TECHNIQUE. Parental generation (P) Stamens Carpel 3. RESULTS First filial. offspring (F 1 )
|
|
|
- Calvin Dickerson
- 5 years ago
- Views:
Transcription
1
2 TECHNIQUE 2 Parental generation (P) Stamens Carpel 3 4 RESULTS First filial generation offspring (F ) 5 2
3 EXPERIMENT P Generation (true-breeding parents) Purple flowers White flowers F Generation (hybrids) All plants had purple flowers F 2 Generation 705 purple-flowered plants 224 white-flowered plants 3
4 4
5 Allele for purple flowers Locus for flower-color gene Homologous pair of chromosomes Allele for white flowers 5
6 P Generation Appearance: Purple flowers White flowers Genetic makeup: PP pp Gametes: P p F Generation Appearance: Genetic makeup: Gametes: Purple flowers P p F 2 Generation P Sperm p Eggs P p PP pp 3 6
7 Phenotype Genotype Purple PP (homozygous) 3 Purple (heterozygous) 2 Purple (heterozygous) White pp (homozygous) Ratio 3: Ratio :2: 7
8 TECHNIQUE Dominant phenotype, unknown genotype: PP or? Recessive phenotype, known genotype: pp Predictions If PP If or Sperm Sperm p p p p P Eggs P Eggs P p pp pp RESULTS or All offspring purple offspring purple and offspring white 8
9 EXPERIMENT P Generation YYRR yyrr Gametes YR yr F Generation Predictions Hypothesis of dependent assortment YyRr Hypothesis of independent assortment Predicted offspring of F 2 generation Eggs YR yr Sperm / YR 2 yr YYRR YyRr YyRr yyrr or Eggs YR Yr yr Sperm / YR 4 / 4 Yr / yr 4 yr YYRR YYRr YyRR YyRr YYRr YYrr YyRr Yyrr YyRR YyRr yyrr yyrr 3 Phenotypic ratio 3: yr YyRr Yyrr yyrr yyrr 9 / 6 3 / 6 3 / 6 / 6 RESULTS Phenotypic ratio 9:3:3: Phenotypic ratio approximately 9:3:3: 9
10 Rr Segregation of alleles into eggs Rr Segregation of alleles into sperm Sperm R r R R R R r Eggs r r r R r 0
11 P Generation Red C R C R White C W C W Gametes C R C W F Generation Pink C R C W C R Gametes C W F 2 Generation Eggs C R C R Sperm C W C R C R C R C W C W C R C W C W C W
12 Allele I A I B Carbohydrate i none (a) The three alleles for the ABO blood groups and their associated carbohydrates A B Genotype I A I A or I A i Red blood cell appearance Phenotype (blood group) A I B I B or I B i B I A I B AB ii O (b) Blood group genotypes and phenotypes 2
13 BbCc BbCc Eggs Sperm BC bc Bc bc BC BBCC BbCC BBCc BbCc bc BbCC bbcc BbCc bbcc Bc BBCc BbCc BBcc Bbcc bc BbCc bbcc Bbcc bbcc 9 : 3 : 4 3
14 AaBbCc AaBbCc Sperm / 8 / 8 / 8 / 8 / 8 / 8 / 8 / 8 / 8 / 8 / 8 Eggs / 8 / 8 / 8 / 8 / 8 Phenotypes: Number of / 64 6 / 5 64 / / 5 64 / 6 64 / 64 / 64 dark-skin alleles:
15 5
16 Key Male Female Affected male Affected female Mating Offspring, in birth order (first-born on left) st generation (grandparents) Ww ww ww Ww 2nd generation (parents, aunts, and uncles) Ww ww ww Ww Ww ww 3rd generation (two sisters) WW or Ww ww Widow s peak No widow s peak (a) Is a widow s peak a dominant or recessive trait? st generation (grandparents) Ff Ff ff Ff 2nd generation (parents, aunts, and uncles) FF or Ff ff ff Ff Ff ff 3rd generation (two sisters) ff FF or Ff Attached earlobe Free earlobe (b) Is an attached earlobe a dominant or recessive trait? 6
