1/27/10 More complications to Mendel
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1 1/27/10 More complications to Mendel Required Reading: The Interpretation of Genes Natural History 10/02 pg NOTE: In this and subsequent lectures, we may or may not review and/or discuss every example or every page of this lecture in class. NONETHELESS: You are responsible for all material in the posted lecture notes (unless otherwise informed) 1
2 The mother and daughter are heterozygous for the same dominant mutant allele Waardenburg s syndrome accounts for 2-3% of all cases of congenital deafness in the US This (Waardenburg s) mutant allele shows variable expressivity 2
3 Expressivity: the degree to which a particular genotype is expressed in the phenotype Variable expressivity: a variable phenotype is seen among animals of the same genotype (with respect to the trait in question) To assess expressivity, you must examine a two or more individuals who are the same genotype with respect to the specific gene under examination 3
4 An extreme form of variable expressivity: Penetrance: the proportion of individuals with a specific genotype who manifest that genotype at the phenotype level Incomplete penetrance: not every individual of a given genotype shows the expected phenotype; that is, the phenotypic effects of the allele are not always seen in the individual 4
5 Attention to detail. Is there anything unusual in this photo? 5
6 6 Meet Jake Moore. In Nov (2005) a family friend noticed an odd white reflection in his right eye. His left eye shows the typical red-eye effect seen when the retina reflects light from a camera flash
7 Jake was subsequently diagnosed with retinoblastoma, a pediatric eye cancer that affects 1 in 20,000 children. Jake s right eye already had two advanced tumors Retinoblastoma in humans inherited cancer characterized by a high frequency of tumors of the retina inherited as an autosomal dominant predisposition Rb - = mutant Rb + = normal Rb + Rb + normal; eye cancers rare Rb + Rb - 90% of hets get eye cancers (# tumors varies) Rb + Rb - 10% of hets never get eye cancers mechanism of incomplete penetrance known (see below) Variable # tumors in affected individuals an example of variation in expressivity 7
8 What mechanisms could explain incomplete penetrance and variable expressivity? How can two individuals with the same genotype (for a particular trait) show different phenotypes? 8
9 A model of phenotypic determination that shows how genes, environment and developmental noise interact to produce a phenotype 9
10 10
11 Mechanisms underlying incomplete penetrance and variable expressivity (i) variations in the environment to which the individuals are exposed (ii) inherent element of randomness (noise) in molecular, biochemical and developmental processes such as: random variation in the growth and division or differentiation of cells during development effects of random events -- somatic mutations that produce cancer (iii) variations in the genotype at other loci -- that is, variation in genetic background (such as at modifier or suppressor loci) 11
12 Genetic and environmental effects on eye size in Drosophila a. Scanning electron micrograph of a fly eye showing compound eye made of many individual light receptors (eye facets) b. Infrabar and ultrabar flies carry mutations that affect the number of eye facets c. Effect of growth temperature on three different genotypes 12
13 Required Reading: The Interpretation of Genes Natural History 10/02 pg The theme of this article is that The expresssion of a genome is best understood as a dialogue with an organism s environment. See also optional reading Identical twins grow apart as they age 13
14 Other dramatic examples of the effects of environment on phenotype Science 294: 321 Oct 12, 2001 The water flea Daphnia lumholtzi usually reproduces parthenogenetically: diploid females produce diploid daughters without interference by the rare and much smaller males. Thus genetic clones of single females can be generated. The individuals shown are genetic clones: the animal on the left was exposed to chemical cues from predaceous fish the animal on the right was a control The sharp helmet and extended tail spine of the flea on the left protects it from preditors 14
15 from Natural History article referenced above These sisters are 75% identical in genotype Whether they become soldiers, workers or queens depends on a set of environmental cues -- food, temperature and light 15
16 PKU= recessive, loss-of-function mutation in enyzme that catalyzes step A in the diagram on the next page 1/12,000 (Caucasian births) affected with PKU (autosomal recessive ) Info about PKU 16
17 PKU= recessive, loss-of-function mutation in enyzme that catalyzes step A See also Figure 2-21 in text 17
18 aspartame: nutrasweet Asp-Phe dipeptide 18
19 What does the term stochastic mean? 19
