Sexual selection. Types of selection. Gametic investment. Natural: fecundity, survival. Sexual: number of mates. Consequences of Bateman s principle
|
|
- Jordan Nicholson
- 7 years ago
- Views:
Transcription
1 Sexual selection The sight of a feather in a peacock's tail, whenever I gaze at it, makes me sick! Types of selection guppies Natural: fecundity, survival Sex differences in gamete investment, production Gametic investment Sexual: number of mates pike cichlid Bateman s principle Sexual selection depends on the success of certain individuals over others of the same sex, in relation to the propagation of the species; while natural selection depends on the success of both sexes, at all ages, in relation to the general conditions of life. -- Charles Darwin Angus Bateman Generalities from Bateman s principle Males compete for access to females Females choose among males Consequences of Bateman s principle Higher variance in mating success in males satin bowerbird 1
2 Primary sexual traits = necessary for reproduction Gamete production (primary) + gamete delivery (secondary) Secondary sexual traits = increase the probability of mating or the number of mates obtained Sceloporus undulatus Expression of secondary sexual traits often mediated by androgens black grouse Mechanisms of sexual selection Mechanisms of sexual selection Selects for traits that aid in combat, territory defense Selects for traits that increase attractiveness 2
3 Mechanisms of sexual selection Consequences of sexual selection More likely concordant with natural selection More likely to oppose natural selection Marine iguanas on the Galápagos Males larger than optimal range Scramble competition = indirect interaction Contest competition = direct interaction sage grouse Hercules beetle Males guard females when most receptive Seychelles warbler Seychelles warbler 3
4 Reproductive success Males may adopt alternative strategies Satellite or sneaker behavior Female mimicry Strategies usually conditional, occasionally genetic Three tactics in marine isopods horseshoe crabs One locus, three alleles If genetically controlled, what would we predict about the fitness of each genotype? Depends on density of females Resident (85%) and satellite (15%) morphs in ruffs alpha males Pedigree analysis suggests one gene, two alleles alpha beta gamma gamma males Recently discovered faeder morph has enlarged testes Intrasexual competition: postcopulatory Copulatory plugs: (i) sperm storage, (ii) chastity enforcement or (iii) prevention of sperm loss? Intrasexual competition: postcopulatory Male garter snakes avoid mating with females for 48 h based on plug odor? Thamnophis radix palm civet Females often mated 2x per night, 2nd male dislodged plug left by first Suggests sperm loss function no sperm in plugs Observed Mating Status and Courting Activities of Female Garter Snake Number Courted Number Not Courted T. sirtalis without plug 21 6 T. sirtalis with plug
5 Reproductive success Frequency Sperm competition black damselfy Modified penis can remove >90% of previous males sperm Sex role reversals male female dunnock Birds lack morphological sophistication of insects Fertility window results in sex role reversal in topi Sex-role reversals in birds Sex-role reversals and sexual selection Wilson s phalarope black coucal Even in clade with apparently reversed sex roles, does sexual selection act more strongly on females? Parameter Mated females Unmated females Length mm mm Mass 0.4 g 0.29 g Color index Males rarely sing Males provide all care for young Females larger males females Gulf pipefish Number of mates Intensity of sexual selection Intensity of sexual selection Mating success = number of matings Reproductive success = number of offspring What did Bateman predict about the relationship between mating success and reproductive success for males and females? Drosophila melanogaster broad nosed pipefish Sexual selection or Bateman s gradient Mating success 5
Science 10-Biology Activity 14 Worksheet on Sexual Reproduction
Science 10-Biology Activity 14 Worksheet on Sexual Reproduction 10 Name Due Date Show Me NOTE: This worksheet is based on material from pages 367-372 in Science Probe. 1. Sexual reproduction requires parents,
More informationBiology 1406 - Notes for exam 5 - Population genetics Ch 13, 14, 15
Biology 1406 - Notes for exam 5 - Population genetics Ch 13, 14, 15 Species - group of individuals that are capable of interbreeding and producing fertile offspring; genetically similar 13.7, 14.2 Population
More informationLAB : PAPER PET GENETICS. male (hat) female (hair bow) Skin color green or orange Eyes round or square Nose triangle or oval Teeth pointed or square
Period Date LAB : PAPER PET GENETICS 1. Given the list of characteristics below, you will create an imaginary pet and then breed it to review the concepts of genetics. Your pet will have the following
More informationChapter 9 Patterns of Inheritance
Bio 100 Patterns of Inheritance 1 Chapter 9 Patterns of Inheritance Modern genetics began with Gregor Mendel s quantitative experiments with pea plants History of Heredity Blending theory of heredity -
More informationEvolution (18%) 11 Items Sample Test Prep Questions
Evolution (18%) 11 Items Sample Test Prep Questions Grade 7 (Evolution) 3.a Students know both genetic variation and environmental factors are causes of evolution and diversity of organisms. (pg. 109 Science
More informationFeb 26: Song Dialects: Birds. Why Do Birds Sing?