17 Amniotic fluid withdrawn Fetus Centrifugation Fetus Placenta Uterus Cervix Placenta Chorionic villi Suction tube inserted through cervix Fluid Fetal cells Several hours Several weeks Biochemical tests Several hours Fetal cells Several weeks Karyotyping Several hours (a) Amniocentesis (b) Chorionic villus sampling (CVS) 7
18 Degree of dominance Description Example Complete dominance of one allele Heterozygous phenotype same as that of homozygous dominant PP Incomplete dominance of either allele Heterozygous phenotype intermediate between the two homozygous phenotypes C R C R C R C W C W C W Codominance Heterozygotes: Both phenotypes expressed I A I B Multiple alleles Pleiotropy In the whole population, some genes have more than two alleles One gene is able to affect multiple phenotypic characters ABO blood group alleles I A, I B, i Sickle-cell disease 8
19 Relationship among genes Description Example Epistasis One gene affects the expression of another BbCc BC BC bc Bc BbCc bc bc Bc bc Polygenic inheritance A single phenotypic character is affected by two or more genes AaBbCc 9 : 3 : 4 AaBbCc 9
BIOLOGY. Mendel and the Gene Idea CAMPBELL. Reece Urry Cain Wasserman Minorsky Jackson
CAMPBELL BIOLOGY TENTH EDITION Reece Urry Cain Wasserman Minorsky Jackson 14 Mendel and the Gene Idea Lecture Presentation by Nicole Tunbridge and Kathleen Fitzpatrick Drawing from the Deck of Genes What
Chapter 14 Mendel and the Gene Idea
Chapter 4 Mendel and the Gene Idea AP Biology Overview: Drawing from the Deck of Genes The blending hypothesis was the most widely favored explanation of heredity in the 800s Idea that genetic material
BIOLOGY. Mendelian Genetics. Global Edition. Campbell Reece Urry Cain Wasserman Minorsky Jackson
BIOLOGY TENTH EDITION Global Edition Campbell Reece Urry Cain Wasserman Minorsky Jackson 4 Mendelian Genetics Lecture Presentation by Nicole Tunbridge and Kathleen Fitzpatrick Drawing from the Deck of
Mendel and the Gene Idea
LECTURE PRESENTATIONS For CAMPBELL BIOLOGY, NINTH EDITION Jane B. Reece, Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Robert B. Jackson Chapter 4 Mendel and the Gene Idea Lectures
Welcome Back! 2/6/18. A. GGSS B. ggss C. ggss D. GgSs E. Ggss. 1. A species of mice can have gray or black fur
Welcome Back! 2/6/18 1. A species of mice can have gray or black fur and long or short tails. A cross between blackfurred, long-tailed mice and gray-furred, shorttailed mice produce all black-furred, long-tailed
Patterns of Inheritance
1 Patterns of Inheritance Bio 103 Lecture Dr. Largen 2 Topics Mendel s Principles Variations on Mendel s Principles Chromosomal Basis of Inheritance Sex Chromosomes and Sex-Linked Genes 3 Experimental
UNIT 1-History of life on earth! Big picture biodiversity-major lineages, Prokaryotes, Eukaryotes-Evolution of Meiosis
Where are we in this course??? UNIT 1-History of life on earth! Big picture biodiversity-major lineages, Prokaryotes, Eukaryotes-Evolution of Meiosis Today we will start with UNIT 2 A. Mendel and the Gene
Chapter 9. Patterns of Inheritance. Lectures by Chris C. Romero, updated by Edward J. Zalisko
Chapter 9 Patterns of Inheritance Lectures by Chris C. Romero, updated by Edward J. Zalisko 2010 Pearson Education, Inc. PowerPoint Lectures for Campbell Essential Biology, Fourth Edition Eric Simon, Jane
Chapter 9. Patterns of Inheritance. Lecture by Mary C. Colavito
