1. Objective(s):
I can develop and use a model to describe why structural changes to genes (mutations) located on chromosomes may affect and may result in harmful, beneficial, or neutral effects to the structure and function of the organism.

3. Model Protein Folding
You will use paper strips to model protein folding.
Amino acid chains fold or twist when one region of the chain is attracted to, or repelled by, another region.
This folding and twisting depends on the chemical structure of each amino acid, as well as how close they are together in the chain.

10. Answer the following questions
• Compare the two amino acid sequences. What is the difference between the two sequences?
• How did the change in the amino acid sequence affect protein structure?
• Do you think the proteins formed by the different amino acid sequences can still perform the same function?

11. page 82

14. Connection to real life
Here are some examples of proteins that have essential functions in living things

15. Have You Ever Wondered. How does heat both straighten and curl hair
Have You Ever Wondered... How does heat both straighten and curl hair? What effect does heat have on hair
When you use a blow dryer or a curling iron, the heat it produces breaks down your hair's hydrogen bonds, stripping away its natural oils and proteins. The heat changes your hair's texture, allowing you to mold it to create the look you want. The shape of a curling or flat iron helps to mold your hair into the shape you desire. As you hold your hair in a particular shape for a few seconds, the bonds begin to reform into the new shape you want. The bonds will tend to hold your hair in its new shape until they're broken down again.

16. 2.4.A1 Rubisco, insulin, immunoglobulins, rhodopsin, collagen and spider silk as examples of the range of protein functions.
Insulin
A hormone – signals many cells (e.g. liver cells) to absorb glucose and help reduce the glucose concentration of the blood.
Affected cells have receptor (proteins) on their surface to which insulin can (reversibly) bind to.
Secreted by β cells in the pancreas and transported by the blood.
The pancreas of type I diabetics don’t produce sufficient insulin therefore they must periodically inject synthetically produced insulin to correct their blood sugar concentration.

17. immunoglobulins Also known as antibodies.
2.4.A1 Rubisco, insulin, immunoglobulins, rhodopsin, collagen and spider silk as examples of the range of protein functions.
immunoglobulins
Also known as antibodies.
Two antigen (a molecule on the pathogen which provokes an immune response) binding sites - one on each ‘arm’
Binding sites vary greatly between immunoglobulins (hypervariable) to enable them to respond a huge range of pathogens.
Other parts of the immunoglobulin molecule cause a response, e.g. acting as a marker to phagocytes (which engulf the pathogen)

18. rhodopsin A pigment that absorbs light
2.4.A1 Rubisco, insulin, immunoglobulins, rhodopsin, collagen and spider silk as examples of the range of protein functions.
rhodopsin
A pigment that absorbs light
Membrane protein of rod cells of the retina (light sensitive region at the back of the eye)
Rhodopsin consists of the opsin polypeptide surrounding a retinal prosthetic group
retinal molecule absorbs a single photon of light -> changes shape -> change to the opsin -> the rod cell sends a nerve impulse to the brain
Even very low light intensities can be detected.

19. 2.4.A1 Rubisco, insulin, immunoglobulins, rhodopsin, collagen and spider silk as examples of the range of protein functions.
collagen
A number of different forms
All are rope-like proteins made of three polypeptides wound together.
About a quarter of all protein in the human body is collagen
Forms a mesh of fibres in skin and in blood vessel walls that resists tearing.
Gives strength to tendons, ligaments, skin and blood vessel walls.
Forms part of teeth and bones, helps to prevent cracks and fractures to bones and teeth

20. spider silk Different types of silk with different functions
2.4.A1 Rubisco, insulin, immunoglobulins, rhodopsin, collagen and spider silk as examples of the range of protein functions.
spider silk
Different types of silk with different functions
Dragline silk is stronger than steel and tougher than Kevlar
When first made it contains regions where the polypeptide forms parallel arrays (bottom)
Some regions seem like a disordered tangle (middle)
When the stretched the polypeptide gradually extends, making the silk extensible and very resistant to breaking.

21. Real life Connection