of the game. Teachers and students who adapt the game should add their names and affiliations to the credits page without deleting any names already there.
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Time to Play “Cellular
Adventure!”
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Game Directions
MitochondrionGolgi
Apparatus
Endoplasmic Reticulum
Ribosome
Centrosome
Membrane-bound Organelle
(vacuole, peroxisome, lysosome) VITAMIN!
1.) What plant organelle is the counterpart to the animal mitochondria?
– Flagella– Stem– Nucleus– Chloroplast
1.)The Golgi apparatus modifies and stores products from which other organelle?
• Nucleus
• Cell Membrane
• Lysosome
• Endoplasmic Reticulum
2.)What does the Golgi use to receive and transport materials?
• Cytoplasm
• Transport Vesicles
• Nerves
• U.P.S.
4.) The flattened sacs (cisternae) of the Golgi
are physically connected to one another.
• True
• False
1.) Which type of E.R. has ribosomes attached to it?
• Smooth Endoplasmic Reticulum
• Rough Endoplasmic Reticulum
2.) Which type of E.R. functions in synthesizing lipids and detoxification of
drugs?
• Rough E.R.
• Smooth E.R.
3.) What is Rough E.R.’s main function?
• Synthesis of secretory proteins
• Powerhouse of the cell
• Movement of the cell
1.) A pair of what make up the centrosome in an animal cell?
• Pair of shoes
• Pair of centrioles
• Pair of membranes
4.) Microtubules are also used in cilia and flagella in what process?
• Movement
• Growth
• Reproduction
1.) Peroxisomes get their name because they produce what?
• Carbohydrates
• Hydrogen peroxide
• Protein
3.) Lysosomes digest by attaching to what?
• Stomachs in bodies
• Nucleus in the cell
• Food Vacuoles within the cell
1.) The nucleus contains what important material in the cell?
• Food Material
• Genetic Material (DNA)
• Water
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