Chapter 9 Patterns of Inheritance PowerPoint Lectures for Biology: Concepts & Connections, Sixth Edition Campbell, Reece, Taylor, Simon, and Dickey Copyright 2009 Pearson Education, Inc. Lecture by Mary
Introduction Chapter Experimental genetics began in an abbey garden. 9.2 Experimental genetics began in an abbey garden
Introduction Chapter 9 Dogs are one of man s longest genetic experiments. Over thousands of years, humans have chosen and mated dogs with specific traits. Resulting in a diverse array of dogs with distinct
GENETIC VARIATION AND PATTERNS OF INHERITANCE. SOURCES OF GENETIC VARIATION How siblings / families can be so different
9/22/205 GENETIC VARIATION AND PATTERNS OF INHERITANCE SOURCES OF GENETIC VARIATION How siblings / families can be so different Independent orientation of chromosomes (metaphase I of meiosis) Random fertilization
Genetics & The Work of Mendel. AP Biology
Genetics & The Work of Mendel Gregor Mendel Modern genetics began in the mid-1800s in an abbey garden, where a monk named Gregor Mendel documented inheritance in peas u used experimental method u used
Gregor Mendel. What is Genetics? the study of heredity
Gregor Mendel What is Genetics? the study of heredity Gregor Mendel s Peas Pollen: plant s sperm Egg Cells: plants reproductive cells Fertilization: joining of pollen + egg cells develops into embryo in
Genetics & The Work of Mendel
Genetics & The Work of Mendel 2006-2007 Gregor Mendel Modern genetics began in the mid-1800s in an abbey garden, where a monk named Gregor Mendel documented inheritance in peas used experimental method
General Biology 1004 Chapter 9 Lecture Handout, Summer 2005 Dr. Frisby
Slide 1 CHAPTER 9 Patterns of Inheritance PowerPoint Lecture Slides for Essential Biology, Second Edition & Essential Biology with Physiology Presentation prepared by Chris C. Romero Neil Campbell, Jane
Genetics & The Work of Mendel
Genetics & The Work of Mendel 2006-2007 Gregor Mendel Modern genetics began in the mid-1800s in an abbey garden, where a monk named Gregor Mendel documented inheritance in peas used experimental method
Introduction to Genetics and Heredity
Introduction to Genetics and Heredity Although these dogs have similar characteristics they are each unique! I. Early Ideas About Heredity A. The Theory of Blending Inheritance Each parent contributes
Keywords. Punnett Square forked line. gene allele dominant recessive character trait phenotype genotype
Genetics Core Concepts Mendel s Law of Segregation states that there are two alleles for every gene determining a specific characteristic, and these alleles are segregated into separate gametes during
Mendel. The pea plant was ideal to work with and Mendel s results were so accurate because: 1) Many. Purple versus flowers, yellow versus seeds, etc.
Mendel A. Mendel: Before Mendel, people believed in the hypothesis. This is analogous to how blue and yellow paints blend to make. Mendel introduced the hypothesis. This deals with discrete units called
REVIEW SHEET: Units 11 Meiosis, Fertilization, & Genetics
REVIEW SHEET: Units 11 Meiosis, Fertilization, & Genetics ACP BIOLOGY Textbook Reading: Meiosis & Fertilization (Ch. 11.4, 14.1-2) and Classical Genetics (Ch. 11.1-3) Handouts:! NOTES Meiosis & Fertilization!
