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Genetics and its history with gregor mendel law

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manoj Joshi

Genetics and its history with gregor mendel law

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Dr. Manoj Joshi
What is genetics ? The branch of biology that deals with heredity, especially the mechanism s of hereditary transmission andthe variation of inherited characteristics among similar or related organisms. People have known about inheritance for a long time by . • Children resemble their parents • Domestication of animals and plants, selective breeding for good characteristics • Sumerian horse breeding records • Egyptian data palm breeding • Bible and hemophilia
Old Ideas  Despite knowing about inheritance in general, a number of incorrect ideas had to be generated and overcome before modern genetics could arise. 1. All life comes from other life. Living organisms are not spontaneously generated from non-living material. (Big exception: origin of life.) 2. Species concept: offspring arise only when two members of the same species mate. Monstrous hybrids don’t exist. 3. Organisms develop by expressing information carried in their hereditary material. 4. The environment can’t alter the hereditary material in a directed fashion.
Mid 1800’s Discoveries  Three major events in the mid-1800’s led directly to the development of modern genetics. 1. 1859: Charles Darwin publishes The Origin of Species, which describes the theory of evolution by natural selection. This theory requires heredity to work. 2. 1866: Gregor Mendel publishes Experiments in Plant Hybridization, which lays out the basic theory of genetics. It is widely ignored until 1900. 3. 1871: Friedrich Miescher isolates “nucleic acid” from pus cells.
Major Events in the 20th Century  1900: rediscovery of Mendel’s work by Robert Correns, Hugo de Vries, and Erich von Tschermak .  1902: Archibald Garrod discovers that alkaptonuria, a human disease, has a genetic basis.  1904: Gregory Bateson discovers linkage between genes. Also coins the word “genetics”.  1910: Thomas Hunt Morgan proves that genes are located on the chromosomes (using Drosophila).  1918: R. A. Fisher begins the study of quantitative genetics by partitioning phenotypic variance into a genetic and an environmental component.
 1926: Hermann J. Muller shows that X-rays induce mutations.  1944: Oswald Avery, Colin MacLeod and Maclyn McCarty show that DNA can transform bacteria, demonstrating that DNA is the hereditary material.  1953: James Watson and Francis Crick determine the structure of the DNA molecule, which leads directly to knowledge of how it replicates  1966: Marshall Nirenberg solves the genetic code, showing that 3 DNA bases code for one amino acid.  1972: Stanley Cohen and Herbert Boyer combine DNA from two different species in vitro, then transform it into bacterial cells: first DNA cloning.  2001: Sequence of the entire human genome is announced.
1953 James Watson and Francis Crick publish the double helix model for DNA’s chemical structure 1860s Mendel’s work on peas allows the conclusion that traits are inherited through discrete units passed from one generation to the next 1870s Friedrich Miescher describes nucleic acids 1910 Thomas Morgan’s work on fruitflies demonstrates that genes lie on chromosomes 1940s Barbara McClintock describes mobile genetic elements in maize 1958 Crick proposes the ‘central dogma’ for biological information flow: that DNA makes RNA makes protein 1909 The word ‘gene’ coined by Danish botanist Wilhelm Johannsen 1944 Oswald Avery shows in bacteria that nucleic acids are the ‘transforming principle’ 1977 Phillip Sharp and Richard Roberts find that protein-coding genes are carried in segments 2001 initial results from the Human Genome Project published Genetics – history and key concepts…
3 Laws from the 1860’s
 Principles of genetics were developed in the mid 19th century by Gregor Mendel an Austrian Monk.  Gregor developed these principles without ANY scientific equipment - only his mind!  Gregor experimented with pea plants, by crossing various strains and observing the characteristics of their offspring.