Feb 26: Song Dialects: Birds Why Do Birds Sing? Why this is an ill-posed question need to specify the correct level of analysis (for now, we are referring to the functional question of survival value)
More informationLecture 10 Friday, March 20, 2009
Lecture 10 Friday, March 20, 2009 Reproductive isolating mechanisms Prezygotic barriers: Anything that prevents mating and fertilization is a prezygotic mechanism. Habitat isolation, behavioral isolation,
More informationHeredity - Patterns of Inheritance
Heredity - Patterns of Inheritance Genes and Alleles A. Genes 1. A sequence of nucleotides that codes for a special functional product a. Transfer RNA b. Enzyme c. Structural protein d. Pigments 2. Genes
More informationMCB41: Second Midterm Spring 2009
MCB41: Second Midterm Spring 2009 Before you start, print your name and student identification number (S.I.D) at the top of each page. There are 7 pages including this page. You will have 50 minutes for
More information7A The Origin of Modern Genetics
Life Science Chapter 7 Genetics of Organisms 7A The Origin of Modern Genetics Genetics the study of inheritance (the study of how traits are inherited through the interactions of alleles) Heredity: the
More informationBasic Principles of Forensic Molecular Biology and Genetics. Population Genetics
Basic Principles of Forensic Molecular Biology and Genetics Population Genetics Significance of a Match What is the significance of: a fiber match? a hair match? a glass match? a DNA match? Meaning of
More informationPLANT EVOLUTION DISPLAY Handout
PLANT EVOLUTION DISPLAY Handout Name: TA and Section time Welcome to UCSC Greenhouses. This sheet explains a few botanical facts about plant reproduction that will help you through the display and handout.
