ARROW KEYS TO MOVE This is a school project with a script in the notes...
Before we actually start… Okay, so we chose Influenza, an antigen, and we are starting off in the throat. How we got here? Well, the Influenza virus got in through indirect contact, when a sick dude with influenza (who apparently can’t cover his mouth) sneezed into our human’s mouth! Now, two things occured here, first being that the punk that sneezed into our mouth got a black eye and a bloody nose (we have rage issues), and the other being that the tiny influenza virus molecules got passed our Innate Immune System pretty quick, as it completely avoided the skin and linings outside of his body, and landed directly in the throat. Now, our tiny little influenza molecule needs to multiply by getting into the cell membrane, but how can it do this? Well in real life, the molecule has tiny little “keys” surrounding it that fit in place with tiny little “locks” on the cell membrane of a cell, allowing for a stealth mode ninja mission directly into the cell and into the nucleus. But in this game, that would be a little too simple, so instead you have to collect a key to get in! We also added in the game that you must collect keys to enter new areas of the body, which once you multiply, which will be completely infested with our tough guy cool guys of the body! These, however, can only be called upon once your acquired immune system kicks in (when influenza is done multiplying), and signs that this acquired immune system has activated are if you have a fever, a runny nose or are coughing! Low white blood cell count is actually correlated with influenza, although you won’t really be able to notice this. Now this person has been sick before, but not vaccinated because he hates needles, so his body causes four steps to happen, recognition, mobilization, disposal and immunity! WHEN PLAYING Since the person has been sick before, the Memory B cells bring up a file of influenza and inform Helper T cells of the issue The Helper T cells then proceed to alert and call the Killer T cells and B cells, who are carrying antibodies since the person has been sick with influenza before. They rush to the area where influenza is residing, accompanied with phagocytes! Upon arrival, Killer T cells kill the influenza virus, and the B cells release their antibodies, who attach themselves to the influenza virus and destroy them! Phagocytes also contribute to the destruction process. The memory B cells keep more files on the virus and keep antibodies on file for the future. THE END