History cont… Studied the following characteristics: Pea color (Green, yellow) Pea shape (round, wrinkled)  Pea shape (round, wrinkled) Flower color (purple, white) Plant height (tall, short)
Law of Dominance  Every gene has two alleles that can code for a trait.  One allele is dominant, meaning it will always show.  One allele is recessive, meaning it will be masked by the presence of the dominant allele.  Hybrids will always show the dominant phenotype. Ex: PP = purple pp = white Pp = purple
Mendelian Genetics … TECHNIQUE EXPERIMENT Mendel crossed two pure strains of pea plants with purple and white flowers and discovered that the first filial generation were all purple
Law of Segregation  Mendel arrived at this conclusion by performing monohybrid crosses.  These were cross-pollination experiments with pea plants that differed in one trait, for example height of pea plant.  The alleles for a trait separate when gametes are formed. These alleles can then randomly united at fertilization. Anaphase I of Meiosis Anaphase II of Meiosis
Mendelian Genetics – 3:1 ratios … Traits must come in discrete units – now called genes
Mendelian Genetics in humans … 1st generation (grandparents) 2nd generation (parents, aunts, and uncles) 3rd generation (two sisters) Widow’s peak No widow’s peak A dominant Mendelian trait Ww ww Ww Wwww ww ww wwWw Ww wwWW Ww or Attached earlobe 1st generation (grandparents) 2nd generation (parents, aunts, and uncles) 3rd generation (two sisters) Free earlobe A recessive Mendelian trait Ff Ff Ff Ff Ff ff Ff ff ff ff ff FF/ or FF Ff Many Mendelian traits – some cause disease e.g. cystic fibrosis
Law of Independent Assortment  Mendel began to wonder what would happen if he studied plants that differed in two traits (dihybrid).  Data showed that traits produced by dominant factors do not have to appear together in offspring.  Ex: A green seed pod (dominant) could appear in a white-flowering pea plant (recessive).  In other words, dominant traits don’t have to travel together when traits are passed from parents to offspring.  Mendel’s law of independent assortment applies only to traits carried on different chromosomes, i.e.unlinked genes  independent assortment occurs as a result of the alignment of homologues during metaphase I, determining which maternal and paternal chromosomes assort to each daughter cell  each pair of alleles separates independently of every other pair of unlinked alleles during gamete formation
Dihybrid Crosses: a cross that shows the possible offspring for two traits Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth BbRr x BbRr BR bR br bR Br BR brBr Then, find the possible genotypes of the offspring
Dihybrid Crosses: a cross that shows the possible offspring for two traits Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth BbRr x BbRr BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr
BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr How many of the offspring would have a black, rough coat? How many of the offspring would have a black, smooth coat? How many of the offspring would have a white, rough coat? How many of the offspring would have a white, smooth coat? Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth
BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr How many of the offspring would have black, rough coat? How many of the offspring would have a black, smooth coat? How many of the offspring would have a white, rough coat? How many of the offspring would have a white, smooth coat? Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth Phenotypic Ratio 9:3:3:1
More Practice…  On the back of your notes… In pea plants, yellow seeds (Y) are dominant over green seeds (y), and rounded peas (R) are dominant over wrinkled peas (r). Cross a plant that is heterozygous for both traits with a plant that is homozygous recessive for both traits. Draw a Punnett square to show all possible offspring, and determine the genotypic and phenotypic ratios.
YyRr X yyrr YR yR yr yr yr yr yrYr YyRr yyRr yyrr YyRr Yyrr yyRr yyrr YyRr Yyrr yyRr yyrr YyRr Yyrr yyRr yyrr Yyrr
Non-Mendelian inheritance… Inheritance of traits (phenotypes) is often more complex than predicted by simple Mendelian genetics  Polygenic traits - those determined by more than one gene, vary in the population along a continuum o The sum of the effects of all the genes that contribute to the phenotype (e.g. height, skin colour)  Multifactorial traits - those that depend on the environment as well as the genotype o The sum of the effects of all the genes and the environmental factors that contribute to the phenotype (e.g. height, skin colour)
Genetic Vocabulary  Genetics: The scientific study of heredity  Genes: Point on a chromosome that controls the trait.  Allele: Alternate forms of a gene/factor. A or a  Genotype: combination of alleles an organism has. (genetic traits)  Phenotype: How an organism appears. (physical traits)  Dominant: An allele which is expressed (masks the other).  Recessive: An allele which is present but remains unexpressed (masked)  Homozygous: Both alleles for a trait are the same.  Heterozygous: The organism's alleles for a trait are different.
Genetic Vocabulary  Probability : The mathematical chance that an event will happen.  Meiosis :The cell division that produces sex cells.  Mutation : A change in the type or order of the bases in an organism DNA: deletion, insertion or substitution.  Natural Selection : The process by which organisms with favorable traits survive and reproduce at a higher rate than organisms without favorable traits.  Evolution :The process by which population accumulate inherited changes over time.
Punnett Squares Genetic problems can be easily solved using a tool called a Punnett square. Tool for calculating genetic probabilities A Punnett square
Punnett Squares Vocabulary  Punnett Squares : The chart used to show the possible ways genes are combined when passed from parents to offspring.  Dominant genes are UPPER CASE (T)  Recessive genes are lower case (t)  Each parent has two genes for a trait. (TT), (Tt) or (tt).  There can be a possible four combinations for each cross.