More informationSimulation Model of Mating Behavior in Flies
Simulation Model of Mating Behavior in Flies MEHMET KAYIM & AYKUT Ecological and Evolutionary Genetics Lab. Department of Biology, Middle East Technical University International Workshop on Hybrid Systems
More informationChromosomes, Mapping, and the Meiosis Inheritance Connection
Chromosomes, Mapping, and the Meiosis Inheritance Connection Carl Correns 1900 Chapter 13 First suggests central role for chromosomes Rediscovery of Mendel s work Walter Sutton 1902 Chromosomal theory
More informationEcology - scientific study of how individuals interact with their environment 34.1
Biology 1407 Exam 4 Notes - Ecology Ch.35-36 Ecology - scientific study of how individuals interact with their environment 34.1 - organisms have adapted to - evolved in - a particular set of conditions;
More informationSummary. 16 1 Genes and Variation. 16 2 Evolution as Genetic Change. Name Class Date
Chapter 16 Summary Evolution of Populations 16 1 Genes and Variation Darwin s original ideas can now be understood in genetic terms. Beginning with variation, we now know that traits are controlled by
More informationChapter 13: Meiosis and Sexual Life Cycles
Name Period Concept 13.1 Offspring acquire genes from parents by inheriting chromosomes 1. Let s begin with a review of several terms that you may already know. Define: gene locus gamete male gamete female
More informationCourse Outline. Parental care and sexual conflict. Papers for 22 October. What is sexual conflict? 10/19/2009
Parental and sexual conflict Course Outline 1. Sexual selection * 2. Parent offspring conflict * 3. Sexual conflict over parental René van Dijk Email: R.E.van.Dijk@bath.ac.uk 19 October 2009 4. Genomic
More informationEvolution, Natural Selection, and Adaptation
Evolution, Natural Selection, and Adaptation Nothing in biology makes sense except in the light of evolution. (Theodosius Dobzhansky) Charles Darwin (1809-1882) Voyage of HMS Beagle (1831-1836) Thinking
More informationParental care and sexual conflict. Email: R.E.van.Dijk@bath.ac.uk
Parental care and sexual conflict René van Dijk Email: R.E.van.Dijk@bath.ac.uk Papers for 15 November Team 1 Royle,, N. J., I. R. Hartley & G. A. Parker. 2002. Sexual conflict reduces offspring fitness
More informationAnimal behavior can be investigated in a variety of
7 Behavioral Ecology Concept Outline 7. Evolutionary forces shape behavior. Behavioral Ecology. Behavior is shaped by natural selection. Foraging Behavior. Natural selection favors the most efficient foraging
More informationGenetics for the Novice
Genetics for the Novice by Carol Barbee Wait! Don't leave yet. I know that for many breeders any article with the word genetics in the title causes an immediate negative reaction. Either they quickly turn
More information5 GENETIC LINKAGE AND MAPPING
5 GENETIC LINKAGE AND MAPPING 5.1 Genetic Linkage So far, we have considered traits that are affected by one or two genes, and if there are two genes, we have assumed that they assort independently. However,
More informationInheritance of Color And The Polled Trait Dr. R. R. Schalles, Dept. of Animal Sciences and Industry Kansas State University
Inheritance of Color And The Polled Trait Dr. R. R. Schalles, Dept. of Animal Sciences and Industry Kansas State University Introduction All functions of an animal are controlled by the enzymes (and other
More informationA Hands-On Exercise To Demonstrate Evolution
HOW-TO-DO-IT A Hands-On Exercise To Demonstrate Evolution by Natural Selection & Genetic Drift H ELEN J. YOUNG T RUMAN P. Y OUNG Although students learn (i.e., hear about) the components of evolution by
More informationPest Control by Genetic Manipulation of Sex Ratio
BIOLOGICAL AND MICROBIAL CONTROL Pest Control by Genetic Manipulation of Sex Ratio PAUL SCHLIEKELMAN, 1 STEPHEN ELLNER, 2 AND FRED GOULD 3 J. Econ. Entomol. 98(1): 18Ð34 (2005) ABSTRACT We model the release
More informationVon Mäusen und Menschen E - 1
Von Mäusen und Menschen E - 1 Mus musculus: Genetic Portrait of the House Mouse E - 3 Outline Mouse genome Mouse life cycle Transgenic protocols Addition of genes by nuclear injection Removal of genes
More informationProcess 3.5. A Pour it down the sink. B Pour it back into its original container. C Dispose of it as directed by his teacher.
