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 GENETICS – branch of biology that deals with heredity and variation of organisms.  Chromosomes carry the hereditary information (genes)  Arrangement.

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Presentation on theme: " GENETICS – branch of biology that deals with heredity and variation of organisms.  Chromosomes carry the hereditary information (genes)  Arrangement."— Presentation transcript:

1  GENETICS – branch of biology that deals with heredity and variation of organisms.  Chromosomes carry the hereditary information (genes)  Arrangement of nucleotides in DNA  DNA  RNA  Proteins INTRODUCTION TO GENETICS

2  Chromosomes (and genes) occur in pairs Homologous Chromosomes  New combinations of genes occur in sexual reproduction  Fertilization from two parents INTRODUCTION TO GENETICS

3  Austrian Monk, born in what is now Czech Republic in 1822  Son of peasant farmer, ordained priest.  University of Vienna, studied botany and learned the Scientific Method  Worked with pure lines of peas for eight years  Prior to Mendel, heredity was regarded as a "blending" process and the offspring were essentially a "dilution "of the different parental characteristics. GREGOR MENDEL

4  Mendel looked at seven traits or characteristics of pea plants : MENDEL’S PEAS

5  Gene – a unit of heredity; a section of DNA sequence encoding a single protein  Genome – the entire set of genes in an organism  Alleles – two genes that occupy the same position on homologous chromosomes and that cover the same trait (like ‘flavors’ of a trait)  Locus – a fixed location on a strand of DNA where a gene or one of its alleles is located. GENETICS TERMS YOU NEED TO KNOW:

6  Homozygous – having identical genes (one from each parent) for a particular characteristic.  Heterozygous – having two different genes for a particular characteristic.  Dominant – the allele of a gene that masks or suppresses the expression of an alternate allele; the trait appears in the heterozygous condition.  Recessive – an allele that is masked by a dominant allele; does not appear in the heterozygous condition, only in homozygous. MORE GENETICS TERMS YOU NEED TO KNOW:

7  Genotype – the genetic makeup of an organisms  Phenotype – the physical appearance of an organism (Genotype + environment  P = Parental generation  F 1 = First filial generation; offspring from a genetic cross  F 2 = Second filial generation of a genetic cross EVEN MORE GENETICS TERMS YOU NEED TO KNOW:

8

9  A cross between 2 parents who differ by a single trait.  Crossing two pea plants that differ in stem size, one tall one short: T = allele for Tallt = allele for dwarf TT = homozygous tall tt = homozygous dwarf TT x TT MONOHYBRID CROSS

10 T T  t t (tall) (dwarf ) MONOHYBRID CROSS FOR STEM LENGTH: P = parentals true breeding, homozygous plants: F 1 generation is heterozygous : T t (all tall offspring )

11  A useful tool to do genetic crosses  For a monohybrid cross, you need a square divided by four…. We use the Punnett square to predict the genotypes and phenotypes of the offspring. PUNNETT SQUARE

12 STEPS: 1. determine the genotypes of the parent organisms 2. write down your "cross" (mating) 3. draw a p-square Parent genotypes: Homozygous tall = TT Homozygous short = tt Cross T T  t t USING A PUNNETT SQUARE

13 4. "split" the letters of the genotype for each parent & put them "outside" the p-square 5. determine the possible genotypes of the offspring by filling in the p-square 6. summarize results (genotypes & phenotypes of offspring) PUNNETT SQUARE T t T t T tttt Genotypes: 100% T t Phenotypes: 100% Tall plants T T  t t

14  If you let the F1 generation self-fertilize, the next monohybrid cross would be: T t  T t (tall) (tall) MONOHYBRID CROSS: F 2 GENERATION T T t t T t T t Genotypes: 1 TT= Tall 2 Tt = Tall 1 tt = dwarf Genotypic ratio= 1:2:1 Phenotype: 3 Tall 1 dwarf Phenotypic ratio= 3:1

15  Key to the Punnett Square:  Determine the gametes of each parent…  How? By “splitting” the genotypes of each parent: If this is your cross SECRET OF THE PUNNETT SQUARE T T  t t T T t t The gametes are:

16 ONCE YOU HAVE THE GAMETES… T T t t T t T t  T T t t

17  You only need one box! SHORTCUT FOR PUNNETT SQUARE… T T t t  T t Genotypes: 100% T t Phenotypes: 100% Tall plants If either parent is HOMOZYGOUS T t

18 UNDERSTANDING THE SHORTCUT… T t T t T t T T t t = Genotypes: 100% T t Phenotypes: 100% Tall plants T t

19  A heterozygous with a homozygous IF YOU HAVE ANOTHER CROSS… T t t t  T t t T t t t Genotypes: 50% T t 50 % t t Phenotypes: 50% Tall plants 50% Dwarf plants You can still use the shortcut!

20 For example, flower color: P = purple (dominant) p = white (recessive ) ANOTHER EXAMPLE: FLOWER COLOR If you cross a homozygous Purple (PP) with a homozygous white (pp):  P P p p P p ALL PURPLE (Pp)

21 P p CROSS THE F1 GENERATION:  P P p p P p P p Genotypes: 1PP 2Pp 1 pp Phenotypes: 3 Purple 1 White

22  1. Principle of Dominance: One allele masked another, one allele was dominant over the other in the F 1 generation.  2. Law of Segregation: When gametes are formed, the pairs of hereditary factors (genes) become separated, so that each sex cell (egg/sperm) receives only one kind of gene.  3. Law of Independent Assortment Genes for different traits segregate randomly during meiosis, which leads to variation in a population MENDEL’S PRINCIPLES

23  There’s a correlation between the movement of chromosomes in meiosis and the segregation of alleles that occurs in meiosis RELATION OF GENE SEGREGATION TO MEIOSIS…

24  Mendel’s Principles of Heredity apply universally to all organisms.  Cystic Fibrosis: a lethal genetic disease affecting Caucasians.  Caused by mutant recessive gene carried by 1 in 20 people of European descent (12M)  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. HUMAN CASE: CF

25 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: INHERITANCE PATTERN OF CF C C c c C c C c C C = normal C c = carrier, no symptoms c c = has cystic fibrosis

26  Of course, the 1 in 4 probability of getting the disease is just an expectation, and in reality, any two carriers may have normal children.  However, the greatest probability is for 1 in 4 children to be affected.  Important factor when prospective parents are concerned about their chances of having affected children.  Now, 1 in 29 Americans is a symptom-less carrier (Cf cf) of the gene. PROBABILITIES…

27 Snapdragon flowers come in many colors. If you cross a red snapdragon (rr) with a white snapdragon (ww) You get PINK flowers (rw)! INCOMPLETE DOMINANCE rr rw ww  Genes show incomplete dominance when the heterozygous phenotype is intermediate.

28 Incomplete Dominance INCOMPLETE DOMINANCE When F1 generation (all pink flowers) is self pollinated, the F2 generation is 1:2:1 red, pink, white rrrw ww r w r w

29 Cats can be all black, all white, or black and white If you cross a black cat with a white cat you get black & white Black and white alleles are co- dominant – both colors are expressed equally CO-DOMINANCE BBWW BW

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