Presentation is loading. Please wait.

Presentation is loading. Please wait.

WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene.

Published byDomenic Nelson Modified over 9 years ago

Similar presentations

Presentation on theme: "WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene."— Presentation transcript:

1

2 WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene. Telematics for N-Cape by C G Oppelt & L Kuun 2

3  MISTAKES……… when?  Replication  Crossing over  Meiosis Telematics for N-Cape by C G Oppelt & L Kuun 3

4 MUTATIONS IN REPLICATION OCCUR THROUGH ONE OF TWO PROCESSES: Mistakes that occur when a cell copies its DNA in preparation for cell division. http://learn.genetics.utah.edu/archive/sloozeworm/mutationbg.html Telematics for N-Cape by C G Oppelt & L Kuun 4

5 MUTATIONS FROM ENVIRONMENTAL AGENTS OCCUR THROUGH ONE OF TWO PROCESSES: DNA damage from environmental agents such as ultraviolet light (sunshine), nuclear radiation or certain chemicals EFFECT? A protein that functions differently Telematics for N-Cape by C G Oppelt & L Kuun 5

6 MUTATIONS – any change in the genetic composition of an organism Telematics for N-Cape by C G Oppelt & L Kuun 6

7 Like words in a sentence, the DNA sequence of each gene determines the amino acid sequence for the protein it encodes. Thesunwashotbuttheoldmandidnotgethi shat. = GENE The sun was hot but the old man did not get his hat. Telematics for N-Cape by C G Oppelt & L Kuun 7

8  The DNA sequence is interpreted in groups of three nucleotide bases, called codons. Each codon specifies a single amino acid in a protein. triplet amino acid Telematics for N-Cape by C G Oppelt & L Kuun 8

9 SOURCES OF GENOTYPIC VARIATION Meiosis ReproductionMutations Crossing over during phase Prophase Random arrangement of chromosomes during phase Metaphase Fusion of many types of sperm cells and egg cells can produce many different types of offspring Gene mutations Alteration in the sequence of nitrogenous bases on DNA Chromosome mutations Extra chromosomes added  One or more sets of chromosomes are added (a)Lethal: the mutated organism dies and the harmful characteristics are not passed on to the next generation (b) Neutral: has no effect on the structure and functioning of the organism (c) Fixed: advantageous/sometimes the advantageous mutation wipes out all the other alleles controlling the same characteristic within the population Outbreeding Telematics for N-Cape by C G Oppelt & L Kuun 9

10 Outbreeding  /Gene flow Random assortment  /segregation/ recombination of chromosomes during meiosis in the formation of gametes OR meiosis  Crossing over  Chance/random fertilisation of gametes  /sexual reproduction Mutation  Telematics for N-Cape by C G Oppelt & L Kuun 10

11  Mutations Molecular – changes gene: lethal, neutral, established/fixed Cellular – change to karyotype. Telematics for N-Cape by C G Oppelt & L Kuun 11

12 Telematics for N-Cape by C G Oppelt & L Kuun 12

13 Telematics for N-Cape by C G Oppelt & L Kuun 13

14 1. POINT MUTATION Telematics for N-Cape by C G Oppelt & L Kuun 14

15 Telematics for N-Cape by C G Oppelt & L Kuun 15 EACH WORD BELOW REPRESENTS A CODON AUG GAA GCU UGC CUG AAA EACH CODON CODES FOR AN AMINO ACID Met Glu Ala Sis Leu Gly

16 Telematics for N-Cape by C G Oppelt & L Kuun 16 ONE AMINO ACID WILL CHANGE

17 POINT MUTATION: INVERTION Telematics for N-Cape by C G Oppelt & L Kuun 17

18 Telematics for N-Cape by C G Oppelt & L Kuun 18 ONE AMINO ACID WILL CHANGE

19 Telematics for N-Cape by C G Oppelt & L Kuun 19

20 Telematics for N-Cape by C G Oppelt & L Kuun 20

21 Telematics for N-Cape by C G Oppelt & L Kuun 21

22 Telematics for N-Cape by C G Oppelt & L Kuun 22

23 Telematics for N-Cape by C G Oppelt & L Kuun 23

24 24 Telematics for N-Cape by C G Oppelt & L Kuun

25 Trisomy 21  Chromosomes of homologous pair 21 do not separate during meiosis  One gamete (♀) may have two chromosomes for chromosome 21 and the other (♀) does not have a chromosome 21. Telematics for N-Cape by C G Oppelt & L Kuun 25

26  Fertilisation: 2 x 21 (♀) + 1 x 21 (♂) = 3 x chromosomes 21  Extra chromosome 21 (trisomy) - baby  This process is called non- disjunction (failure to separate ) Telematics for N-Cape by C G Oppelt & L Kuun 26 +