Process 3.5 Biology EOI sample test questions Objective numbers correspond to the State Priority Academic Student Skills (PASS) standards and objectives. This number is also referenced with the local objective
More informationTitle. Euphausia superba. Author. Sophia Erb
Title Using geometric probability to compare the random and actual mating success of Atlantic Krill, Euphausia superba Author Sophia Erb Abstract Currently the most abundant species on Earth, Atlantic
More informationThe evolution of male mate choice in insects: a synthesis of ideas and evidence
Biol. Rev. (2001), 76, pp. 305 339 Printed in the United Kingdom Cambridge Philosophical Society 305 The evolution of male mate choice in insects: a synthesis of ideas and evidence RUSSELL BONDURIANSKY
More informationBio EOC Topics for Cell Reproduction: Bio EOC Questions for Cell Reproduction:
Bio EOC Topics for Cell Reproduction: Asexual vs. sexual reproduction Mitosis steps, diagrams, purpose o Interphase, Prophase, Metaphase, Anaphase, Telophase, Cytokinesis Meiosis steps, diagrams, purpose
More informationDeterministic computer simulations were performed to evaluate the effect of maternallytransmitted
Supporting Information 3. Host-parasite simulations Deterministic computer simulations were performed to evaluate the effect of maternallytransmitted parasites on the evolution of sex. Briefly, the simulations
More informationChapter 4 Pedigree Analysis in Human Genetics. Chapter 4 Human Heredity by Michael Cummings 2006 Brooks/Cole-Thomson Learning
Chapter 4 Pedigree Analysis in Human Genetics Mendelian Inheritance in Humans Pigmentation Gene and Albinism Fig. 3.14 Two Genes Fig. 3.15 The Inheritance of Human Traits Difficulties Long generation time
More informationHeredity. Sarah crosses a homozygous white flower and a homozygous purple flower. The cross results in all purple flowers.
Heredity 1. Sarah is doing an experiment on pea plants. She is studying the color of the pea plants. Sarah has noticed that many pea plants have purple flowers and many have white flowers. Sarah crosses
More informationLogistic Paradigm. Logistic Paradigm. Paradigms. How should we consider them?
Harvesting Paradigms Sustained Yield Harvesting Paradigms Net-Annual Increment Paradigm The Myth of MSY How should we consider them? The logistic paradigm obviously arises from logistic model. Says that
More informationLAB : THE CHI-SQUARE TEST. Probability, Random Chance, and Genetics
Period Date LAB : THE CHI-SQUARE TEST Probability, Random Chance, and Genetics Why do we study random chance and probability at the beginning of a unit on genetics? Genetics is the study of inheritance,
More informationAP: LAB 8: THE CHI-SQUARE TEST. Probability, Random Chance, and Genetics
Ms. Foglia Date AP: LAB 8: THE CHI-SQUARE TEST Probability, Random Chance, and Genetics Why do we study random chance and probability at the beginning of a unit on genetics? Genetics is the study of inheritance,
More informationOkami Study Guide: Chapter 3 1
Okami Study Guide: Chapter 3 1 Chapter in Review 1. Heredity is the tendency of offspring to resemble their parents in various ways. Genes are units of heredity. They are functional strands of DNA grouped
More informationCCR Biology - Chapter 7 Practice Test - Summer 2012
Name: Class: Date: CCR Biology - Chapter 7 Practice Test - Summer 2012 Multiple Choice Identify the choice that best completes the statement or answers the question. 1. A person who has a disorder caused
More informationBasics of Marker Assisted Selection
asics of Marker ssisted Selection Chapter 15 asics of Marker ssisted Selection Julius van der Werf, Department of nimal Science rian Kinghorn, Twynam Chair of nimal reeding Technologies University of New
More informationIncomplete Dominance and Codominance
Name: Date: Period: Incomplete Dominance and Codominance 1. In Japanese four o'clock plants red (R) color is incompletely dominant over white (r) flowers, and the heterozygous condition (Rr) results in
More informationSexual Reproduction. The specialized cells that are required for sexual reproduction are known as. And come from the process of: GAMETES
Sexual Reproduction Sexual Reproduction We know all about asexual reproduction 1. Only one parent required. 2. Offspring are identical to parents. 3. The cells that produce the offspring are not usually
More informationMeiosis is a special form of cell division.