Genetics. The study of heredity. Father of Genetics: Gregor Mendel (mid 1800 s) Developed set of laws that explain how heredity works
Genetics The study of heredity Father of Genetics: Gregor Mendel (mid 1800 s) Developed set of laws that explain how heredity works Father of Genetics: Gregor Mendel original pea plant (input) offspring
Human Genetics (Learning Objectives)
Human Genetics (Learning Objectives) Recognize Mendel s contribution to the field of genetics. Review what you know about a karyotype: autosomes and sex chromosomes. Understand and define the terms: characteristic,
Mendel and the Gene Idea
Chapter 14 Mendel and the Gene Idea Lecture Outline Overview Every day we observe heritable variations (such as brown, green, or blue eyes) among individuals in a population. These traits are transmitted
Genetics PPT Part 1 Biology-Mrs. Flannery
Genetics PPT Part Biology-Mrs. Flannery In an Abbey Garden Mendel studied garden peas because they were easy to grow, came in many readily distinguishable varieties, had easily visible traits are easily
Genetics: CH9 Patterns of Inheritance
Genetics: CH9 Patterns of Inheritance o o Lecture note Directions Highlight Key information (10-30% of most slides) My Thoughts: Questions, comments, additional information, connections to prior knowledge,
Semester 2- Unit 2: Inheritance
Semester 2- Unit 2: Inheritance heredity -characteristics passed from parent to offspring genetics -the scientific study of heredity trait - a specific characteristic of an individual genes -factors passed
Chapter 9. Patterns of Inheritance. Lectures by Chris C. Romero, updated by Edward J. Zalisko
Chapter 9 Patterns of Inheritance PowerPoint Lectures for Campbell Essential Biology, Fourth Edition Eric Simon, Jane Reece, and Jean Dickey Campbell Essential Biology with Physiology, Third Edition Eric
Chapter 11. Introduction to Genetics
Chapter 11 Introduction to Genetics A Brief History In the past, people did not understand how traits were inherited, but there were many guesses based on things that could be observed. Two theories emerged.
Gene$cs: Part I Mendel and the Gene APGRU5L1
Gene$cs: Part I Mendel and the Gene APGRU5L Colorblindness Marfans Syndrome Polydactyly Freckles Cleft chin Widows peak 2 Mendelian Genetics What do you remember about Mendel and his genetics studies from
Chapter 10 Notes Patterns of Inheritance, Part 1
Chapter 10 Notes Patterns of Inheritance, Part 1 I. Gregor Mendel (1822-1884) a. Austrian monk with a scientific background b. Conducted numerous hybridization experiments with the garden pea, Pisum sativum,
REVIEW SHEET: Units 11 Meiosis, Fertilization, & Genetics
REVIEW SHEET: Units 11 Meiosis, Fertilization, & Genetics HONORS BIOLOGY Textbook Reading: Meiosis & Fertilization (Ch. 11.4, 14.1-2) and Classical Genetics (Ch. 11.1-3) Handouts:! NOTES Meiosis & Fertilization!
Patterns of Inheritance
Patterns of Inheritance Mendel the monk studied inheritance keys to his success: he picked pea plants he focused on easily categorized traits he used true-breeding populations parents always produced offspring
Biology. Slide 1 of 31. End Show. Copyright Pearson Prentice Hall
Biology 1 of 31 11 3 Exploring Mendelian 11-3 Exploring Mendelian Genetics Genetics 2 of 31 Independent Assortment Independent Assortment To determine if the segregation of one pair of alleles affects
Ch 9 Assignment. 2. According to the blending theory of inheritance, a white rabbit crossed with a red rabbit would produce what kind of offspring?
Big idea: Mendel s Laws Answer the following questions as you read modules 9.1 9.10: 1. The study of genetics can be traced back to the Greek physician 2. According to the blending theory of inheritance,
Genes and Inheritance (11-12)
Genes and Inheritance (11-12) You are a unique combination of your two parents We all have two copies of each gene (one maternal and one paternal) Gametes produced via meiosis contain only one copy of
Genetics and Heredity Notes
Genetics and Heredity Notes I. Introduction A. It was known for 1000s of years that traits were inherited but scientists were unsure about the laws that governed this inheritance. B. Gregor Mendel (1822-1884)
Semester 2- Unit 2: Inheritance
Semester 2- Unit 2: Inheritance heredity -characteristics passed from parent to offspring genetics -the scientific study of heredity trait - a specific characteristic of an individual genes -factors passed
Genetics Honors NOtes 2017 SHORT p2.notebook. May 26, 2017
Do Now A man and woman want to predict the chances of their offspring having dimples. The woman is heterozygous for dimples and the man does not have dimples. What is the chance of having a child with
Chapter 9 Patterns of Inheritance
Chapter 9 Patterns of Inheritance PowerPoint Lectures Campbell Biology: Concepts & Connections, Eighth Edition REECE TAYLOR SIMON DICKEY HOGAN Lecture by Edward J. Zalisko Introduction The people of Tibet
The laws of Heredity. Allele: is the copy (or a version) of the gene that control the same characteristics.