27 Telematics for N-Cape by C G Oppelt & L Kuun 27

28 28 Homologous chromosomes do NOT separate – Anaphase I Chromatids of single chromosomes do NOT separate – Anaphase II Telematics for N-Cape by C G Oppelt & L Kuun

29 29 3 x chromosome 21- trisomy Telematics for N-Cape by C G Oppelt & L Kuun

30 30 3 sex chromosomes – XXY Trisomy - XXY

31 Telematics for N-Cape by C G Oppelt & L Kuun 31 female has 1 X chromosome – monosomy Monosomy - X0

32 HOW DOES THIS OCCUR? Telematics for N-Cape by C G Oppelt & L Kuun 32  During Meiosis I, a homologous pair on chromosome pair number 21  did not separate / During Meiosis II a chromosome did not separate  As a result of non-disjunction during Anaphase I/ Anaphase II  And resulted in an extra chromosome /3 chromosomes  On chromosome pair number 21  Known as Trisomy 21/ Down Syndrome

Download ppt "WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene."

Similar presentations

Meiosis Past Paper Questions.

Meiosis Past Paper Questions.
How many chromosomes do humans have?

How many chromosomes do humans have?
Sexual Reproduction and Meiosis

Sexual Reproduction and Meiosis
Meiosis with Mitosis Review and Comparison (Chapters 8 and 10)

Meiosis with Mitosis Review and Comparison (Chapters 8 and 10)
12.4 MUTATIONS I. Kinds of Mutations

12.4 MUTATIONS I. Kinds of Mutations
Genes and Chromosomes. DNA: The Molecule of Heredity Scientists have found that the substance Deoxyribosenucleic Acid (DNA), contained in chromosomes,

Genes and Chromosomes. DNA: The Molecule of Heredity Scientists have found that the substance Deoxyribosenucleic Acid (DNA), contained in chromosomes,
5B Sexual Reproduction and Meiotic Cell Division

5B Sexual Reproduction and Meiotic Cell Division
Meiosis. II. What is meiosis? Meiosis is a process in which the number of chromosomes per cell is cut in half through the separation of homologous chromosomes.

Meiosis. II. What is meiosis? Meiosis is a process in which the number of chromosomes per cell is cut in half through the separation of homologous chromosomes.
WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene.

WHAT IS A MUTATION?  A mutation is a permanent change in the DNA sequence of a gene. Alters the amino acid sequence of the protein encoded by the gene.
12-4 Mutations Mutation: A Change in DNA Mutation – any change in the DNA sequence that can also change the protein it codes for Mutations in Reproductive.

12-4 Mutations Mutation: A Change in DNA Mutation – any change in the DNA sequence that can also change the protein it codes for Mutations in Reproductive.
The Continuation of Life

The Continuation of Life
Meiosis & Sexual Reproduction.

Meiosis & Sexual Reproduction.
CHAPTER 8 Cellular Reproduction: Cells from Cells – Part Two.

CHAPTER 8 Cellular Reproduction: Cells from Cells – Part Two.
Chromosomes Boogie. Chromosome Condensed form of chromatin A threadlike structure of nucleic acids and protein Always paired with an identical copy of.

Chromosomes Boogie. Chromosome Condensed form of chromatin A threadlike structure of nucleic acids and protein Always paired with an identical copy of.
Meiosis Review Chapter 11.

Meiosis Review Chapter 11.
Meiosis Chapter 11.4 Objectives Describe how homologous chromosomes are alike and how they differ Contrast haploid and diploid cells Summarize the process.

Meiosis Chapter 11.4 Objectives Describe how homologous chromosomes are alike and how they differ Contrast haploid and diploid cells Summarize the process.
10.1 Meiosis Learning Targets: Describe chromosomes in the phases of meiosis. Outline chiasmata in crossing over. Explain how meiosis results in genetic.

10.1 Meiosis Learning Targets: Describe chromosomes in the phases of meiosis. Outline chiasmata in crossing over. Explain how meiosis results in genetic.
10.2 MEIOSIS Martin 2022. GENES, CHROMOSOMES, AND NUMBERS A. Dipolid and Haploid Cells: ▫Diploid Cells: cell that have two of each kind of chromosome.

10.2 MEIOSIS Martin GENES, CHROMOSOMES, AND NUMBERS A. Dipolid and Haploid Cells: ▫Diploid Cells: cell that have two of each kind of chromosome.
Meiosis: the creation of sex cells. Meiosis defined The production of gametes (sperm and eggs) by dividing the genetic material in half.The production.

Meiosis: the creation of sex cells. Meiosis defined The production of gametes (sperm and eggs) by dividing the genetic material in half.The production.
With your host…Ms. Turner! Meiosis, Karyotypes, Non- disjunction, Fertilization, & Differentitation Test Review.

With your host…Ms. Turner! Meiosis, Karyotypes, Non- disjunction, Fertilization, & Differentitation Test Review.

Similar presentations

Ads by Google