1 / 19

Mistakes in the code

Mistakes in the code. Review:. What does DNA look like? How is DNA made? How does DNA instruct the cell to make proteins? What determines the order of amino acids in a protein? What happens if you change an amino acid in the sequence of a particular protein? Why?. Mutations.

morley
Télécharger la présentation

Mistakes in the code

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Mistakes in the code

  2. Review: • What does DNA look like? • How is DNA made? • How does DNA instruct the cell to make proteins? • What determines the order of amino acids in a protein? • What happens if you change an amino acid in the sequence of a particular protein? • Why?

  3. Mutations Mutation- a change in the DNA nucleotide sequence Mutations can be silent (have no effect), cause subtle, or dramatic effects on observed traits in individuals

  4. Observed trait DNA mRNA protein translation protein function ( ex. enzyme activity) transcription How does your DNA determine your traits? Remember: Traits are determined by the functions of proteins Protein function is determined by protein shape Protein shape is determined by amino acid sequence

  5. Mutations can change the amino acid sequences of proteins DNA sequence: T A C C G A G A T T C A mRNA sequence: A U GG C UC U AA G U amino acid sequence: Met -- Ala -- Leu -- Ser DNA sequence: T A C C G A G A T T C A mRNA sequence: A U GG C UA U AA G U amino acid sequence: Met -- Ala -- Iso -- Ser T

  6. How does this mutation change the amino acid sequence? (Original) DNA sequence: A A T G C A T A T G C A mRNA sequence: U U AC G UA U AC G U amino acid sequence: Leu -- Arg -- Ile -- Arg (Mutated) DNA sequence: A A T T C A T A T G C A mRNA sequence: U U AA G UA U AC G U amino acid sequence: Leu -- Ser -- Ile -- Arg

  7. 3 types of mutations Substitution Insertion Deletion T T A C C G A G A T T C A Substituting one nucleotide for another. T A C C G A T G A T T C A Inserting one or more nucleotides T A C C G A G A T T C A Deleting one or more nucleotides

  8. Your Turn • Complete the “Mutations practice” worksheet. You will learn how some mutations can affect the amino acid sequence of proteins • Consider how severe of an effect each mutation would have on the ability of the protein to function.

  9. Questions • Which type of mutations had the biggest effect on the protein sequence? WHY? • Which type of mutations had the smallest effect on the protein sequence? WHY? • Which examples would you predict to have the biggest effects on a trait? WHY? • Which examples would you predict to have the smallest effects on a trait? WHY? • What is a possible explanation for the occurrence of these mutations?

  10. Different types of mutations happen Substitution Insertion Deletion T T A C C G A G A T T C A T A C C G A T G A T T C A T A C C G A G A T T C A

  11. Frameshift mutations • One or more than one nucleotide can be added or deleted with insertion and deletion mutations. • If the number of nucleotides is not a multiple of 3, it is called a frameshift mutation. • Why do we call this a frameshift mutation? • Can substitution mutations cause frameshifts? Explain why or why not.

  12. Consequences of mutations… • As a result of mutations, small differences exist between 2 organisms DNA sequences!

  13. How much variation in DNA exists between 2 people? Hemoglobin (beta) gene sequence from person A

  14. How much variation in DNA exists between 2 people? Hemoglobin (beta) gene sequence from person B

  15. How much variation in DNA exists between 2 people? • About 1 in every 1,000 nucleotides is different between 2 people • (0.1% difference means 99.9% identical) • We have about 3 billion nucleotides in all, so that means there are about 3 million nucleotide differences between 2 people

  16. What is the observed effect of mutations? • No Effect (think about it: are there 3 million differences between 2 people?) • Why? • Some mutations code for the same amino acid • Most mutations are in sequences of DNA between genes. • Variation – For any trait in a population there is variation within that trait as a result of small sequence differences (DNA Amino Acids)

  17. Genetic diseases • Most changes are harmless, but some can cause specific diseases. • One way to determine whether a disease is inheritable is to trace the family history of a disease by creating a type of family tree called a pedigree. • One inheritable disease caused by a specific substitution (or “point”) mutation is sickle cell anemia.

  18. Questions • Mitosis and Meiosis are about replicating the DNA. Mistakes in these processes can cause permanent changes in the DNA. • Can you inherit mistakes in either of these processes? Why/why not? Q. We’ve studied transcription, translation, and replication. A mistake in which of these processes would result in a permanent mutation?

  19. Mistakes can be inherited • If a mutation in sperm or egg DNA is not corrected, the new sequence of DNA is passed on to offspring. • Over generations, mutations accumulate and species can slowly change their appearance.

More Related