1. Life substances-part 2

2. Proteins: contain C, H, O,N, & sometimes S
Multipurpose molecules

3. Proteins Function: many, many functions hormones movement
signals from one body system to another
insulin
movement
muscle
immune system
protect against germs
enzymes
help chemical reactions

4. Proteins Examples muscle skin, hair, fingernails, claws pepsin insulin
collagen, keratin
pepsin
digestive enzyme in stomach
insulin
hormone that controls blood sugar levels
pepsin
collagen (skin)

5. Proteins —N— H | —C— C—OH || O amino acids – Building block =
20 different amino acids
There’s 20 of us…
like 20 different letters in an alphabet! Can make lots of different words
—N— H |
—C—
C—OH || O
variable group

6. Proteins —N— H | —C— C—OH || O amino acids – Building block =
20 different amino acids
There’s 20 of us…
like 20 different letters in an alphabet! Can make lots of different words
—N— H |
—C—
C—OH || O
variable group

7. Amino acid chains Each amino acid is different Proteins
amino acids chained into a polymer
amino acid
Each amino acid is different
some “like” water & dissolve in it
some “fear” water & separate from it

8. Amino acids can be linked by peptide bonds
Cells link amino acids together by dehydration synthesis
The bonds between amino acid monomers are called peptide bonds
PEPTIDE BOND
Dehydration synthesis
Dipeptide
Amino acid
Amino acid

9. For proteins: SHAPE matters!
Proteins fold & twist into 3-D shape
that’s what happens in the cell!
Different shapes = different jobs
growth hormone
hemoglobin
pepsin
collagen

10. It’s SHAPE that matters!
Proteins do their jobs, because of their shape
Unfolding a protein destroys its shape
wrong shape = can’t do its job
unfolding proteins = “denature”
temperature pH
unfolded “denatured”
In Biology,
it’s not the size,
it’s the SHAPE that matters!
folded

11. Enzymes (SEE SEPARATE LECTURE.)
Enzymes are important proteins found in living things. An enzyme is a protein that speeds up the rate of a chemical reaction.
(SEE SEPARATE LECTURE.)

12. Nucleic acids
A nucleic (noo KLAY ihk) acid is a complex biomolecule that stores cellular information in the form of a code.
1. DNA (deoxyribonucleic acid) contains the instructions used to form all of an organism’s proteins.
2. RNA (ribonucleic acid) forms a copy of DNA for use in making proteins.
They ultimately control the life of a cell

13. Nucleic Acids Function: genetic material stores information
genes
blueprint for building proteins
DNA  RNA  proteins
transfers information
blueprint for new cells
blueprint for next generation
DNA
proteins

14. Nucleic acids 5 different nucleotides nucleotides Building block =
nucleotide – nucleotide – nucleotide – nucleotide
5 different nucleotides
different nitrogen bases
A, T, C, G, U
Nitrogen bases I’m the A,T,C,G or U part!
phosphate
sugar
N base

15. Nucleotide chains Nucleic acids nucleotides chained into a polymer
phosphate
sugar
N base
Nucleic acids
nucleotides chained into a polymer
DNA
double-sided
double helix
A, C, G, T
RNA
single-sided
A, C, G, U
phosphate
sugar
N base
strong bonds
phosphate
sugar
N base
phosphate
sugar
N base
RNA

16. DNA Double strand twists into a double helix A pairs with T A :: T
Weak hydrogen bonds between nitrogen bases join the 2 strands
A pairs with T
A :: T
C pairs with G
C :: G
the two strands can separate when our cells need to make copies of it
weak hydrogenbonds
It’s a helix or B sheet within a single region. Can have both in one protein but a specific region is one or another