Punnett Squares Vocabulary Cont… GENOTYPE: The gene combination  Homozygous – Pure dominate or pure recessive  Heterozygous – Hybrid a mixed PHEOTYPE :The physical appearance  Dominate trait  Recessive trait  Combination of two traits (incomplete dominance)
THANKS for kind attention

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Genetics and its history with gregor mendel law

  • 2. What is genetics ? The branch of biology that deals with heredity, especially the mechanism s of hereditary transmission andthe variation of inherited characteristics among similar or related organisms. People have known about inheritance for a long time by . • Children resemble their parents • Domestication of animals and plants, selective breeding for good characteristics • Sumerian horse breeding records • Egyptian data palm breeding • Bible and hemophilia
  • 3. Old Ideas  Despite knowing about inheritance in general, a number of incorrect ideas had to be generated and overcome before modern genetics could arise. 1. All life comes from other life. Living organisms are not spontaneously generated from non-living material. (Big exception: origin of life.) 2. Species concept: offspring arise only when two members of the same species mate. Monstrous hybrids don’t exist. 3. Organisms develop by expressing information carried in their hereditary material. 4. The environment can’t alter the hereditary material in a directed fashion.
  • 4. Mid 1800’s Discoveries  Three major events in the mid-1800’s led directly to the development of modern genetics. 1. 1859: Charles Darwin publishes The Origin of Species, which describes the theory of evolution by natural selection. This theory requires heredity to work. 2. 1866: Gregor Mendel publishes Experiments in Plant Hybridization, which lays out the basic theory of genetics. It is widely ignored until 1900. 3. 1871: Friedrich Miescher isolates “nucleic acid” from pus cells.
  • 5. Major Events in the 20th Century  1900: rediscovery of Mendel’s work by Robert Correns, Hugo de Vries, and Erich von Tschermak .  1902: Archibald Garrod discovers that alkaptonuria, a human disease, has a genetic basis.  1904: Gregory Bateson discovers linkage between genes. Also coins the word “genetics”.  1910: Thomas Hunt Morgan proves that genes are located on the chromosomes (using Drosophila).  1918: R. A. Fisher begins the study of quantitative genetics by partitioning phenotypic variance into a genetic and an environmental component.
  • 6.  1926: Hermann J. Muller shows that X-rays induce mutations.  1944: Oswald Avery, Colin MacLeod and Maclyn McCarty show that DNA can transform bacteria, demonstrating that DNA is the hereditary material.  1953: James Watson and Francis Crick determine the structure of the DNA molecule, which leads directly to knowledge of how it replicates  1966: Marshall Nirenberg solves the genetic code, showing that 3 DNA bases code for one amino acid.  1972: Stanley Cohen and Herbert Boyer combine DNA from two different species in vitro, then transform it into bacterial cells: first DNA cloning.  2001: Sequence of the entire human genome is announced.
  • 7. 1953 James Watson and Francis Crick publish the double helix model for DNA’s chemical structure 1860s Mendel’s work on peas allows the conclusion that traits are inherited through discrete units passed from one generation to the next 1870s Friedrich Miescher describes nucleic acids 1910 Thomas Morgan’s work on fruitflies demonstrates that genes lie on chromosomes 1940s Barbara McClintock describes mobile genetic elements in maize 1958 Crick proposes the ‘central dogma’ for biological information flow: that DNA makes RNA makes protein 1909 The word ‘gene’ coined by Danish botanist Wilhelm Johannsen 1944 Oswald Avery shows in bacteria that nucleic acids are the ‘transforming principle’ 1977 Phillip Sharp and Richard Roberts find that protein-coding genes are carried in segments 2001 initial results from the Human Genome Project published Genetics – history and key concepts…
  • 8. 3 Laws from the 1860’s
  • 9.  Principles of genetics were developed in the mid 19th century by Gregor Mendel an Austrian Monk.  Gregor developed these principles without ANY scientific equipment - only his mind!  Gregor experimented with pea plants, by crossing various strains and observing the characteristics of their offspring.
  • 10. History cont… Studied the following characteristics: Pea color (Green, yellow) Pea shape (round, wrinkled)  Pea shape (round, wrinkled) Flower color (purple, white) Plant height (tall, short)
  • 11. Law of Dominance  Every gene has two alleles that can code for a trait.  One allele is dominant, meaning it will always show.  One allele is recessive, meaning it will be masked by the presence of the dominant allele.  Hybrids will always show the dominant phenotype. Ex: PP = purple pp = white Pp = purple
  • 12. Mendelian Genetics … TECHNIQUE EXPERIMENT Mendel crossed two pure strains of pea plants with purple and white flowers and discovered that the first filial generation were all purple
  • 13. Law of Segregation  Mendel arrived at this conclusion by performing monohybrid crosses.  These were cross-pollination experiments with pea plants that differed in one trait, for example height of pea plant.  The alleles for a trait separate when gametes are formed. These alleles can then randomly united at fertilization. Anaphase I of Meiosis Anaphase II of Meiosis
  • 14. Mendelian Genetics – 3:1 ratios … Traits must come in discrete units – now called genes
  • 15. Mendelian Genetics in humans … 1st generation (grandparents) 2nd generation (parents, aunts, and uncles) 3rd generation (two sisters) Widow’s peak No widow’s peak A dominant Mendelian trait Ww ww Ww Wwww ww ww wwWw Ww wwWW Ww or Attached earlobe 1st generation (grandparents) 2nd generation (parents, aunts, and uncles) 3rd generation (two sisters) Free earlobe A recessive Mendelian trait Ff Ff Ff Ff Ff ff Ff ff ff ff ff FF/ or FF Ff Many Mendelian traits – some cause disease e.g. cystic fibrosis
  • 16. Law of Independent Assortment  Mendel began to wonder what would happen if he studied plants that differed in two traits (dihybrid).  Data showed that traits produced by dominant factors do not have to appear together in offspring.  Ex: A green seed pod (dominant) could appear in a white-flowering pea plant (recessive).  In other words, dominant traits don’t have to travel together when traits are passed from parents to offspring.  Mendel’s law of independent assortment applies only to traits carried on different chromosomes, i.e.unlinked genes  independent assortment occurs as a result of the alignment of homologues during metaphase I, determining which maternal and paternal chromosomes assort to each daughter cell  each pair of alleles separates independently of every other pair of unlinked alleles during gamete formation
  • 17.
