1. Genetics: A whole new look at “who’s who.”
Lesson 15: Protein Synthesis and Gene Regulation
Genetics: A whole new look at “who’s who.”

2. Central Dogma
From Gene to Protein

3. Bodies  Cells  DNA Bodies are made up of cells
All cells run on a set of instructions spelled out in DNA

4. Remember… A pairs with T A : T C pairs with G C : G
Bases match together
A pairs with T
A : T
C pairs with G
C : G
weak bonds between bases join 2 strands
can separate easily

5. What do we know? DNA Proteins
DNA is the genetic information
Proteins
proteins run living organisms
enzymes
all chemical reactions in living organisms are controlled by enzymes (proteins)
structure
all living organisms are built out of proteins
DNA is the instructions for making proteins

6. What else do we know? DNA Proteins
DNA is in the nucleus
want to keep it there = protected
“locked in the vault”
Proteins
made by a “protein factory” in cytoplasm
ribosomes
Need to get gene (DNA) information from nucleus to cytoplasm
need a messenger!
need a copy of DNA
mRNA
nucleus

7. DNA RNA G, C, A, T T : A C : G G, C, A, U U : A C : G
deoxyribose sugar
nitrogen bases
G, C, A, T
T = thymine
T : A
C : G
double stranded
ribose sugar
nitrogen bases
G, C, A, U
U = uracil
U : A
C : G
single stranded

8. From nucleus to cytoplasm
transcription
DNA
mRNA
protein
translation
trait
nucleus
cytoplasm

9. The problem with DNA… TOO BIG!
DNA (double helix) is too big to go through the pores in the nuclear envelope.
Just right.
RNA (single helix) is small.
DNA gives its information to mRNA (messenger RNA) to carry out of the nucleus.

10. DNA strand is the template (pattern)
TRANSCRIPTION
Making mRNA from DNA
DNA strand is the template (pattern)
match bases
U : A
G : C
Enzyme
RNA polymerase
mRNA

11. Making mRNA from DNA TRANSCRIPTION T G G T A C A G C T A G T C A T C GU U U U U T G G T A C A G C T A G T C A T C G T A C C G T

12. Double stranded DNA unzips
TRANSCRIPTION
Double stranded DNA unzips T G G T A C A G C T A G T C A T C G T A C C G T

13. Match free floating RNA bases to DNA bases on one of the DNA strands
TRANSCRIPTION A
Use RNA polymerase
Match free floating RNA bases to DNA bases on one of the DNA strands C U G A G U G U C U G C A A C U A A G C
RNA
polymerase U A G A C C T G G T A C A G C T A G T C A T C G T A C C G T

14. U instead of T is matched to A
TRANSCRIPTION
U instead of T is matched to A T A C G l I U
DNA
mRNA

15. What do we know NOW? DNA mRNA Proteins What reads RNA?
instructions remain in nucleus
mRNA
has the instructions for building proteins from DNA
Proteins
built as chains of amino acids
What reads RNA?
need a mRNA reader!
ribosome U C A G aa
Flash: Central Dogma Transcription

16. mRNA leaves nucleus through nuclear pores
From gene to protein
CELL
cytoplasm
Protein
Trait aa aa
Transcription aa
DNA aa
Translation aa
mRNA aa aa
nucleus
ribosome U C A G
mRNA leaves nucleus through nuclear pores
Ribosomes synthesize amino acids to make a protein using instructions on mRNA

17. What do we ALSO know now? mRNA Proteins What reads mRNA?
ribosome U C A G aa
mRNA
has the instructions for building proteins from DNA
Proteins
built as chains of amino acids
What reads mRNA?
ribosome
What brings the right amino acid to attach to the protein chain?
need an amino acid transporter!

18. From gene to protein Protein Trait DNA mRNA CELL cytoplasmaa aa
Transcription aa
DNA aa
Translation aa
mRNA aa
nucleus
ribosome U C A G aa
tRNA
tRNA carries the correct
amino acid (based on the mRNAcode) to the ribosome.

19. How does tRNA know which amino acid to bring?
When mRNA leaves nucleus it has a blueprint of DNA’s instructions.
mRNA goes to ribosomes in cytoplasm
Ribosomes read the blueprint on mRNA.
mRNA
ribosome A C C A U G U C G A U C A G U A G C A U G G C A aa aa aa aa aa aa aa aa

20. TACGCACATTTACGTACGCGG
Using the blueprints…
TACGCACATTTACGTACGCGG
DNA
mRNA
AUGCGUGUAAAUGCAUGCGCC ?
Met Arg Val Asn Ala Cys Ala
protein
How can you code for 20 amino acids with only 4 nucleotide bases (A,U,G,C)?

21. mRNA codes for proteins in triplets
TACGCACATTTACGTACGCGG
DNA
Codon = set of 3 bases
mRNA
AUGCGUGUAAAUGCAUGCGCC
ribosome
AUGCGUGUAAAUGCAUGCGCC ?
UAC
Anticodon = set of 3 bases
Met Arg Val Asn Ala Cys Ala
Amino acid

22. The code is UNIVERSAL! AUG Since all living organisms…
use the same DNA
use the same code book
read their genes the same way

23. The mRNA code For ALL life! Code is redundant Start codon Stop codons
Uses only 4 bases for ALL life. (strongest support for a common origin for all life)
Code is redundant
several codons for each amino acid
mutation insurance!
Start codon
AUG
methionine
Stop codons
UGA, UAA, UAG
Strong evidence for a single origin in evolutionary theory.

24. TACGCACATTTACGTACGCGG AUGCGUGUAAAUGCAUGCGCC
mRNA
DNA
AUGCGUGUAAAUGCAUGCGCC
tRNA
Ser
tRNA
Met
Pro
Ala
Met
Leu
Val

25. A different view of PROTEIN SYNTHESIS

26. DNA transcription mRNA ribosome translation
amino acids
mRNA
Can you tell the story?
protein
ribosome
tRNA
translation

27. Gene Regulation…Keeping Control!
Every species has its own number of chromosomes in each cell.
Organism
Number of Chromosomes
Cat 32
Chimpanzee 48
Dog 78
Cow 60
Human 46
Horse 64
Pea plant 14
Corn plant 20
Mosquito 6
Honeybee
Sugarcane 80
Sand dollar 62
Notice:
More is not always better... Sometimes it’s just more.

28. Remember…a section on a chromosome that codes for a specific trait is called a GENE.
And…
There are lots and lots of genes on each chromosome!
The job of a gene is to control the production of proteins.

29. Not every gene is expressed at the same time.
Gene Regulation = what controls when a gene is turned on or turned off (expressed).
In bacteria, genes are in groups called Operons.
Example: E. coli that’s in our digestive system helps us break down milk.
Each Operon codes for a specific protein.

30. Lac operon Has to have a CAP to start. Are You Lactose Intolerant?
Here’s how we metabolize milk…
Can NOT have a Repressor.
Lac operon

31. Some questions ask you to INFER the meaning of a term
Some questions ask you to INFER the meaning of a term. If you cannot recall its meaning try to figure out how the word is used outside of science.
Example:
Regulation
TEST
TIPS