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Telematics Life Sciences 20121 Terminology Monohybrid cross Only one characteristic/hereditary trait is investigated at a time. Mendel’s Law of Segregation.

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Presentation on theme: "Telematics Life Sciences 20121 Terminology Monohybrid cross Only one characteristic/hereditary trait is investigated at a time. Mendel’s Law of Segregation."— Presentation transcript:

1 Telematics Life Sciences 20121 Terminology Monohybrid cross Only one characteristic/hereditary trait is investigated at a time. Mendel’s Law of Segregation Each characteristic is regulated by two alleles/factors which separate during meiosis so that each gamete contains only one of the alleles/factors Mendel’s Principle of Dominance When two individuals with pure breeding contrasting characteristics are crossed,the F 1 -generation all display the dominant characteristic

2 Telematics Life Sciences 20122 Terminology Complete dominance A genetic interaction where one allele of a gene supress the expression of an alternative allele in the F 1 heterozygote (e.g. Bb) so that the phenotype is the same as that of the dominant allele. Incomplete dominance A pattern of inheritance in which a cross between two phenotypically different parents produces an offspring different from both parents but containing partial features of both - intermediate. Co-dominance Both alleles are equally dominant and therefore both are expressed in the phenotype

3 Telematics Life Sciences 20123 Terminology Allele: alleles are alternate forms of a gene localised on the same locus on homologous chromosomes. If alleles of the same characteristic are both the same, the organism will be homozygous for that characteristic. If the alleles for a characteristic are different the organism is described as heterozygous for that characteristic.

4 Telematics Life Sciences 20124 MONOHYBRID CROSS P 1 Generation F 1 Generation Adapted from idea of JP Van Wyk

5 Telematics Life Sciences 20125 Determine the dominant characteristic. Determine the key i.e. symbol/letter to be used. Determine the phenotypes and genotypes of the parents. Determine the alleles of each gamete after meiosis Determine the alleles of the zygote after fertilization –F 1 - genotype Describe the phenotypes of the F 1 - generation Steps in Solving Monohybrid Genetic problems

6 Telematics Life Sciences 20126 Template Characteristic:…………………………….. Variation (Phenotype) of characteristic:…………………………… Genetic variation (alleles) ………………………………….. Type of dominance:………………………………………… P 1 Phenotype ____________ x ______________ Genotype _____________ x _______________ Meiosis Gametes ___, ___, ___, ___ x ___, ___, ___, ___ Fertilisation Punnet diagram F 1 Genotype _____________________Ratio: _____________ Phenotype ____________________ Ratio: ______________

7 Telematics Life Sciences 20127 Complete dominance P 1 phenotypeTall x Short genotype TT xtt Meiosis (Mendel’s Law of Segregation) Gametes Fertilisation F 1 Genotype: Tt (Principle of dominance) Phenotype: Tall (Individuals of F1 all display the dominant characteristic) T t

8 Telematics Life Sciences 20128 Complete dominance P 2 phenotypeTall x Tall genotype Tt x Tt Meiosis Gametes and and Fertilisation F 2 Genotype: TT, Tt, Tt, tt Phenotype: Tall Tall Tall Short T t T t Gametes T T t t TT T t tt

9 Telematics Life Sciences 20129 Incomplete dominance P 1 phenotypeRed x White genotype RR xWW Meiosis Gametes Fertilisation F 1 Genotype: RW Phenotype: Pink (Offspring have intermediate forms of traits of parents) R W

10 Telematics Life Sciences 201210 Co-dominance P 1 phenotypeRed x White genotype RR xWW Meiosis Gametes Fertilisation F 1 Genotype: RW Phenotype: Roan (both red and white) (Both alleles are equally dominant and are expressed equally in the phenotype) R W

11 Telematics Life Sciences 201211 Blood groups Blood group (Phenotype) Alleles (Genotype) AI A I A or I A i BI B I B or I B i ABIAIBIAIB Oii

12 Telematics Life Sciences 201212 Blood Groups A man with blood group AB marries a woman with blood group O. Predict the nature of their possible offspring P 2 phenotypeAB x O genotype I A I B x ii Meiosis Gametes and Fertilisation F 2 Genotype: I A i and I B i Phenotype: Blood group A and Blood group B I A I B i Gametes IAIA i I B I A i I B i i I A i I B i

13 Telematics Life Sciences 201213 Inheritance of sex A couple want to know what their chances are of having a baby girl/boy P 2 phenotypeMale x Female genotype XY x XX Meiosis Gametes and and Fertilisation F 2 Genotype: XX, XX, XY, XY Phenotype: Girl Girl Boy Boy X Y XX Gametes X X Y X XX XY