Page 1 of 6 KEY CONCEPT Meiosis is a special form of cell division. BEFORE, you learned Mitosis produces two genetically identical cells In sexual reproduction, offspring inherit traits from both parents
More informationIntroduction: Agonistic Behavior in Betta splendens
Introduction: Agonistic Behavior in Betta splendens Ethology is a branch of zoology focused on the study of animal behavior in natural situations. While the ethologist usually spends a great deal of time
More informationSex for the purposes of this class refers to 4 components
Sex for the purposes of this class refers to 4 components Gonadal sex Gonads or where gametes are produced by meiosis Somatic sex Somatic cells are cells that undergo mitosis. They can be divided into
More informationRingneck Doves. A Handbook of Care & Breeding
Ringneck Doves A Handbook of Care & Breeding With over 100 Full Color Photos, Including Examples and Descriptions of 33 Different Colors and Varieties. K. Wade Oliver Table of Contents Introduction, 4
More informationSpecies-of-the-Week. Blanding s Turtle (Emydoidea blandingii) Species of Special Concern in Michigan
Species-of-the-Week Blanding s Turtle (Emydoidea blandingii) Habitat Productive & clean shallow water (soft substrates) = ponds, marshes, swamps, bogs, wet prairies, slow rivers Spring & summer = terrestrial
More informationThe Concept of Inclusive Fitness 1 Ethology and Behavioral Ecology Spring 2008
The Concept of Inclusive Fitness 1 Ethology and Behavioral Ecology Spring 2008 I. The components of Fitness A. Direct fitness W d, darwinian fitness, W gained by increasing ones own reproduction relative
More informationThe Developing Person Through the Life Span 8e by Kathleen Stassen Berger
The Developing Person Through the Life Span 8e by Kathleen Stassen Berger Chapter 3 Heredity and Environment PowerPoint Slides developed by Martin Wolfger and Michael James Ivy Tech Community College-Bloomington
More informationCHROMOSOMES AND INHERITANCE
SECTION 12-1 REVIEW CHROMOSOMES AND INHERITANCE VOCABULARY REVIEW Distinguish between the terms in each of the following pairs of terms. 1. sex chromosome, autosome 2. germ-cell mutation, somatic-cell
More informationCastes in Social Insects
Castes in Social Insects Module Chemical Ecology, Ayasse Outline Castes in Social Insects 1. definition 2. castes in social insects 3. caste determination A. psychophysiological caste determination B.
More informationThe correct answer is c A. Answer a is incorrect. The white-eye gene must be recessive since heterozygous females have red eyes.
1. Why is the white-eye phenotype always observed in males carrying the white-eye allele? a. Because the trait is dominant b. Because the trait is recessive c. Because the allele is located on the X chromosome
More informationSocial Insects. Social Insects. Subsocial 4/11/10. More widespread 13 orders of insects no reproductive division of labor
Social Insects Sociality evolved multiple times in insects Much of Earth s fauna consists of social insects They play major roles in entire ecosystems Proliferation of ants and termites associated with
More informationName: 4. A typical phenotypic ratio for a dihybrid cross is a) 9:1 b) 3:4 c) 9:3:3:1 d) 1:2:1:2:1 e) 6:3:3:6
Name: Multiple-choice section Choose the answer which best completes each of the following statements or answers the following questions and so make your tutor happy! 1. Which of the following conclusions
More informationUnique reproductive strategies have developed to ensure maximum reproductive success.
