the chemistry of life! why are we talking about chemistry???? well….., because everything you do-...
TRANSCRIPT
The Chemistry of Life!
Why are we talking about chemistry????
Well….., because everything you do-from walking, to thinking, to digesting your lunch- is a series of chemical reactions! We have to understand basic chemistry in order to understand cell biology and genetics.
So, let the fun begin!!!!!
Levels of Biological Organization
Matter Matter – anything that has weight
and takes up space. Includes solids, liquids, and gases
All matter is composed of elements. There are 112 known elements
Ex. Iron, copper, silver, aluminum, carbon, hydrogen, oxygen
Matter and Living Organisms Living organisms require about 20
elements. Of these, oxygen, carbon,
hydrogen and nitrogen make up more than 95% of the human body.
Elements and Atoms Elements are composed of tiny
particles called atoms. Atoms are the smallest complete
units of elements. Atoms vary in size, weight, and the
ways they interact with each other.
Atomic Structure
Nucleus Protons (+
charge) Neutron (neutral)
Electron cloud Electrons (-
charge)
Chemical Bonds
A bond is formed when electrons from two atoms interact with each other and their atoms become joined.
Molecules and Compounds Molecule – when two or more atoms
bond. CO2 , O2 , H2 and H2O are all molecules.
Compound – when different elements combine. CO2 and H2O are molecules, but they are also compounds because they are molecules containing more than one element.
Molecules and Compounds Molecules Compounds
Calm Down!!
I know this is all very exciting! Let’s take a minute for you to chill out-we don’t want you to get over excited!
Carbon is essential to life!! All living things are composed mostly of
carbon. All life on Earth is carbon based. There are four basic types of organic
(carbon based) molecules. Carbohydrates Lipids Nucleic Acids Proteins
Carbohydrates Provide energy for
cells Supply materials to
build cell structures and are stored as reserve energy supplies
Carbohydrates include sugars and starches.
Lipids Lipids are
insoluble (do not dissolve) in water.
Lipids are fats and are used by your body to store energy. Lipids store more energy than carbs.
Lipids
Steroids are also lipids.
Examples: Cholesterol, estrogen, progesterone, testosterone…
Nucleic Acids
Nucleic Acids contain the genetic instructions for all living things.
Two types of nucleic acids RNA DNA
Proteins
Proteins serve as:
Structural materials
Energy sources Hormones Receptors on cell surfaces Antibodies Enzymes
Enzymes
Enzymes are important proteins because they speed up chemical reactions.
Without enzymes, the chemical processes carried out by your cells would happen too slowly to keep you alive!
Enzymes Your body requires enzymes to
digest food and to convert fats and carbohydrates to energy.
Some examples of enzymes are pepsin, lipase, and lactase.
Enzymes
Lactose intolerance is an example of the trouble that can be caused by an enzyme deficiency. People who are lactose intolerant lack the enzyme lactase. Lactase breaks down the sugar lactose. If a lactose intolerant person consumes dairy products, they can feel really sick. Fortunately, lactase supplements are available to allow lactose-intolerant people to safely consume dairy products.
More about enzymes! Each enzyme has a specific
chemical reaction it speeds up. Pepsin breaks down proteins and
is found in your digestive tract. Lactase breaks down lactose (a
sugar found in milk). Lipase breaks down lipids (fats).
The Enzyme-Substrate Complex
Substrates are the reactant(s) upon which the enzyme acts
Enzymes form a complex with their substrates called the enzyme-substrate complex (ES complex) at the active site
When the ES complex breaks up it releases product
This link shows how enzymes work
http://www.lpscience.fatcow.com/jwanamaker/animations/Enzyme%20activity.html
This link shows how enzymes work under various conditions!
http://www.kscience.co.uk/animations/anim_2.htm
Enzymes Are Picky About Their Working Conditions!
As we saw in the animation, enzymes need the correct temperature or pH in order to work.
If the temperature is too cold, or too hot, the enzymes may not work.
Generally, chemical reactions happen more quickly in warmer temperatures. But too much heat can destroy an enzyme.
Enzymes are Very Sensitive
Each enzyme has an optimal temperature, pH, and ionic strength
Human enzymes are optimized to work at body temperature (37OC)
Certain body enzymes are most active at the pH of a given body compartment:
Pepsin’s optimum pH matches that of the stomach (acidic)
Trypsin’s optimum pH is basic, like the upper intestine
What does heat do to an enzyme?
View animation of how heat affects the structure of a protein.
Remember, enzymes are proteins!!!
Frying eggs
What the heck is pH?? pH is the measure of the acidity of
a substance. Acids release hydrogen ions (H+)
when they are mixed with water. The pH scale is a measure of how acidic a substance is.
More on pH! The pH scale
ranges from 0-14. 7 is neutral. Substances with a pH of 7 or below are acidic (acids). Substances with a pH above 7 are alkaline (bases).
Picky enzymes! Some enzymes need acidic
conditions in which to work, like the enzymes in your digestive tract.
If an enzyme doesn’t have the right conditions, it cannot do its job!
What factors affect enzyme function?
We will be conducting a laboratory investigation in order to answer the question above.
For help in getting started, go to the link below
Liver lab
Answer the following questions on your own
paper.1. What is the difference between a
molecule and a compound?2. What are four types of organic
compounds? Describe how each is important to living things.
3. What does an enzyme do? What type of organic compound is an enzyme?
4. List two conditions that can affect the ability of an enzyme to function.