14 Telematics Life Sciences 201214 Haemophilia Sex – linked disease. Haemophilia is caused by a recessive allele on the X-chromosome. Males have only one X-chromosome – they mainly suffer from this disorder. Cross a mother who is normal but a carrier with a haemophiliac father. P 2 phenotypeMale x Female genotype X h Y x X H X h Meiosis Gametes and and Fertilisation F 2 Genotype: X H X h, X h X h, X H Y, X h Y Phenotype: Normal haemophilia Normal Haemophilia female female male male X h Y X H XhXh Gametes XhXh X H Y X h X H X h X h X h X H Y X h Y

15 Telematics Life Sciences 201215 Pedigree diagrams Shows the pattern of inheritance of characteristics over a few generations Follow the following steps when interpreting pedigree diagrams Study any key and opening statement/s and look for dominant characteristics and phenotypes Write in the phenotypes of all the individuals as given in the problem. Fill in the genotype of all the individuals with the recessive condition- it has to have 2 lower case letters e.g. ff For every individual in the diagram that has the recessive condition, it means that each gene was obtained from each of the parents. Work backwards and fill in one recessive gene for each parent. If the parents showed the dominant characteristic fill in the second letter which has to be a capital letter. Any other individual showing the dominant characteristic will most likely be homozygous dominant – two capital letters

16 Telematics Life Sciences 201216 Example 1 – earlobes Please note: Unattached earlobes are dominant (F) and Attached earlobes are recessive (f)– complete missing genotypes Key: Male with attached earlobes Male with unattached earlobes Female with attached earlobes Female with unattached earlobes ffFf ff Ff ff Ff

17 Telematics Life Sciences 201217 Example 2 – Albinism Please note : Albinism (a) is caused by a recessive allele Use symbols A and a to complete the following pedigree diagram Key: Male Female Female albino Aa Male albino aa AA or Aa Aa or AA

18 Telematics Life Sciences 201218 Activity 1 Complete the following activity in pairs In humans, the ability to roll the tongue is because of a dominant gene. Use the letters (R) to represent rolling and (r) for non –rolling and show diagrammatically, by means of a genetic cross, how a man who is a roller, who marries a woman who is also a roller, may have a girl who cannot roll her tongue.

19 Telematics Life Sciences 201219 Activity 1 Answer P 1 phenotype Roller x Roller genotype Rr x Rr Meiosis Gametes and and Fertilisation F 1 Genotype: RR, Rr, Rr, rr Phenotype: Roller Roller Roller Non- roller R r R r Gametes R R r r RR Rr rr

20 Telematics Life Sciences 201220 Activity 2 Complete the following activity in pairs The diagram below shows the inheritance of eye colour in humans. Brown (B) eye colour is dominant over blue (b). Individual 2 is homozygous. Use the letters B and b and write down the phenotypes and genotypes of individuals. Key: Male with brown eyes Male with blue eyes Female with brown eyes Female with blue eyes 2

21 Telematics Life Sciences 201221 Activity 2 Complete the following activity in pairs The diagram below shows the inheritance of eye colour in humans. Brown (B) eye colour is dominant over blue (b). Individual 2 is homozygous. Use the letters B and b and write down the phenotypes and genotypes of individuals Key: Male with brown eyes Male with blue eyes Female with brown eyes Female with blue eyes bb BB BbbbBb bb Bb Blue Brown

22 Sex-Linked Traits Sex Determination- XX – female XY – male Traits controlled by genes on the X or Y chromosomes are sex-linked An allele is termed X-linked. 22Telematics Life Sciences 2012

23 Hemophilia Hemophilia refers to the lack of one of several clotting factors that leads to excessive bleeding in affected individuals. Hemophiliacs bleed externally after injury, but also bleed internally around joints. Hemorrhages can be stopped with blood transfusions or a biotechnology clotting factor. 23Telematics Life Sciences 2012

24 Color Blindness Three types of cones are in the retina detecting red, green, or blue. Genes for blue cones are autosomal; those for red and green cones are on the X chromosome. Males are much more likely to have red- green color blindness than females. 24Telematics Life Sciences 2012

25 X-Linked Alleles The key for an X-linked problem shows the allele attached to the X as in: X B = normal vision X b = colour blindness. Females with the genotype X B X b are carriers because they appear to be normal but each son has a 50% chance of being colour blind depending on which allele the son receives. X b X b and X b Y are both colorblind. 25Telematics Life Sciences 2012

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