Animal Reproductive Strategies The ultimate goal of each species is to produce the maximum number of surviving offspring using the least amount of energy. This is called the reproductive effort. Asexual
More information240Tutoring Life Science Study Material
240Tutoring Life Science Study Material This information is a sample of the instructional content and practice questions found on the 240Tutoring GACE Early Childhood Education. This information is meant
More informationChromosomal Basis of Inheritance. Ch. 3
Chromosomal Basis of Inheritance Ch. 3 THE CHROMOSOME THEORY OF INHERITANCE AND SEX CHROMOSOMES! The chromosome theory of inheritance describes how the transmission of chromosomes account for the Mendelian
More informationDRAGON GENETICS LAB -- Principles of Mendelian Genetics
DragonGeneticsProtocol Mendelian Genetics lab Student.doc DRAGON GENETICS LAB -- Principles of Mendelian Genetics Dr. Pamela Esprivalo Harrell, University of North Texas, developed an earlier version of
More informationLesson 3: Fish Life Cycle
Lesson 3: Fish Life Cycle Activity: Diagram fish life cycle. Grade level: 4-8 Subjects: Science, social studies Setting: Classroom Duration: 50 minutes Key Terms: Fry, life cycle, life history, spawn,
More informationDissect a Flower. Huntington Library, Art Collections, and Botanical Gardens
Huntington Library, Art Collections, and Botanical Gardens Dissect a Flower Overview Students dissect an Alstroemeria or similar flower to familiarize themselves with the basic parts of a flower. They
More informationName: Class: Date: ID: A
Name: Class: _ Date: _ Meiosis Quiz 1. (1 point) A kidney cell is an example of which type of cell? a. sex cell b. germ cell c. somatic cell d. haploid cell 2. (1 point) How many chromosomes are in a human
More informationStructures of animals
Structures of animals Name: All animals have been designed with different parts, which we call structures, that make up their bodies. Each of these structures is important as it is used to perform a specific
More informationMendelian and Non-Mendelian Heredity Grade Ten
Ohio Standards Connection: Life Sciences Benchmark C Explain the genetic mechanisms and molecular basis of inheritance. Indicator 6 Explain that a unit of hereditary information is called a gene, and genes
More informationProblems 1-6: In tomato fruit, red flesh color is dominant over yellow flesh color, Use R for the Red allele and r for the yellow allele.
Genetics Problems Name ANSWER KEY Problems 1-6: In tomato fruit, red flesh color is dominant over yellow flesh color, Use R for the Red allele and r for the yellow allele. 1. What would be the genotype
More informationLAB 11 Drosophila Genetics
LAB 11 Drosophila Genetics Introduction: Drosophila melanogaster, the fruit fly, is an excellent organism for genetics studies because it has simple food requirements, occupies little space, is hardy,
More informationPopulation Genetics and Multifactorial Inheritance 2002
Population Genetics and Multifactorial Inheritance 2002 Consanguinity Genetic drift Founder effect Selection Mutation rate Polymorphism Balanced polymorphism Hardy-Weinberg Equilibrium Hardy-Weinberg Equilibrium
More informationIntroduction. What is Ecological Genetics?
1 Introduction What is Ecological enetics? Ecological genetics is at the interface of ecology, evolution, and genetics, and thus includes important elements from each of these fields. We can use two closely
More informationGenetics 1. Defective enzyme that does not make melanin. Very pale skin and hair color (albino)
Genetics 1 We all know that children tend to resemble their parents. Parents and their children tend to have similar appearance because children inherit genes from their parents and these genes influence
More informationFrom: Conner, J. and D. Hartl, A Primer of Ecological Genetics. In prep. for Sinauer
Conner and Hartl p. 4-1 From: Conner, J. and D. Hartl, A Primer of Ecological Genetics. In prep. for Sinauer Chapter 4: Quantitative genetics I: Genetic variation 4.1 Mendelian basis of continuous traits
More informationTerms: The following terms are presented in this lesson (shown in bold italics and on PowerPoint Slides 2 and 3):
Unit B: Understanding Animal Reproduction Lesson 4: Understanding Genetics Student Learning Objectives: Instruction in this lesson should result in students achieving the following objectives: 1. Explain
More informationBaby Lab. Class Copy. Introduction
Class Copy Baby Lab Introduction The traits on the following pages are believed to be inherited in the explained manner. Most of the traits, however, in this activity were created to illustrate how human
More informationUnderstanding Animal Reproduction Technology
Lesson 251c Understanding Animal Reproduction Technology Core Area. Animal Science Unit 250. Genetics and Breeding Topic 251. Fertilization California Academic Standard. Science Grades 9 through 12 Biology/Life
More informationChapter 13: Meiosis and Sexual Life Cycles
Name Period Chapter 13: Meiosis and Sexual Life Cycles Concept 13.1 Offspring acquire genes from parents by inheriting chromosomes 1. Let s begin with a review of several terms that you may already know.
