1. Proteins
Side group R OH
Amino Group H
Carboxyl Group N C C H O H

2. Process of making glucose
Protein Basics
sunlight
H2O
Photosynthesis:
Process of making glucose c
glucose O2
Used in variety of cellular functions

3. Cellular Respiration: Process of making ATP
Protein Basics A p c
glucose
Cellular Respiration: Process of making ATP
Used in variety of cellular functions

4. Protein Basics Used in variety of cellular functions DNA Replication:
Process of making DNA
Used in variety of cellular functions

5. Protein Basics Used in variety of cellular functions Transcription:G U C G T A C G T A
Transcription:
process of making RNA A U
Used in variety of cellular functions G C

6. Translation: process of making proteins
Protein Basics
Amino acid
Amino acid
Amino acid
Amino acid
Amino acid
Amino acid
Amino acid
ribosome
ribosome
ribosome
ribosome
ribosome
ribosome
ribosome
Translation: process of making proteins
Used in variety of cellular functions

7. Protein Basics protein Used in variety of cellular functions
leucine
valine
glycine
valine
tyrosine
leucine
glycine
alanine
lysine
histi-
dine
aspara-
gine
serine
proline
alanine
tyrosine
lysine
histi-
dine
aspara-
gine
serine
proline
= polypeptide 1
protein
Amino acid (monomer)
glycine
leucine
lysine
tyrosine
valine
alanine
proline
= polypeptide 2
Used in variety of cellular functions
Monomer: Amino Acid
20 different types of amino acids
Polymer: Polypeptide
Proteins formed from a collection of polypeptides
Exact arrangement of amino acids determines the protein

9. R N H C OH O C C H H Amino Acid Structure 5 basic parts
1) Central C atom
2) Amino group (NH2)
3) H
4) Carboxyl group (COOH)
5) R group
Side group
Amino Group R N H
Carboxyl Group C OH O C C H H
Only 20 amino acids…
Each has different R group

10. Amino Acid Structure H R H OH N C C O H H 5 basic parts
1) Central C atom
2) Amino group (NH2)
3) H
4) Carboxyl group (COOH)
5) R group
Amino acid: Glycine H R H OH N C C O H H
Only 20 amino acids…
Each has different R group

11. Amino Acid Structure H C R H OH N C C O H H 5 basic parts
1) Central C atom
2) Amino group (NH2)
3) H
4) Carboxyl group (COOH)
5) R group
Amino acid: Alanine H C R H OH N C C O H H
Only 20 amino acids…
Each has different R group

12. Amino Acid Structure C H R H OH N C C O H H 5 basic parts
1) Central C atom
2) Amino group (NH2)
3) H
4) Carboxyl group (COOH)
5) R group R H OH N C C O H H
Only 20 amino acids…
Each has different R group
Amino acid: Valine

13. What differs between these 4 amino acids?
CH2 OH H C
differ C H C H OH O N C H OH O N
Same
Same
Same
Same
Serine
Alanine
differ H C H OH O N C H OH O N
Same
Same
Same
Same
Glycine
Valine

14. How do amino acids bond? R H OH N C C O R H2O H H OH H N C C O H H
Peptide bond O H H
Dehydration synthesis
Peptide Bonds: link amino acids to form a chain (polypeptide)
Polypeptide bends & folds based on R group attractions

15. How are proteins broken down?OH N C C R O H H
H2O OH H N C C O H H
Hydrolysis
Peptide bond is broken with help of water and enzymes
Occurs during the digestion of food

16. Enzymes Type of protein
amylase
glucose
glucose
glucose
glucose
glucose
glucose
glucose
glucose
Type of protein
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food

17. Enzymes H2O H H OH N C C H O H H H OH N C C H O H Type of protein
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)

18. Enzymes 98.6°F Types of proteins
amylase
glucose
glucose
glucose
glucose
Types of proteins
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)
Sensitive to pH, temp
ex: If high fever: enzymes lose ability to work

19. Enzymes 102.5°F Types of proteins
amylase
glucose
glucose
glucose
glucose
No chemical reaction
Types of proteins
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)
Sensitive to pH, temp
ex: If high fever: enzymes lose ability to work

20. Enzymes Types of proteins
amylase
glucose
glucose
glucose
glucose
Types of proteins
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)
Sensitive to pH, temp
ex: If high fever: enzymes lose ability to work
Very specific in actions
ex: Amylase: Breaks starch into simple sugars

21. Enzymes Types of proteins
amylase
fructose
fructose
glucose
glucose
No chemical reaction
Types of proteins
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)
Sensitive to pH, temp
ex: If high fever: enzymes lose ability to work
Very specific in actions
ex: Amylase: Breaks starch into simple sugars

22. Enzymes Types of proteins
amylase
glucose
glucose
glucose
glucose
Types of proteins
Enzyme: Lowers the energy needed to start a chemical reaction
Breaking down food
Build other proteins (dehydration synthesis)
Sensitive to pH, temp
ex: If high fever: enzymes lose ability to work
Very specific in actions
ex: Amylase: Breaks starch into simple sugars
Reusable

23. Review What are the smaller monomers that make proteins called?
How many different amino acids exist?
How are proteins different from polypeptides?
How does each amino acid differ?
The NH2 part of the amino acid is called the ____ group.
The COOH part of the amino acid is called the ____ group.
Which group of proteins help to start chemical reactions?
How is dehydration synthesis and hydrolysis different?