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Mutations. Whth appensw henp roteins ynthesisg oesw rong? A mutation is a change in the original DNA sequence, which may lead to a change in the amino.

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Presentation on theme: "Mutations. Whth appensw henp roteins ynthesisg oesw rong? A mutation is a change in the original DNA sequence, which may lead to a change in the amino."— Presentation transcript:

1 Mutations

2 Whth appensw henp roteins ynthesisg oesw rong? A mutation is a change in the original DNA sequence, which may lead to a change in the amino acid sequence.

3 Whth appensw henp roteins ynthesisg oesw rong? A mutation occurs when the original DNA sequence is not copied properly during replication or protein synthesis.

4 Whth appensw henp roteins ynthesisg oesw rong? Mutations can be spontaneous or caused by radiation and/or chemical exposure.

5 Whth appensw henp roteins ynthesisg oesw rong? The result of a mutation is a change in the amino acid sequence.

6 Whth appensw henp roteins ynthesisg oesw rong? The necessary protein may not be made or is defective. This can change the traits of the cell or organism. Only mutations in sex cells (egg or sperm) or in the gamete can result in heritable changes. The necessary protein may not be made or is defective. This can change the traits of the cell or organism. Only mutations in sex cells (egg or sperm) or in the gamete can result in heritable changes.

7 Fill It In … Why does a change in DNA mean a change in the protein could happen?

8 There are 2 types of gene mutations: 1. Point (or substitution) mutations occur when a single base is replaced with a different base. (For example, A is replaced by C.) Ex. GATTACA --> GAGTACA 1. Point (or substitution) mutations occur when a single base is replaced with a different base. (For example, A is replaced by C.) Ex. GATTACA --> GAGTACA Blame it on the DNA

9 There are 2 types of gene mutations: A point mutation, if it occurs on a gene, may result in the change of a single amino acid within the protein. Sickle cell anemia, a disease that results in misshapen red blood cells, is caused by a point mutation. A point mutation, if it occurs on a gene, may result in the change of a single amino acid within the protein. Sickle cell anemia, a disease that results in misshapen red blood cells, is caused by a point mutation.

10 There are 2 types of gene mutations: 2. Frameshift mutations occur when a single base is added (addition frameshift) or deleted (deletion frameshift) within the sequence.

11 There are 2 types of gene mutations: Because DNA and the mRNA copy are read three bases (a codon) at a time, this type of mutation “shifts” the reading frame. Ex. GAT/TAC/ATT --> GAT/TAA/CAT/T Because DNA and the mRNA copy are read three bases (a codon) at a time, this type of mutation “shifts” the reading frame. Ex. GAT/TAC/ATT --> GAT/TAA/CAT/T

12 There are 2 types of gene mutations: The effect of a frameshift depends on the location of the addition or deletion. The earlier within the gene sequence the base is added or deleted, the more amino acids will be changed. The effect of a frameshift depends on the location of the addition or deletion. The earlier within the gene sequence the base is added or deleted, the more amino acids will be changed.

13 There are 2 types of gene mutations: Huntington’s Disease, a disease that results in the progressive loss of nervous system function, may be caused by the insertion of several bases.

14 Fill It In … Compare/Contrast point and frameshift mutations using a Venn or T-chart:

15 Check Yourself! 1.Define mutation. 2.What is the result of a mutation? 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids? 1.Define mutation. 2.What is the result of a mutation? 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids?

16 Check Yourself! 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids? 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids?

17 Check Yourself! 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids? 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids?

18 Check Yourself! 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids? 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? 5.Which type of mutation may affect a greater number of amino acids?

19 Check Yourself! 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? FRAMESHIFT (DELETION) 5.Which type of mutation may affect a greater number of amino acids? 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? FRAMESHIFT (DELETION) 5.Which type of mutation may affect a greater number of amino acids?

20 Check Yourself! 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? FRAMESHIFT (DELETION) 5.Which type of mutation may affect a greater number of amino acids? FRAMESHIFT 1.Define mutation. A CHANGE IN DNA SEQUENCE 2.What is the result of a mutation? A CHANGE IN AMINO ACID SEQUENCE 3.What are the two types of mutation? POINT (OR SUBSTITUTION) AND FRAMESHIFT 4.What type of mutation is illustrated in the title of this section of notes (IV)? FRAMESHIFT (DELETION) 5.Which type of mutation may affect a greater number of amino acids? FRAMESHIFT

21 Lactose Tolerance

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