Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Sex Linked Traits Lecture
Document related concepts
Pathogenomics wikipedia , lookup
Site-specific recombinase technology wikipedia , lookup
Pharmacogenomics wikipedia , lookup
Polycomb Group Proteins and Cancer wikipedia , lookup
Epigenetics of diabetes Type 2 wikipedia , lookup
Polymorphism (biology) wikipedia , lookup
Behavioural genetics wikipedia , lookup
Nutriepigenomics wikipedia , lookup
Public health genomics wikipedia , lookup
Essential gene wikipedia , lookup
Heritability of IQ wikipedia , lookup
History of genetic engineering wikipedia , lookup
Hardy–Weinberg principle wikipedia , lookup
Genome evolution wikipedia , lookup
X-inactivation wikipedia , lookup
Artificial gene synthesis wikipedia , lookup
Gene expression programming wikipedia , lookup
Ridge (biology) wikipedia , lookup
Minimal genome wikipedia , lookup
Genomic imprinting wikipedia , lookup
Epigenetics of human development wikipedia , lookup
Biology and consumer behaviour wikipedia , lookup
Gene expression profiling wikipedia , lookup
Genome (book) wikipedia , lookup
Dominance (genetics) wikipedia , lookup
Microevolution wikipedia , lookup
Designer baby wikipedia , lookup
Transcript
Genetics Unit Solving Genetics Problems Upon the completion of this unit the learner will be able to: 1. Apply genetic terminology while solving five types of genetic problems. 2. Predict the genotypes of organisms within a pedigree. Vocabulary Genetics Chromosome Gene Dominant Recessive Homozygous Heterozygous Hybrid Purebred Homozygous Dominant Homozygous Recessive Pedigree Genotype Phenotype Punnett Square Monohybrid Dihybrid Parental Generation F1 Generation F2 Generation 1 Genetics Vocabulary Lecture Heredity. Allele – Gene – Dominant trait – Recessive trait – Homozygous – (Purebred) Heterozygous – (Hybrid) Genotype – the DNA for a trait, i.e. R or r. Phenotype – the appearance of a trait determined by a genotype, i.e. round or wrinkled peas. Seven Steps: Cross a hybrid white flower with a homozygous purple flower. 2 Sex Linked Traits Lecture The study of inheritance of genes located on sex chromosomes was pioneered by T. H. Morgan and his students at the beginning of the 20th century. Although Morgan studied fruit flies, the same genetic principles apply to humans. Since males and females differ in their sex chromosomes, inheritance patterns for X-chromosome linked genes vary between the sexes What are sex chromosomes? What are sex-linked traits? Which sex chromosome is home of the most sex-linked traits What are examples of traits that are sex-linked? 1) Color blindness – (red-green) 2) Hemophilia – 3) Muscular Dystrophy – What letters should we use to designate these normal and mutant traits? B = _________ b = _________ H = _________ h = _________ M = _________ m = _________ How should we write these genotypes to help us remember they are sex-linked? Color Vision Genotypes XBXb Color Vision Phenotypes Genotypes Phenotypes Complete this chart: XHXh Man with hemophilia Normal Vision Girl XMY Woman carrier of muscular dystrophy 3 Try This: Cross a colorblind male with a carrier female with healthy vision 1. 2. 3. 4. 5. & 6. 7. Chance of Normal _________ Chance of Carrier _________ Chance of colorblind __________ Incomplete Dominance Lecture Sometimes genes that are present to not completely dominate their other allele. In these cases the end result is a blend of the two phenotypes. All genes in the problems today are Incompletely Dominant. Example: Some species of flowers when you cross a red petal and a white petal produce a pink petal. We change the nomenclature to show the user what is happening in these problems. 1. Dominant = Red, Recessive = White, Incomplete = Pink 2. Red = R, White =W, Pink = RW 3. Crossing a red and a white = RR x WW 4. Sperm = R or R Egg = W or W 5. & 6. 7. What are the chances for: Red ___________ Pink ___________ White __________ 4 Blood Type Lecture Multiple Alleles So far we have been working with traits that are usually either/or situations. Tall or short, green or yellow. Sometimes there are more then two choices. Human eye color is one example of this. Human blood type is another example. There are many different ways that we type blood. Today, we’ll look at two systems, ABO and the Rh- factor. ABO Typing: Each red blood cell has proteins on its surface that let the body identify it as belonging to yourself. Blood Type Antigen A Antigen Antibody B anti-A Antibody Anti-B A yes no no yes B no yes yes no O no no yes yes SB yes yes no no Genes “A” and “B” are __________________ genes. Gene “o” is the _______________ gene. Sample Problem: Mom is hybrid type B blood, Dad is hybrid type A blood. 1. 2. 3. 4. 5. & 6. 7. Chance of Each Blood Type: 5 Rh Factor Blood Type Rh+ means that Rh- means that The dominant gene is ________ The recessive gene is ________ Let’s assign letters for each genotype: Phenotype Rh+ Rh- Genotype Try This: Dad is heterozygous Rh+ factor and mom is homozygous for Rh- factor blood. 1. 2. 3. 4. 5. & 6. 7. Chance of each blood type _________ Does this type of problem remind you of a type you’ve already done? Note: There is a danger if a mom with Rh- blood has a Rh+ fetus in her body her antibodies may attack the fetus and cause her to be sick or die. 6 Pedigree Lecture Pedigree – A sample pedigree Symbol Description Unaffected male Unaffected female Affected male Label the following on your pedigree: P generation, F1 generation, F2 generation. Affected female Deceased male Example #2: Deceased female Possibly affected male Possibly affected female Carrier male Carrier female 7 Dihybrid Lecture 1. Definition – Try This: Given B = brown hair, b = blond hair AND T = Tall while t = short. BbTt = ______________ phenotype Bbtt = ______________ phenotype bbTT = ______________ phenotype bbtt = ______________ phenotype 2. When drawing your sperm and egg for the 7 steps in this type of problem each: a. Sperm contains __________________________ genes? b. Egg contains _____________________ genes? 3. Predict the sperm or eggs possible for a critter of BbTt. 4. Arrow Rule: 5. What sex cells could be obtained from the genotypes below? a. Bbtt: ___________, ___________, ___________, ___________ b. bbtt: ___________, ___________, ___________, ___________ c. BBTT: ___________, ___________, ___________, ___________ d. BbTt: ___________, ___________, ___________, ___________ e. Hint repeated sperm or eggs can be crossed out. 6. Cross a totally heterozygous brown eyed tall girl with a heterozygous brown eyed homozygous tall guy. 8 Multiple Genes Lecture For many traits there are two or more genes the produce variations of one trait. For example, 6 pairs of genes, determine one’s skin color. This results in 4,096 different genotypes of skin color. Example: The redness of some wheat kernels seems to be determined by two pairs of genes acting in an additive way. 1. Four dominant genes produce very, dark red kernels. 2. Three dominant genes produce dark red kernels. 3. Two dominant genes produce a medium red kernel. 4. One dominant gene produces a light red kernel. 5. A lack of any dominant genes produces a white kernel. If R and S are genes related to the redness of wheat kernels (r and s represent the lack of redness) what will the phenotypes of each of the following genotypes be? RrSs RRss RrSS RrSs Rrss RRSS Give the different genotype combinations that could be present in each of the above genotypes: (Hint: The arrow rule) Cross medium red wheat (RrSs) with dark red wheat (RrSS). 1. 2. 3. 4. 5./6. 7. 9