The laws of Heredity 1. Definition: Heredity: The passing of traits from parents to their offspring by means of the genes from the parents. Gene: Part or portion of a chromosome that carries genetic information
Chapter 9. Patterns of Inheritance. Lectures by Edward J. Zalisko
Chapter 9 Patterns of Inheritance PowerPoint Lectures for Campbell Essential Biology, Fifth Edition, and Campbell Essential Biology with Physiology, Fourth Edition Eric J. Simon, Jean L. Dickey, and Jane
Name Class Date. Review Guide. Genetics. The fundamental principles of genetics were first discovered by. What type of plant did he breed?.
Name Class Date Review Guide Genetics The fundamental principles of genetics were first discovered by. What type of plant did he breed?. True-breeding parental plants are called the generation. Their hybrid
11.1 The Work of Mendel
11.1 The Work of Mendel Originally prepared by Kim B. Foglia Revised and adapted by Nhan A. Pham Objectives Describe Mendel s classic garden pea experiment. Summarize Mendel s conclusion about inheritance.
Ch 8 Practice Questions
Ch 8 Practice Questions Multiple Choice Identify the choice that best completes the statement or answers the question. 1. What fraction of offspring of the cross Aa Aa is homozygous for the dominant allele?
What in the world? Who s got a guess?
What in the world? Who s got a guess? Cyclopic lamb At one time, 5-7% of newborn sheep in Utah and Idaho were cyclopic, a condition officially known as holoprosencephaly. Cyclopic Kitten It isn t just
9/25/ Some traits are controlled by a single gene. Selective Breeding: Observing Heredity
Chapter 7 Learning Outcomes Explain the concept of a single-gene trait Describe Mendel s contributions to the field of genetics Be able to define the terms gene, allele, dominant, recessive, homozygous,
Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 6 Patterns of Inheritance
Chapter 6 Patterns of Inheritance Genetics Explains and Predicts Inheritance Patterns Genetics can explain how these poodles look different. Section 10.1 Genetics Explains and Predicts Inheritance Patterns
MENDELIAN GENETICS. Law of Dominance: Law of Segregation: GAMETE FORMATION Parents and Possible Gametes: Gregory Mendel:
MENDELIAN GENETICS Gregory Mendel: Heredity: Cross: X P1 Generation: F1 Generation: F2 Generation: Gametes: Dominant: Recessive: Genotype: Phenotype: Law of Dominance: Genes: Alleles: Law of Segregation:
Biology. Chapter 13. Observing Patterns in Inherited Traits. Concepts and Applications 9e Starr Evers Starr. Cengage Learning 2015
Biology Concepts and Applications 9e Starr Evers Starr Chapter 13 Observing Patterns in Inherited Traits Cengage Learning 2015 Cengage Learning 2015 After completing today s activities, students should
Section Objectives: Pedigrees illustrate inheritance. Pedigrees illustrate inheritance
What You ll Learn You will compare the inheritance of recessive and dominant traits in humans. You will analyze the inheritance patterns of traits with incomplete dominance and codominance. You will determine
I. Classical Genetics. 1. What makes these parakeets so varied in color?
1. Classical Genetics a. Mendel i. Mendel s Laws ii. Advanced Genetic Principles b. Modern Genetics i. Scientists ii. Nucleic Acids DNA/RNA Function iii.replication iv.protein Synthesis v. Mutations (gene
IB BIO I Genetics Test Madden
Name Date Multiple Choice 1. What does the genotype X H X h indicate? A. A co-dominant female B. A heterozygous male C. A heterozygous female D. A co-dominant male 2. A pure breeding tall plant with smooth
Biology. Slide 1 of 31. End Show. Copyright Pearson Prentice Hall
Biology 1 of 31 11 3 Exploring Mendelian 11-3 Exploring Mendelian Genetics Genetics 2 of 31 Independent Assortment What is the principle of independent assortment? 3 of 31 Independent Assortment Independent
Genes and Inheritance
Genes and Inheritance Variation Causes of Variation Variation No two people are exactly the same The differences between people is called VARIATION. This variation comes from two sources: Genetic cause
Mendelian Genetics. KEY CONCEPT Mendel s research showed that traits are inherited as discrete units.
