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Benjamin A. Pierce •Genetics Essentials • Concepts and Connections • SECOND EDITION http://courses.bfwpub.com/pierceessentials2e © 2013 W. H. Freeman and Company Benjamin A. Pierce •Genetics Essentials • Concepts and Connections • SECOND EDITION CHAPTER 1 Introduction to Genetics © 2013 W. H. Freeman and Company The Case of the Hopi Native Americans Albinism: 1:200 in the tribe 1:20000 elsewhere The Case of the Hopi Native Americans What are the reasons for such high frequency? Take a guess or two…… Genetics: the Study of Heredity • Most rapidly developing field of science. • affects every living organism • affects all aspects of human society • affects each individual • “Young science” even it was used for thousands of years • Agriculture • Understanding genetics is applying it: • Pharmaceutical • Medicine • Diseases • Gene therapy Genetics: as to you the Bio Student? • Understanding is critical for Bio students: • One of the unifying principles of biology • To understand evolution • To understand development • To apply it to all fields of biological study • Taxonomy • Ecology • Behavior • Any others you might think of?? Genetic Diversity and Evolution • Enormous diversity of organisms • complexity • organization • environment • What is common? • Use similar genetic systems • DNA and RNA • Almost identical coding • Copy and translate is remarkably similar • All lead to common ancestor…. ‘….life is river of DNA that runs through time, connecting all organisms past and present….’ (R. Dawkins, paraphrased) So what? • How knowing the genetic mechanisms of one organism helps? • Bacteria- yeast – flies- humans • And anywhere in-between • Evolution is based on genetic change • Step one: Random changes arise in heredity • Step two: Number of organisms with the change increases or decreases • Use genetic techniques to establish evolutionary relationships • Neanderthals and us • The origins of Homo Sapiens • How modern protein looked 2.5 billion years ago • And how it will look in the future Divisions of Genetics • Three major subdivisions • Transmission genetics • Molecular genetics • Population genetics • Transmission Genetics • Basic principles of heredity • Chromosomes and genes (arrangement, mapping) • Molecular Genetics • Chemical nature of genes • Encoding, replication and expression of information. • Population Genetics • Genetic composition of individuals of same species • Change over time and space - evolution Model Genetic Organisms • Organisms with characteristics useful for genetic analysis • Short generation time • Large but manageable number of progeny • Laboratory adaptability • Inexpensive housing and propagation Some Other Models • Depending on the area of study other model organisms are used: • Neurospora crassa (bread mold) • Zea mays (corn) • Xenopus laevis (clawed frog) • Danio rerio (zebra fish) Some Genetics History • Domestication of plants and animals is the first evidence of understanding of heredity and its application: • Wheat, lentils, barley, dogs, sheep, goats (10-12000 years ago) • Sophisticated techniques (artificial pollination; 4000 years ago) • Many other plants and animals throughout time Some Genetics History • The Greeks: • Pangenesis • Inheritance of acquired characteristics • Seventeenth century: • Preformationism • Blending inheritance Genetics History: the Science at Last • The prerequisites: • Plant reproduction experiments (17-18th century) • Gregor Mendel (19th century) • Cell theory • Look closely at the cells, mitosis observed • Theory of evolution • Charles Darwin’s ‘On the Origin of Species’ • Germ-plasm theory Genetics History: the Science at Last • Rediscovery of Mendel leads to explosion of genetic experiments: • 1902: genes are located on chromosomes • 1910: first genetic mutation in flies • 1930s: transformation of bacteria • 1940s: DNA emerges as ‘suspect’ carrying hereditary information • 1953: 3-D DNA structure • 1960s: genetic code established • 1970s: recombinant DNA and DNA sequencing • 1983: PCR • 1990s: Human Genome Project; first complete genome sequences of bacteria and yeast • 2000: rough draft of the human genome published; 2003 finished The Future of Genetics • Very bright: • Rapid sequencing methods (personalized medicine) • More diseases linked to specific genetic makeup • Evolutionary linkages • Functions of RNAs (siRNA; microRNA) • Bioinformatics • Crop improvement • Too many to list…… Important Fundamental Concepts • Home assignment pp. 11-12 (will be tested) READ CHAPTER 2, will be tested • Home assignment pp. 17-38 (will be tested) • Processes and concepts that are known from BIO-150