More informationHuman Blood Types: Codominance and Multiple Alleles. Codominance: both alleles in the heterozygous genotype express themselves fully
Human Blood Types: Codominance and Multiple Alleles Codominance: both alleles in the heterozygous genotype express themselves fully Multiple alleles: three or more alleles for a trait are found in the
More informationEach person normally has 23 pairs of chromosomes, or 46 in all. We inherit one chromosome per pair from our mother and one from our father.
AP Psychology 2.2 Behavioral Genetics Article Chromosomal Abnormalities About 1 in 150 babies is born with a chromosomal abnormality (1, 2). These are caused by errors in the number or structure of chromosomes.
More informationMendelian inheritance and the
Mendelian inheritance and the most common genetic diseases Cornelia Schubert, MD, University of Goettingen, Dept. Human Genetics EUPRIM-Net course Genetics, Immunology and Breeding Mangement German Primate
More information(D) 181-183, 186-187, 190-193 TFYI 187 TPK 190
NEVADA Life Science Content Standards for Grade 8 Life s Structure and Function A From Bacteria to Plants B Animal Diversity C Human Body Systems D OBJECTIVES Content Standard 6.0: Structure and Function
More informationEvolution by Natural Selection 1
Evolution by Natural Selection 1 I. Mice Living in a Desert These drawings show how a population of mice on a beach changed over time. 1. Describe how the population of mice is different in figure 3 compared
More informationPrinciples of Evolution - Origin of Species
Theories of Organic Evolution X Multiple Centers of Creation (de Buffon) developed the concept of "centers of creation throughout the world organisms had arisen, which other species had evolved from X
More informationLesson Plan: GENOTYPE AND PHENOTYPE
Lesson Plan: GENOTYPE AND PHENOTYPE Pacing Two 45- minute class periods RATIONALE: According to the National Science Education Standards, (NSES, pg. 155-156), In the middle-school years, students should
More informationCHAPTER 15 THE CHROMOSOMAL BASIS OF INHERITANCE. Section B: Sex Chromosomes
CHAPTER 15 THE CHROMOSOMAL BASIS OF INHERITANCE Section B: Sex Chromosomes 1. The chromosomal basis of sex varies with the organism 2. Sex-linked genes have unique patterns of inheritance 1. The chromosomal
More informationBIO 184 Page 1 Spring 2013 NAME VERSION 1 EXAM 3: KEY. Instructions: PRINT your Name and Exam version Number on your Scantron
BIO 184 Page 1 Spring 2013 EXAM 3: KEY Instructions: PRINT your Name and Exam version Number on your Scantron Example: PAULA SMITH, EXAM 2 VERSION 1 Write your name CLEARLY at the top of every page of
More informationVariations on a Human Face Lab
Variations on a Human Face Lab Introduction: Have you ever wondered why everybody has a different appearance even if they are closely related? It is because of the large variety or characteristics that
More informationReebops. A model organism for teaching genetic concepts
A model organism for teaching genetic concepts The activity helps to demonstrate how genetics is responsible both for similarities and variation among members of the same species. are imaginary organisms
More informationAnimal Models of Human Behavioral and Social Processes: What is a Good Animal Model? Dario Maestripieri
Animal Models of Human Behavioral and Social Processes: What is a Good Animal Model? Dario Maestripieri Criteria for assessing the validity of animal models of human behavioral research Face validity:
More informationBiology 1406 Exam 4 Notes Cell Division and Genetics Ch. 8, 9
Biology 1406 Exam 4 Notes Cell Division and Genetics Ch. 8, 9 Ch. 8 Cell Division Cells divide to produce new cells must pass genetic information to new cells - What process of DNA allows this? Two types
More information17. A testcross A.is used to determine if an organism that is displaying a recessive trait is heterozygous or homozygous for that trait. B.