KEY CONCEPT Mendel s research showed that traits are inherited as discrete units. Mendel laid the groundwork for genetics. Traits are distinguishing characteristics that are inherited. Genetics is the
Unit 7 Section 2 and 3
Unit 7 Section 2 and 3 Evidence 12: Do you think food preferences are passed down from Parents to children, or does the environment play a role? Explain your answer. One of the most important outcomes
11-1: Introduction to Genetics
11-1: Introduction to Genetics The Work of Gregor Mendel Copyright Pearson Prentice Hall Genetics Vocabulary Genetics The study of heredity. Heredity The passing of physical characteristics from parents
Lecture 13: May 24, 2004
Lecture 13: May 24, 2004 CH14: Mendel and the gene idea *particulate inheritance parents pass on discrete heritable units *gene- unit of inheritance which occupies a specific chromosomal location (locus)
You are who you are because of a combination of HEREDITY and ENVIRONMENT. ENVIRONMENT: all outside forces that act on an organism.
Unit 6 Genetics 6.1 Genetics You are who you are because of a combination of HEREDITY and ENVIRONMENT. ENVIRONMENT: all outside forces that act on an organism. HEREDITY: traits that are passed from parents
Genetics & Heredity 11/16/2017
Genetics & Heredity Biology I Turner College & Career High School 2017 Fertilization is the fusion of an egg and a sperm. Purebred (True breeding plants) are plants that were allowed to selfpollinate and
Science Olympiad Heredity
Science Olympiad Heredity Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. 1. A Punnett square shows you all the ways in which can combine. a.
NOTES: Exceptions to Mendelian Genetics!
NOTES: 11.3 Exceptions to Mendelian Genetics! Beyond Dominant and Recessive Alleles Some alleles are neither dominant nor recessive, and many traits are controlled by multiple alleles OR multiple genes.
Biology Unit 7 Genetics 7:1 Genetics
Biology Unit 7 Genetics 7:1 Genetics Gregor Mendel: Austrian monk Studied the inheritance of traits in pea plants His work was not recognized until the 20 th century Between 1856 and 1863, Mendel cultivated
Name Period. Keystone Vocabulary: genetics fertilization trait hybrid gene allele Principle of dominance segregation gamete probability
Name Period BIO B2 GENETICS (Chapter 11) You should be able to: 1. Describe and/or predict observed patterns of inheritance (dominant, recessive, co- dominant, incomplete dominance, sex- linked, polygenic
biology Slide 1 of 32 End Show Copyright Pearson Prentice Hall
biology 1 of 32 11-1 The Work of Gregor Mendel 2 of 32 Gregor Mendel s Peas Genetics is the scientific study of heredity. Gregor Mendel was an Austrian monk. His work was important to the understanding
MENDELIAN GENETICS. Punnet Squares and Pea Plants
MENDELIAN GENETICS Punnet Squares and Pea Plants Introduction Mendelian laws of inheritance are statements about the way certain characteristics are transmitted from one generation to another in an organism.
Fundamentals of Genetics
Fundamentals of Genetics For thousands of years people have known that living things somehow pass on some type of information to their offspring. This was very clear in things that humans selected to breed
GENETIC BASIS OF INHERITANCE
GENETIC BASIS OF INHERITANCE. What is meant by like begets like? Ans. Every living organism reproduces to form offsprings which resemble to Themselves: 2. Thus offsprings are of their own kind. It is called
Mendelian Genetics. You are who you are due to the interaction of HEREDITY and ENVIRONMENT. ENVIRONMENT: all outside forces that act on an organism.
