Downloaded 515 times
Uploaded byDr. Samira Fattah
Patterns of inheritance mendelian inheritance
1. Mendel conducted breeding experiments with pea plants over seven years to test his particulate hypothesis of inheritance. He found that traits are passed from parents to offspring as distinct factors, now called genes. 2. Mendel discovered that traits can be dominant or recessive, and that alleles segregate independently during gamete formation according to his laws of inheritance. 3. Mendel's work established the foundations of classical genetics and showed that heredity follows predictable statistical patterns. His principles help explain the inheritance of human traits and disorders like cystic fibrosis.
More Related Content
Similar to Patterns of inheritance mendelian inheritance
More from Dr. Samira Fattah
Patterns of inheritance mendelian inheritance
- 1. Patterns of Inheritance: MendelianInheritance Lecture 2 Prepared by: Samira Fattah Assis. Lec. College of health sciences-HMU
- 2. What was theprevalent believe about inheritance before Mendel? • People believed in “spontaneous generation” and in the “blending of characters” – Problem: • Would expect variation to disappear • Variation in traits persists
- 3. Experimental genetics beganin an abbey garden – Modern genetics • Began with Gregor Mendel’s experiments with pea plants. Petal Carpel Stamen
- 4. Why breed peas? -Usedpea plants because: •They were available •They reproduced quickly •They showed obvious differences in the traits
- 5. Mendel's Plant Breeding Experiments Forseven years, Mendel bred pea plants and recorded inheritance patterns in the offspring. Particulate Hypothesis of Inheritance Parents pass on to their offspring separate and distinct factors (today called genes) that are responsible for inherited traits. Understood that there was something that carried traits from one generation to the next- “FACTOR”.
- 6. To test theparticulate hypothesis, Mendel crossed true-breeding plants that had two distinct and contrasting traits—for example, purple or white flowers. What is meant by “true breeding?”
- 7. Typical breeding experiment Pgeneration (parental generation) F1 generation (first filial generation, the word filial from the Latin word for "son") are the hybrid offspring. Allowing these F1 hybrids to self-pollinate produces: F2 generation (second filial generation). It is the analysis of this that lead to an understanding of genetic crosses.
- 8. Mendel studies sevencharacteristics in the garden pea
- 9. Mendel's Laws ofInheritance Mendel postulated three laws, which are now called after his name as Mendel’s laws of heredity. These are: 1. Law of dominance and recessive 2. Law of segregation 3.Law of independent assortment
- 10. -One allele maskedanother. one allele was dominant over the other in the F1 generation. - Offspring that are hybrid for a trait will have only the dominant trait in the phenotype. 1. Law of Dominance
- 11. When two homozygous individualswith one or more sets of contrasting characters are crossed, the characters that appear in the F1 hybrids are dominant characters and those do not appear in F1 are recessive characters.
- 12. Importance of lawof dominance The phenomenon of dominance is of practical importance as the harmful recessive characters are masked by the normal dominant characters in the hybrids. In Human beings a form of idiocy, diabetes, haemophilia etc. are recessive characters. A person hybrid for all these characteristics appears perfectly normal. Thus harmful recessive genes can exist for several generations without expressing themselves.
- 13. - When gametesare formed, the pairs of hereditary factors (genes) become separated, so that each sex cell (egg/sperm) receives only one kind of gene. - Alleles for a trait are then "recombined" at fertilization, producing the genotype for the traits of the offspring. 2. Law of Segregations:
- 14. Example • Pure tallplants are homozygous and, therefore possess genes (factors) TT; similarly dwarf possess genes tt. • The tallness and dwarfness are two independent but contrasting factors or determiners. • Pure tall plants produce gametes all of which possess gene T and dwarf plants t type of gametes. • During cross fertilization gametes with T and t unite to produce hybrids of F1 generation.
- 15. • These hybridspossess genotype Tt. It means F1 plants, though tall phenotypically, possess one gene for tallness and one gene for dwarfness. • Apparently, the tall and dwarf characters appear to have become contaminated developing only tall character. • But at the time of gamete formation, the genes T (for tallness) and t (for dwarfness) separate and are passed on to separate gametes. • As a result, two types of gametes are produced from the heterozygote in equal numerosity. 50% of the gametes possess gene T and other 50% possess gene t. • Therefore, these gametes are either pure for tallness or for dwarfness. (This is why the law of segregation is also described as Law of purity of gametes).
- 17. 3. Law ofIndependent Assortment: - Members of one gene pair segregate independently from other gene pairs during gamete formation • The inheritance of more than one pair of characters (two pairs or more) is studied simultaneously, the factors or genes for each pair of characters assort out independently of the other pairs. Mendel formulated this law from the results of a dihybrid cross.
- 18. • Monohybrid cross:a genetic cross involving a single pair of genes (one trait); parents differ by a single trait. • Dihybrid cross: Matings that involve parents that differ in two genes (two independent traits)
- 19. • The crosswas made between plants having yellow and round cotyledons and plants having green and wrinkled cotyledons. • The F1 hybrids all had yellow and round seeds. When these F1 plants were self fertilized they produced four types of plants in the following proportion: (i) Yellow and round 9 (ii) Yellow and wrinkled 3 (iii) Green and round 3 (iv) Green and wrinkled 1
- 20. • These resultsindicate that yellow and green seeds appear in the ratio of 9 + 3 : 3 + 1 = 3 : 1. • Similarly, the round and wrinkled seeds appear in the ratio of 9 + 3 : 3 +1 = 12:4 or 3 :1. • This indicates that each of the two pairs of alternative characters yellow-green cotyledon colour is inherited independent of the round-wrinkled character of the cotyledons. • It means at the time of gamete formation the factor for yellow colour enters the gametes independent of R or r.
- 22. Mendelian Inheritance inHumans dominant recessive • Tongue Roller (T) • Free Earlobes (F) • Dimples (D) • Widow’s Peak (P) • Can’t roll tongue (t) • Attached lobes (f) • No dimples (d) • Straight hairline (w)
- 23. Many human disordersfollow Mendelian patterns of inheritance • Cystic fibrosis • Tay-Sachs disease • Sickle-cell disease
- 24. Inheritance pattern ofCF • Cystic Fibrosis: a lethal genetic disease affecting Caucasians. • Caused by mutant recessive gene • One in 400 Caucasian couples will be both carriers of CF – 1 in 4 children will have it. • CF disease affects transport in tissues – mucus is accumulated in lungs, causing infections.
- 25. Inheritance pattern ofCF IF two parents carry the recessive gene of Cystic Fibrosis (c), that is, they are heterozygous (C c), one in four of their children is expected to be homozygous for CF and have the disease: C C C c C c c c C c C c C C = normal C c = carrier, no symptoms c c = has cystic fibrosis