NAME ______

Reading Guide 04 -Biology 160

Am I Really What I Eat?

DUE ______

Be prepared to discuss with your group

Read: “Your Digestive System and How It Works,” by the National Digestive Diseases Information Clearinghouse (NDDIC)

What you will learn in this reading guide: What happens to the biological molecules that make up our food’s cellular structures once we eat them.

1) In your own words, why is digestion important?

2) Draw a diagram of the human digestive system from mouth to anus and label the following parts:

CS, NSCC Biol 160, Nov 2011

mouth

esophagus

stomach

small intestine

large intestine (colon)

rectum

anus

CS, NSCC Biol 160, Nov 2011

3) During digestion, carbohydrates are broken down into….

4) During digestion, proteins are broken down into….

5) During digestion, fats are broken down into….

6) Give it your best guess: During digestion nucleic acids are broken down into…

7) Think Back: When large molecules like polymers are broken down into smaller molecules like monomers, what is that chemical reaction called?

8) Think Back: When small molecules like monomers are attached together into large molecules like polymers, what is that chemical reaction called?

9) Critical Thinking: On a separate sheet of paper, sketch out your ideas of how you think one of the food items on your group’s menu starts as food and eventually is used by your cells. Be sure to include cellular structures, water and large biological molecules, pH, enzymes, covalent bonds, hydrogen bonds, hydrolysis, and dehydration reactions.

Here’s a suggestion of how to start:

Your specific food item (example: potato)  has this type of cells (example: plant cells)  with these cellularstructures (example: amyloplasts)  that are made of or contain these large biological molecules (example: starch)  when we eat this food we chew it up and enzymes and water in our saliva begin to break the covalent bonds of the starch polymer into monosaccharide monomers through hydrolysis we swallow it into our stomach….

…Keep filling in the missing information…

… the monomers are circulated through the blood to all of our cells  where our cells take up the monomers and, through dehydration reactions build glycogen polymers for energy storage.

Make sure you can do this for each of the 4 types of large biological molecules. Have fun!

CS, NSCC Biol 160, Nov 2011