Heredity Chapter 3 3:1 Genetics Mendelian Genetics You are who you are due to the interaction of HEREDITY and ENVIRONMENT. ENVIRONMENT: all outside forces that act on an organism. HEREDITY: traits that
Mendelian Genetics & Inheritance Patterns. Practice Questions. Slide 1 / 116. Slide 2 / 116. Slide 3 / 116
New Jersey Center for Teaching and Learning Slide 1 / 116 Progressive Science Initiative This material is made freely available at www.njctl.org and is intended for the non-commercial use of students and
Progressive Science Initiative. Click to go to website:
Slide 1 / 116 New Jersey Center for Teaching and Learning Progressive Science Initiative This material is made freely available at www.njctl.org and is intended for the non-commercial use of students and
Labrador Coat Color Similar to coat color in mice: Black lab is BxEx Yellow lab is xxee Chocolate lab is bbex Probable pathway:
Honors Genetics 1. Gregor Mendel (1822-1884) German monk at the Augustine Abbey of St. Thomas in Brno (today in the Czech Republic). He was a gardener, teacher and priest. Mendel conducted experiments
MEIOSIS: Genetic Variation / Mistakes in Meiosis. (Sections 11-3,11-4;)
MEIOSIS: Genetic Variation / Mistakes in Meiosis (Sections 11-3,11-4;) RECALL: Mitosis and Meiosis differ in several key ways: MITOSIS: MEIOSIS: 1 round of cell division 2 rounds of cell division Produces
Meiosis and Genetics
Meiosis and Genetics Humans have chromosomes in each cell What pattern do you notice in the human karyotype (a technique that organizes chromosomes by type and size)? Humans are diploid 1 Gametes are produced
Mendelian Genetics. Gregor Mendel. Father of modern genetics
Mendelian Genetics Gregor Mendel Father of modern genetics Objectives I can compare and contrast mitosis & meiosis. I can properly use the genetic vocabulary presented. I can differentiate and gather data
Patterns of Inheritance. Game Plan. Gregor Mendel ( ) Overview of patterns of inheritance Determine how some genetic disorders are inherited
Patterns of Inheritance Game Plan Overview of patterns of inheritance Determine how some genetic disorders are inherited Gregor Mendel (8-88) Austrian monk responsible for developing the modern idea of
What is Heredity? G E N E T I C S. Heredity is the passing of traits from parents to offspring
G E N E T I C S A wild carrot has a small, tough, pale, bitter white root; while modern domestic carrots Usually have a swollen, sweet, orange root. Carrots originated in present day Afghanistan about
Name Lab 5-B. Phenotype refers to the expression (what you can see) of a person s genotype.
Name Lab 5-B Lab Objectives: Define the following terms: phenotype, genotype, punnet square, autosomal, dominant and recessive, sex linked, Investigate some common phenotypes and discuss the potential
Genetics- The field of biology that studies how characteristics are passed from one generation to another.
Genetics- The field of biology that studies how characteristics are passed from one generation to another. Heredity- The passage of traits from one generation to the next. Characteristics- a quality of
UNIT 6 GENETICS 12/30/16
12/30/16 UNIT 6 GENETICS III. Mendel and Heredity (6.3) A. Mendel laid the groundwork for genetics 1. Traits are distinguishing characteristics that are inherited. 2. Genetics is the study of biological
Gregor Mendel Father of Genetics
Genetics and Mendel Gregor Mendel Father of Genetics Gregor Mendel First person to trace characteristics of living things Augustinian Monk Lived and worked in an Austrian monastery in the mid-1800s Parents
Chapter 11 Introduction to Genetics
Chapter 11 Introduction to Genetics 11.1 Gregor Mendel Genetics is the scientific study of heredity How traits are passed from one generation to the next Mendel Austrian monk (1822) Used Pea Plants (crossed
Name Class Date. KEY CONCEPT The chromosomes on which genes are located can affect the expression of traits.