  • 18.
  • 19. Dihybrid Crosses: a cross that shows the possible offspring for two traits Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth BbRr x BbRr BR bR br bR Br BR brBr Then, find the possible genotypes of the offspring
  • 20. Dihybrid Crosses: a cross that shows the possible offspring for two traits Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth BbRr x BbRr BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr
  • 21. BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr How many of the offspring would have a black, rough coat? How many of the offspring would have a black, smooth coat? How many of the offspring would have a white, rough coat? How many of the offspring would have a white, smooth coat? Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth
  • 22. BR bR br bR Br BR brBr BBRR BbRR BbRr BBRr BBrr BbRr Bbrr BbRR BbRr bbRR bbRr BbRr Bbrr bbRr bbrr BBRr How many of the offspring would have black, rough coat? How many of the offspring would have a black, smooth coat? How many of the offspring would have a white, rough coat? How many of the offspring would have a white, smooth coat? Fur Color: B: Black b: White Coat Texture: R: Rough r: Smooth Phenotypic Ratio 9:3:3:1
  • 23. More Practice…  On the back of your notes… In pea plants, yellow seeds (Y) are dominant over green seeds (y), and rounded peas (R) are dominant over wrinkled peas (r). Cross a plant that is heterozygous for both traits with a plant that is homozygous recessive for both traits. Draw a Punnett square to show all possible offspring, and determine the genotypic and phenotypic ratios.
  • 24. YyRr X yyrr YR yR yr yr yr yr yrYr YyRr yyRr yyrr YyRr Yyrr yyRr yyrr YyRr Yyrr yyRr yyrr YyRr Yyrr yyRr yyrr Yyrr
  • 25. Non-Mendelian inheritance… Inheritance of traits (phenotypes) is often more complex than predicted by simple Mendelian genetics  Polygenic traits - those determined by more than one gene, vary in the population along a continuum o The sum of the effects of all the genes that contribute to the phenotype (e.g. height, skin colour)  Multifactorial traits - those that depend on the environment as well as the genotype o The sum of the effects of all the genes and the environmental factors that contribute to the phenotype (e.g. height, skin colour)
  • 26. Genetic Vocabulary  Genetics: The scientific study of heredity  Genes: Point on a chromosome that controls the trait.  Allele: Alternate forms of a gene/factor. A or a  Genotype: combination of alleles an organism has. (genetic traits)  Phenotype: How an organism appears. (physical traits)  Dominant: An allele which is expressed (masks the other).  Recessive: An allele which is present but remains unexpressed (masked)  Homozygous: Both alleles for a trait are the same.  Heterozygous: The organism's alleles for a trait are different.
  • 27. Genetic Vocabulary  Probability : The mathematical chance that an event will happen.  Meiosis :The cell division that produces sex cells.  Mutation : A change in the type or order of the bases in an organism DNA: deletion, insertion or substitution.  Natural Selection : The process by which organisms with favorable traits survive and reproduce at a higher rate than organisms without favorable traits.  Evolution :The process by which population accumulate inherited changes over time.
  • 28. Punnett Squares Genetic problems can be easily solved using a tool called a Punnett square. Tool for calculating genetic probabilities A Punnett square
  • 29. Punnett Squares Vocabulary  Punnett Squares : The chart used to show the possible ways genes are combined when passed from parents to offspring.  Dominant genes are UPPER CASE (T)  Recessive genes are lower case (t)  Each parent has two genes for a trait. (TT), (Tt) or (tt).  There can be a possible four combinations for each cross.
  • 30. Punnett Squares Vocabulary Cont… GENOTYPE: The gene combination  Homozygous – Pure dominate or pure recessive  Heterozygous – Hybrid a mixed PHEOTYPE :The physical appearance  Dominate trait  Recessive trait  Combination of two traits (incomplete dominance)