ch04 Student: 1. Which of the following does not inactivate an X chromosome? A. Mammals B. Drosophila C. C. elegans D. Humans 2. Who originally identified a highly condensed structure in the interphase
More informationWorksheet: The theory of natural selection
Worksheet: The theory of natural selection Senior Phase Grade 7-9 Learning area: Natural Science Strand: Life and living Theme: Biodiversity, change and continuity Specific Aim 1: Acquiring knowledge of
More informationα α λ α = = λ λ α ψ = = α α α λ λ ψ α = + β = > θ θ β > β β θ θ θ β θ β γ θ β = γ θ > β > γ θ β γ = θ β = θ β = θ β = β θ = β β θ = = = β β θ = + α α α α α = = λ λ λ λ λ λ λ = λ λ α α α α λ ψ + α =
More information4.2 Meiosis. Meiosis is a reduction division. Assessment statements. The process of meiosis
4.2 Meiosis Assessment statements State that meiosis is a reduction division of a diploid nucleus to form haploid nuclei. Define homologous chromosomes. Outline the process of meiosis, including pairing
More informationContinuous and discontinuous variation
Continuous and discontinuous variation Variation, the small differences that exist between individuals, can be described as being either discontinuous or continuous. Discontinuous variation This is where
More informationMendelian Genetics in Drosophila
Mendelian Genetics in Drosophila Lab objectives: 1) To familiarize you with an important research model organism,! Drosophila melanogaster. 2) Introduce you to normal "wild type" and various mutant phenotypes.
More informationTrasposable elements: P elements
Trasposable elements: P elements In 1938 Marcus Rhodes provided the first genetic description of an unstable mutation, an allele of a gene required for the production of pigment in maize. This instability
More informationGENETICS AND HEREDITY
Page No.1 GENETICS Genetics is the science which deals with the mechanisms responsible for similarities and differences among closely related species. The term genetic was coined by W.Batesmanin 1905.
More informationEmily Rose. Texas A&M University College Station, TX 77840 (347)- 524-2291 erose@bio.tamu.edu
Emily Rose Texas A&M University College Station, TX 77840 (347)- 524-2291 erose@bio.tamu.edu Education: Texas A&M University, College Station, Texas Ph.D. candidate in Biology Department Advisor: Dr. Adam
More informationCell Growth and Reproduction Module B, Anchor 1
Cell Growth and Reproduction Module B, Anchor 1 Key Concepts: - The larger a cell becomes, the more demands the cell places on its DNA. In addition, a larger cell is less efficient in moving nutrients
More informationAppendix J. Genetic Implications of Recent Biotechnologies. Appendix Contents. Introduction
Genetic Improvement and Crossbreeding in Meat Goats Lessons in Animal Breeding for Goats Bred and Raised for Meat Will R. Getz Fort Valley State University Appendix J. Genetic Implications of Recent Biotechnologies
More informationGCSE BITESIZE Examinations
GCSE BITESIZE Examinations General Certificate of Secondary Education AQA SCIENCE A BLY1B Unit Biology B1b (Evolution and Environment) AQA BIOLOGY Unit Biology B1b (Evolution and Environment) FOUNDATION
More informationI. Genes found on the same chromosome = linked genes
Genetic recombination in Eukaryotes: crossing over, part 1 I. Genes found on the same chromosome = linked genes II. III. Linkage and crossing over Crossing over & chromosome mapping I. Genes found on the
More information