Section 1: Chromosomes and Phenotype KEY CONCEPT The chromosomes on which genes are located can affect the expression of traits. VOCABULARY carrier sex-linked gene X chromosome inactivation MAIN IDEA:
8.1 Genes Are Particulate and Are Inherited According to Mendel s Laws 8.2 Alleles and Genes Interact to Produce Phenotypes 8.3 Genes Are Carried on
Chapter 8 8.1 Genes Are Particulate and Are Inherited According to Mendel s Laws 8.2 Alleles and Genes Interact to Produce Phenotypes 8.3 Genes Are Carried on Chromosomes 8.4 Prokaryotes Can Exchange Genetic
Essential Questions. Basic Patterns of Human Inheritance. Copyright McGraw-Hill Education
Essential Questions How can genetic patterns be analyzed to determine dominant or recessive inheritance patterns? What are examples of dominant and recessive disorders? How can human pedigrees be constructed
12 MENDEL, GENES, AND INHERITANCE
12 MENDEL, GENES, AND INHERITANCE Chapter Outline 12.1 THE BEGINNINGS OF GENETICS: MENDEL S GARDEN PEAS Mendel chose true-breeding garden peas for his experiments Mendel first worked with single-character
Ch 10 Genetics Mendelian and Post-Medelian Teacher Version.notebook. October 20, * Trait- a character/gene. self-pollination or crosspollination
* Trait- a character/gene shape, * Monk in Austria at age 21 * At 30, went to University of Vienna to study science and math * After graduating he returned to the monastery and became a high school teacher
Name 9 Patterns of Inheritance Test Date Study Guide You must know: Terms associated with genetics problems: P, F1, F2, dominant, recessive,
Name 9 Patterns of Inheritance Test Date Study Guide You must know: Terms associated with genetics problems: P, F1, F2, dominant, recessive, homozygous, heterozygous, phenotypic, and genotypic. How to
Objectives. ! Describe the contributions of Gregor Mendel to the science of genetics. ! Explain the Law of Segregation.
Objectives! Describe the contributions of Gregor Mendel to the science of genetics.! Explain the Law of Segregation.! Explain the Law of Independent Assortment.! Explain the concept of dominance.! Define
The passing of traits from parents to offspring. The scientific study of the inheritance
Inheritance The passing of traits from parents to offspring Genetics The scientific study of the inheritance Gregor Mendel -Father of modern genetics -Used peas to successfully identify the laws of heredity
Mendelian Genetics. Activity. Part I: Introduction. Instructions
Activity Part I: Introduction Some of your traits are inherited and cannot be changed, while others can be influenced by the environment around you. There has been ongoing research in the causes of cancer.
Mendel and Heredity. Chapter 12
Mendel and Heredity Chapter 12 12.1 Objectives: 1.) summarize the importance of Mendel s experiments 2.)Differentiate between genes and alleles. 3.) Explain that alleles determine what physical traits
Honors Biology Review Sheet to Chapter 9 Test
Honors Biology Review Sheet to Chapter 9 Test Name Per 1. Label the following flower: sepal, petal, anther, filament, style, ovary, stigma Draw in ovules and label. Color the female structure red and the
What creates variation in the offspring of sexually reproducing organisms?
What creates variation in the offspring of sexually reproducing organisms? 1. genetic recombination during fertilization 2. mitotic division in body cells 62% 3. crossing over in mitosis 4. homologous
Biology Sec+on 9.2. Gene+c Crosses
Biology Sec+on 9.2 Gene+c Crosses Genotype & Phenotype Genotype gene+c makeup of an organism Consists of alleles that organism inherits from its parents Phenotype appearance of an organism as a result
Unit 6.2: Mendelian Inheritance
Unit 6.2: Mendelian Inheritance Lesson Objectives Define probability. Explain how probability is related to inheritance. Describe how to use a Punnett square. Explain how Mendel interpreted the results
Genetics Practice Questions
Name: ate: 1. If Jessica has light eyes (bb) and both of her parents have dark eyes (b) which statement is true?. Jessica inherited both genes from her father.. Jessica inherited both genes from her mother..
Introduction to Genetics
Introduction to Genetics Remember DNA RNA Protein Traits DNA contains the code for proteins (protein synthesis remember?) Proteins determine our traits Gregor Mendel 1822-1884 Father of Genetics Studied
Answers to Practice Items
nswers to Practice Items Question 1 TEKS 6E In this sequence, two extra G bases appear in the middle of the sequence (after the fifth base of the original). This represents an insertion. In this sequence,
Mendel's Laws: Human Inheritance of Single Gene Traits. A Brief Review of Mendel's Work with Garden Pea Plants
Mendel's Laws: Human Inheritance of Single Gene Traits A Brief Review of Mendel's Work with Garden Pea Plants In garden pea plants, there are two character states for pea height, tall and short. Mendel