20 involving a random variable having an inherent element of randomness or chance kllllk Mechanisms underlying incomplete penetrance and variable expressivity (i) variations in the environment to which the individuals are exposed (ii) inherent element of randomness (noise) in molecular, biochemical and developmental processes such as: random variation in the growth, division, migration or differentiation of cells during development effects of random events such as somatic mutations that produce cancer (iii) variations in the genotype at other loci -- that is, variation in genetic background (such as at modifier or suppressor loci) 20
21 Inherited retinoblastoma: autosomal dominant predisposition to the development of retinoblastomas but the mutant allele is recessive at the cellular level HUH? Role of spontaneous somatic mutation in retinoblastoma, a childhood disease marked by retinal tumors Tumors arise from retinal cells that carry two mutant Rb alleles. (a) In hereditary retinoblastoma, a child receives a normal Rb + allele from one parent and a mutant Rb allele from the other parent. A single mutagenic event in a heterozygous somatic retinal cell that inactivates the normal allele will result in a cell homozygous for two mutant Rb alleles. (b) In sporadic retinoblastoma, a child receives two normal Rb + alleles. Two separate somatic mutations, inactivating both alleles in a particular cell, are required to produce a homozygous Rb /Rb retinal cell. 21
22 the stochastic nature of mutational events explains the incomplete penetrance and variable expressivity elements of randomness:? 22
23 if an Rb rb mutation occurs in a retinoblast (accounts for incomplete penetrance) when and where (which eye and which retinoblast) accounts for at least some aspects of variable expressivity 23
24 Frequency of retinoblastoma worldwide: 1/30,000-1/20,000 children 5-10% of cases are inherited (pre-existing germline mutation) 20-30% of cases result from a new germline mutation in one parent 60-70% are sporadic somatic mutations only CLICK HERE FOR MORE INTERESTING INFO ON RETINOBLASTOMA: 24
25 25
26 Meet (left to right): Rainbow, Allie and cc (carbon copy or copy cat) who is a genetic clone of Rainbow. Rainbow and cc have the same nuclear DNA [Allie is cc s surrogate mom] 26
27 Why do the coats of Rainbow and CC look so different? (Genes explain much, but not everything, about Development) More recent photo Rainbow on left; cc on the right cnn update from Jan What are the elements of chance involved in expression of the calico cat coat phenotype 27
28 X-linked mosaicism due to random X inactivation during embryonic development female embryo heterozygous (Aa) for an X-linked gene Inactivation occurs when the embryo has hundreds of cells 28
29 The calico cat is heterozygous for the X-linked pigment gene and carries a dominant, autosomal white-spotting mutation The Calico Cat and X Inactivation in Mammalian Females The familiar calico cat has patches of orange, black and white fur Calico cats are always female. A few exceptions to this rule have been documented, but male cats typically have either black fur or orange fur, and only very rarely (if the male is XXY) show black and orange patches. 29
30 Why do the coats of Rainbow and CC look so different? A second element of chance is involved in expression of the calico cat coat phenotype 30
31 Developmental biology of neural crest cells provides a nice example of developmental noise or randomness: neural crest cells found only in vertebrates during embryonic development these cells originate along the back mideline of the developing embryo near the neural tube during development these cells migrate extensively throughout the embryo generate a wide variety of differentiated cell types including melanocytes, sensory neurons, facial bone and cartilage recall that the pax-3 mutation that causes Waardenburg s syndrom affects the neural crest cells 31
32 The neural crest cells joyride through the embryo Cross-section of a verterbrate embryo showing the main pathways of neural crest cell migration. The cells that take the pathway just beneath the ectoderm will form pigment cells of the skin 32
33 An small inherent element of randomness in any cell migration -- Consider a black cat either homozygous or hemizygous for the X-linked black pigment allele What might happen is not all regions of the embryonic periphery are populated by neural crest cells destined to become pigment cells (melanocytes)? 33
34 The cats above could be heterozygous for a dominant white-spotting allele (S), but it is possible (and likely for the cat on the right) that the cats are genetically non-spotted (ss) paws are white because of developmental noise 34
35 Cats with more extensive white spotting (such as the calico cat shown below) definitely carry a dominant, white spotting allele which affects the number and/or migration of the melanocytes: 35
36 Why do the coats of Rainbow and CC look so different? Still something funny about CC? 36
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