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Today: How do genes work?

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Today: How do genes work? Discussions begin/began this week. DNA Composition: In humans: Each cell contains ~6 billion nucleotides of DNA. This DNA is ~2 meters long ... – PowerPoint PPT presentation

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Title: Today: How do genes work?


1
Today How do genes work? Discussions
begin/began this week.
2
Fig 15.3
Information flow in cells
Protein
3
Fig 4.6, .7
Chains of DNA can store information
Each chain of DNA is made of individual units
nucleotides
4
Fig 3.8
  • Proteins are the doers of the cell.
  • They act as
  • Enzymes
  • Structural Support
  • Transporters
  • Signals

Proteins are a string of amino acids
5
Tbl 3.3
Amino acids connect together to make proteins.
6
The relationship between DNA and genes
a gene - DNA used to produce RNA or protein
promoter
coding region
terminator
non-gene DNA
7
DNA Composition
  • In humans
  • Each cell contains 6 billion nucleotides of DNA.
  • This DNA is 2 meters long and 2 nm wide.
  • 98 does not directly code for amino acids
  • In a single human cell only about 3-5 of genes
    are expressed at a time.

8
DNA Composition
  • In humans
  • Each cell contains 6 billion base pairs of DNA.
  • This DNA is 2 meters long and 2 nm wide.
  • 1.5 directly codes for amino acids
  • 25 is genes
  • In a single human cell only about 5-10 of genes
    are expressed at a time.

9
The relationship between DNA and genes
a gene - DNA used to produce RNA or protein
promoter
coding region
terminator
non-gene DNA
10
  • Five Perspectives about Genes
  • Genes act as units of heredity
  • Genes are seen as a cause of disease
  • Genes code for proteins
  • Genes act as switches, controlling development
  • Genes are replicators (selfish gene)

11
Fig 14.2
Visualizing the perspectives about genes
Different strains of bacteria are injected into
mice.
12
Visualizing the perspectives about genes
Fig 14.2
13
Fig 14.2
Visualizing the perspectives about genes
14
Fig 14.2
Visualizing the perspectives about genes
What has happened to the bacteria?
15
  • What part of the cell contains/transfers the
    information?

Fig 14.3
16
Fig 14.2
Visualizing the perspectives about genes
  1. Genes act as units of heredity
  2. Genes are seen as a cause of disease
  3. Genes code for proteins
  4. Genes act as switches, controlling development
  5. Genes are replicators (selfish gene)

17
Fig 14.7
In cells, DNA is a double-stranded helix
18
  • Five Definitions of Genes
  • Genes act as units of heredity
  • Genes are seen as a cause of disease
  • Genes code for proteins
  • Genes act as switches, controlling development
  • Genes are replicators (selfish gene)

19
20 amino acids in proteins
4 nucleotides in DNA
?
20
Fig 15.6
How can 4 nucleotides code for 20 amino
acids? If Ratio (nucleotideamino
acid) Possible combinations 11 41 4
21
Fig 15.6
How can 4 nucleotides code for 20 amino
acids? If Ratio (nucleotideamino
acid) Possible combinations 11 41 4 21
42 16
22
Fig 15.6
How can 4 nucleotides code for 20 amino
acids? If Ratio (nucleotideamino
acid) Possible combinations 11 41 4 21
42 16 31 43 64
23
Fig 15.6
  • How can 4 nucleotides code for 20 amino acids?
  • If
  • Ratio
  • (nucleotideamino acid) Possible combinations
  • 11 41 4
  • 21 42 16
  • 31 43 64
  • There are more possible combinations than amino
    acids.

24
Combinations of 3 nucleotides code for each 1
amino acid in a protein.
25
Fig 15.8
the Genetic Code
26
Fig 16.21
Changes in DNA can change the protein
27
Fig 16.21
Changes in DNA can change the protein
28
The fat cat ate the rat.
change one letter
The zat cat ate the rat.
29
The fat cat ate the rat.
change one letter
The zat cat ate the rat.
delete one letter
The atc ata tet her at.
30
Combinations of 3 nucleotides code for each 1
amino acid in a protein.
31
Fig 16.10
How is DNA used to make proteins and RNA?
Both proteins and RNA are involved in the
processes.
Protein
32
Differences between DNA and RNA
Fig 4.1
33
Fig 16.10
How is DNA used to make proteins and RNA?
Both proteins and RNA are involved in the
processes.
Protein
34
Fig 16.10
Genes act as switches. The information in genes
is what to make and when to make it.
Protein
35
Genes have three basic parts
a gene
promoter
coding region
terminator
non-gene DNA
36
Fig 16.10
Genes contain the information to make RNA and/or
proteins. Genes act as switches. The
information in genes is what to make and when to
make it.
Protein
37
Fig 11.1
For life to exist, the information (genes) must
be passed on.
1. Genes act as units of heredity 5. Genes are
replicators (selfish gene)
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