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Mendelian Genetics Read through core knowledge. What vocab do you need to learn? Terms Gene Allele Trait Dominant Recessive Homozygous Heterozygous Genotype Phenotype P and F1 and F2 Definitions Unit of hereditary One of 2 or more forms of a gene at a given locus Genetically inherited characteristic of organism, varies amongst individuals Allele that is expressed in heterozygotes Allele that is only expressed in homozygotes Carries two copies of the allele Carries different allelic forms of a given gene Organism’s hereditary make-up Physical characteristics of an organism Patrial generation, first and second filial generation Mendel – why so famous? Worked with peas Used pure-breeding varieties Came up with idea of ‘gene’ 20 years before chromosomes were discovered Law of segregation Of the two genes controlling each characteristic, only one is present in each gamete. During meiosis the two genes are separated. Independent assortment The segregation of one pair of alleles does not affect the segregation of another pair. There is a random arrangement of parental chromosomes at metaphase of meiosis. Monohybrid cross Carry out a cross for a dominant and a recessive homozygote where P is for pink flower and p is for white Cross the F1 and give the ratios of the F2. P p p P Test Cross A cross carried out to determine an organism’s genotype, by mating it with a homozygous recessive organism. Show how a test cross works Dihybrid Cross Carry out a cross for a dominant and a recessive homozygote where Y is for yellow and y for green, and R for round and r for wrinkled. Cross the F1 and give the ratios of the F2. Dominance Incomplete dominance Co-dominance Lethal Alleles Incomplete dominance Action of one allele does not completely mask the action of the other. Neither allele has dominant control over the trait. Heterozygous offspring is intermediate in phenotype Eg snapdragons P1: F1: F2: 1red:2pink:1white RR (Red) x rr (white) Rr (pink) ? (You determine the ratios) R R r r Co-dominance Both alleles in heterozygous organism contribute to the phenotype. Both alleles are independently and equally expressed. Eg Human Blood Group AB P1: F1: AA (type A) x BB (type B) AB (type AB) Eg Coat colour in horses and cattle P1: F1: F2: CRCR(red) x CrCr(white) CRCr(roan) ? You determine the ratios 1 Red: 2 Roan: 1 white CR Cr CR Cr Roan is a blend of both white hairs and red hairs Lethal Alleles Mutations of a gene that produce a nonfunctional gene product and affect the organisms survival. If dominant, may kill in single dose If recessive, kills when homozygote Eg Manx cat MM (normal tail) MML (manx - no tail) MLML (lethal – deformity of spine in embryo) Carry out a cross for two heterozygotes. What is the phenotypic ratio? Eg Yellow mice YY (lethal – yellow – terminates at blastocyst stage) Yy (yellow) yy (not yellow) Again, what is the phenotypic ratio for a cross of heterozygotes? Eg Huntington’s disease A dominant allele is lethal. Nerve cell death in brain causing jerky involuntary movements and dementia. Why does it persist in the human population? Shows in adults 30-40 years Multiple alleles More than one allele possible at a gene locus Blood groups There are three different alleles: – A, B and O The alleles code for making the enzyme that hold the sugars together that make the different antigens on the RBC. O is nonfunctioning (recessive) A is A antigen (dominant) B is B antigen (dominant) A and B antigens can act with other antibodies so must be matched for transfusion. Frequency in NZ Phenotype Genotype Frequency in NZ % O OO 49 A AA, AO 40 B BB, BO 9 AB AB 2 Determine the blood types Cros Parental s genotype Ratio F1 genotype Ratio F1 Phenotype 1 ABxAB 1AA:2AB:1BB 1A:2AB:1B 2 OOxOO 3 ABxAO 4 AAxBO 5 AOxOO 6 BOxOO Dilemma If a mother is type A and has a baby type B, can the father be type O? – Explain your answer. You can now do the self check for this section. Gene-gene interactions When a characteristic is influenced by more than one gene at two different loci or even on different chromosomes altogether. Epistasis (standing upon) Involves two non-allelic genes (different loci) Action of one gene masks or alters expression of other genes Three forms – collaboration, complementary, supplementary Eg Albinism Occurs in rodent that are homozygous recessive for colour even if they have alleles for agouti or black fur. The gene for colour is epistatic gene 1 A coat colour show gene 2 B C one colour/another colour Collaboration Ratio 9:3:3:1 (Although the ratio is typical, it is unusual that some of the phenotypes may not have been shown in the parents) Four different phenotypes depending on the presence or absence of certain genes Eg comb shape in chickens P_R_ P_rr ppR_ pprr walnut pea rose single Carry out a cross for two heterozygotes – PpRr x PpRr Supplementary Genes (Epistasis) Ratio 9:3:4 A dominant allele at one locus is necessary for the expression of alleles at another Typically three phenotypes Carry out a cross for two heterozygotes – CcBb x CcBb Eg Coat colour in mice Gene C controls the production of melanin Gene B indicates whether the colour is black or brown Without the production of melanin, there will be no colour. no pigment gene C gene B enzyme 1 enzyme 2 C_B_ Black C_bb Brown cc__ No colour melanin produced Black Brown Complementary Genes Ratio 9:7 Development of a characteristic requires the presence of at least one dominant allele at both of 2 loci Typically there are two phenotypes Carry out a cross for two heterozygotes – PpQq x PpQq Eg Purple pigment in sweet pea flowers Gene P makes white intermediate Gene Q converts white to purple Colourless precursor (white pp_ _) gene P gene Q enzyme 1 enzyme 2 Colourless intermediate (white P_ _ _) Coloured product (purple P_Q_) Duplicate genes Ratio 15:1 A characteristic is developed if EITHER or BOTH of the dominant alleles at two loci is/are present. Carry out a cross for two heterozygotes – AaBb x AaBb Eg Fruit width in Shepherd’s Purse Gene A and B code for two different enzymes which can form wide fruit. Substance X gene A gene B enzyme A enzyme B Active Product wide (A_B_,A_bb, aaB_) narrow (aabb) Substance Y Practice Self check page 111/112 Create a table to compare Type of interaction F2 phenotype ratio Number of phenotypes Exam questions Study book pg 31 Qb Example organism Example trait A women who owned a purebred female albino (lacking pigments) poodle (an autosomal recessive phenotype) wanted white puppies, so she took the dog to a breeder, who said he would mate her female with an albino stud male, also from a pure stock. When six puppies were born they were all black, so the women sued the breeder, claiming that he replaced the stud with a black dog, giving her six unwanted puppies. You are called in as an expert witness, and the defence asks you if it is possible to produce black offspring from two purebreeding recessive albino parents. (a) Discuss what evidence you would give by explaining what gene-gene interrelationship is involved in each of the parents and using appropriate allele symbols, draw biochemical pathways to obtain an albino phenotype and a black phenotype. Clear well-labelled diagrams may be used to help you answer this question. (b) Explain the expected possible F2 phenotypes ratios if two of the black puppies were allowed to interbreed. Exams 4U 2007 Q5 It is definitely a form of epistasis (that is – there is obviously more than one gene involved. We know of 3 types of epistasis; collaboration, supplementary, complementary Use the process of elimination There are only 2 phenotypes, therefore it is not collaboration There is no intermediary product, therefore it is not supplementary Both genes are required to create colour, therefore it is complementary So, both parent dogs are claimed to be pure breeding – therefore homozygous – – What are our options for this with 2 genes? – AABB, aabb, but also AAbb and aaBB Note a P1 cross of AABB x aabb and a P1 cross of AAbb x aaBB both make the F1 generation AaBb, which produces the complementary ratio of 9:7 in the F2 Pleiotropy A single gene may produce a product that can influence a number of traits in the phenotype.