1. 1 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Human Biology Sylvia S. Mader Michael Windelspecht Chapter 20 Patterns of Genetic Inheritance Lecture Outline Part 3

2. 2 Autosomal recessive disorders of interest ________________ – lack of the enzyme that breaks down fatty acid proteins in lysosomes results in accumulation ________________ – Cl - ions do not pass normally through a cell membrane, resulting in thick mucus in lungs and other places, often causing infections 20.3 Inheritance of Genetic Disorders

3. 3 Phenylketonuria (PKU) – lack of an enzyme needed to make a certain amino acid; affects nervous system development Sickle-cell disease – red blood cells are sickle- shaped rather than __________, resulting in clogged blood vessels 20.3 Inheritance of Genetic Disorders Autosomal recessive disorders of interest

4. 4 Tay-Sachs disease Figure 20.10 Neuron affected by Tay–Sachs disease. 20.3 Inheritance of Genetic Disorders Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. lysosomes Healthy neuron bulging lysosomes Neuron affected by Tay–Sachs

5. 5 Autosomal dominant disorders of interest __________ syndrome – defect in the production of the elastic connective tissue protein fibrillin; results in dislocated lens, long limbs and fingers, caved-in chest, and weak wall of aorta Osteogenesis imperfecta – defect in collagen synthesis; results in weakened, brittle bones ______________ – huntington protein has too many glutamine amino acids, leading to the progressive degeneration of brain cells 20.3 Inheritance of Genetic Disorders

6. 6 Marfan syndrome Figure 20.16 Marfan syndrome. 20.3 Inheritance of Genetic Disorders Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chest wall deformities Long, thin fingers, arms, legs Scoliosis (curvature of the spine) Flat feet Long, narrow face Loose joints Mitral valve prolapse Lens dislocation Severe nearsightedness Stretch marks in skin Recurrent hernias Dural ectasia: stretching of the membrane that holds spinal fluid Enlargement of aorta Aneurysm Aortic wall tear Connective tissue defects Skeleton Heart and blood vesselsEyes Lungs Skin Collapsed lungs (top right): © Ed Reschke

7. 7 Genetic disorders Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. thick mucus defective channel H2OH2O H2OH2O Cl – H2OH2O Cl nebulizer percussion vest © Pat Pendarvis Figure 20.11 Cystic fibrosis disease.Figure 20.12 Huntington disease. 20.3 Inheritance of Genetic Disorders many neurons in normal brain loss of neurons in Huntington brain (both): Courtesy Dr. Hemachandra Reddy, The Neurological Science Institute, Oregon Health & Science University

8. 8 Polygenic inheritance Polygenic traits – 2 or more sets of alleles govern 1 trait –Each dominant allele codes for a product, so these effects are additive. –This results in a continuous variation of phenotypes. –Environmental effects cause intervening phenotypes. –e.g., skin color ranges from very dark to very light –e.g., height varies among individual humans 20.4 Beyond Simple Inheritance Patterns

9. 9 Polygenic inheritance Multifactorial trait – a polygenic trait that is particularly influenced by the environment –e.g., skin color is influenced by sun exposure –e.g., height can be affected by nutrition 20.4 Beyond Simple Inheritance Patterns

10. 10 Polygenic inheritance most are this height Height in Inches tallshort 646668 70 7274 few Number Courtesy University of Connecticut/Peter Morenus, photographer 62 Figure 20.13 Height is a polygenic trait in humans. Figure 20.14 Polygenic inheritance and skin color. 20.4 Beyond Simple Inheritance Patterns Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Frequency 0654321 Number of dominant alleles aabbcc Aabbcc aaBbcc aabbCc AaBbcc AabbCc aaBbCc AAbbcc aaBBcc aabbCC AaBbCc aaBbCC AAbbCc AabbCC AABbcc aaBBCc AaBBcc aaBBCC AAbbCC AABBcc AaBbCC AaBBCc AABbCc AaBBCC AABbCC AABBCcAABBCC

11. 11 Demonstrating environmental influences on phenotype Himalayan rabbit’s coat color is influenced by temperature. There is an allele responsible for melanin production that appears to be active only at lower temperatures. The extremities have a lower temperature and thus the ears, nose, paws, and tail are dark in color. Figure 20.15 Himalayan rabbit with temperature-susceptible coat color. 20.4 Beyond Simple Inheritance Patterns