Von Mäusen und Menschen E - 1

Similar documents

Bio EOC Topics for Cell Reproduction: Bio EOC Questions for Cell Reproduction:

Germ cell formation / gametogenesis And Fertilisation

How to construct transgenic mice

How to construct transgenic mice

CHAPTER 15 THE CHROMOSOMAL BASIS OF INHERITANCE. Section B: Sex Chromosomes

Cell Division CELL DIVISION. Mitosis. Designation of Number of Chromosomes. Homologous Chromosomes. Meiosis

Answer Key Problem Set 5

Chapter 13: Meiosis and Sexual Life Cycles

Sexual Reproduction. The specialized cells that are required for sexual reproduction are known as. And come from the process of: GAMETES

Chapter 13: Meiosis and Sexual Life Cycles

Name: Class: Date: ID: A

Reproductive System & Development: Practice Questions #1

Human Cloning The Science and Ethics of Nuclear Transplantation

Meiosis is a special form of cell division.

Page The production of monoploid cells by spermatogenesis occurs in (1) zygotes (3) ovaries (2) testes (4) meristems

1. When new cells are formed through the process of mitosis, the number of chromosomes in the new cells

BioSci 2200 General Genetics Problem Set 1 Answer Key Introduction and Mitosis/ Meiosis

Sex for the purposes of this class refers to 4 components

Embryo Clay Model Embryogenesis and Stem Cell Development

DNA Fingerprinting. Unless they are identical twins, individuals have unique DNA

Trasposable elements: P elements

Lecture 7 Mitosis & Meiosis

LAB 8 EUKARYOTIC CELL DIVISION: MITOSIS AND MEIOSIS

Biology 1406 Exam 4 Notes Cell Division and Genetics Ch. 8, 9

4 SEX CHROMOSOMES AND SEX DETERMINATION

5. The cells of a multicellular organism, other than gametes and the germ cells from which it develops, are known as

Lecture 2: Mitosis and meiosis

CHROMOSOMES AND INHERITANCE

The following chapter is called "Preimplantation Genetic Diagnosis (PGD)".

Biology Behind the Crime Scene Week 4: Lab #4 Genetics Exercise (Meiosis) and RFLP Analysis of DNA

Reproduction and its Hormonal Control

Chapter 9 Patterns of Inheritance

Cell Growth and Reproduction Module B, Anchor 1

How to construct transgenic mice

Genetics Test Biology I

guides BIOLOGY OF AGING STEM CELLS An introduction to aging science brought to you by the American Federation for Aging Research

The correct answer is c A. Answer a is incorrect. The white-eye gene must be recessive since heterozygous females have red eyes.

Guidance For Research Involving Human Embryonic Stem Cells, Germ Cells, And Cells Obtained From Cord Blood

AP BIOLOGY 2012 SCORING GUIDELINES

4.2 Meiosis. Meiosis is a reduction division. Assessment statements. The process of meiosis

Fertility Research Policy

Chromosomes, Mapping, and the Meiosis Inheritance Connection

Heredity - Patterns of Inheritance

Genetic Mutations. Indicator 4.8: Compare the consequences of mutations in body cells with those in gametes.

PSI Biology Mitosis & Meiosis

Practice Problems 4. (a) 19. (b) 36. (c) 17

LONDON REGIONAL TRANSGENIC AND GENE TARGETING FACILITY

GeneCopoeia Genome Editing Tools for Safe Harbor Integration in. Mice and Humans. Ed Davis, Liuqing Qian, Ruiqing li, Junsheng Zhou, and Jinkuo Zhang

Chapter 16 Reproductive Technology, Gene Therapy, and Stem Cells (modified)

CHROMOSOME STRUCTURE CHROMOSOME NUMBERS

CELL DIVISION. STAGES OF MITOTIC DIVISION (Diag. C1)

1. Why is mitosis alone insufficient for the life cycle of sexually reproducing eukaryotes?

ANS Reproductive Physiology of Domestic Animals (Spring 2015)

CHAPTER 10 CELL CYCLE AND CELL DIVISION

Human Genome Organization: An Update. Genome Organization: An Update

Stem Cell Quick Guide: Stem Cell Basics

Biology Notes for exam 5 - Population genetics Ch 13, 14, 15

Fact Sheet 14 EPIGENETICS

Reproduction Multiple Choice questions

MCB41: Second Midterm Spring 2009

Chapter 8: Variation in Chromosome Structure and Number

Proceedings, Applied Reproductive Strategies in Beef Cattle September 11 and 12, 2007, Billings, Montana NEW TECHNOLOGIES FOR REPRODUCTION IN CATTLE

Chromosomal Basis of Inheritance. Ch. 3

Plant Growth & Development. Growth Stages. Differences in the Developmental Mechanisms of Plants and Animals. Development

Reproductive Technology. Chapter 21

List, describe, diagram, and identify the stages of meiosis.

What is Cancer? Cancer is a genetic disease: Cancer typically involves a change in gene expression/function:

The Developing Person Through the Life Span 8e by Kathleen Stassen Berger

1 Mutation and Genetic Change

Ethical issues in assisted reproductive technologies. Effy Vayena

Introducing stem cells

Science 10-Biology Activity 14 Worksheet on Sexual Reproduction

The cell cycle, mitosis and meiosis

Reproduction in Mammals

CCR Biology - Chapter 7 Practice Test - Summer 2012

LEUKODYSTROPHY GENETICS AND REPRODUCTIVE OPTIONS FOR AFFECTED FAMILIES. Leila Jamal, ScM Kennedy Krieger Institute, Baltimore MD

Bio 101 Section 001: Practice Questions for First Exam

Genetics for the Novice

Preimplantation Genetic Diagnosis (PGD) for Fanconi Anemia and HLA matching

Understanding Animal Reproduction Technology

CHROMOSOMES Dr. Fern Tsien, Dept. of Genetics, LSUHSC, NO, LA

2. What muscle pulls the testis down into the scrotum during development?

somatic cell egg genotype gamete polar body phenotype homologous chromosome trait dominant autosome genetics recessive

5 GENETIC LINKAGE AND MAPPING

Abortion and Stem Cell Debate Background Information

Chapter 5: Organization and Expression of Immunoglobulin Genes

17. A testcross A.is used to determine if an organism that is displaying a recessive trait is heterozygous or homozygous for that trait. B.

Unit 1 Higher Human Biology Summary Notes

Course: AG 534 Zoology - Science of Animal Reproduction

COLUMBIA UNIVERSITY POLICY ON THE CONDUCT OF RESEARCH WITH HUMAN EMBRYOS AND HUMAN EMBRYONIC STEM CELLS*

B2 5 Inheritrance Genetic Crosses

LAB : 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

Choosing the sex of babies: Ethical debate

An Introduction to Stem Cell Biology. Michael L. Shelanski, MD,PhD Professor of Pathology and Cell Biology Columbia University

11/2011. Duke University Stem Cell Research Oversight Committee

Genetics Module B, Anchor 3

Becker Muscular Dystrophy

MUTATION, DNA REPAIR AND CANCER

Transcription:

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 by targeted mutagenesis Uses of transgenic technology to determine Function of gene products Characterizing regulatory regions Links between mutant phenotypes and transcription units Creating a mouse model for human disease E - 4

The Mouse Genome Similar to humans Contains about 3 billion nucleotides Homologues for every gene in humans Differences due to species-specific additions to gene families 19 autosomes and 2 sex chromosomes Conserved synteny Genes closely linked in mouse are also closely linked in humans Average size of conserved syntenic regions: 17.6 Mb Since common ancestry, human and mouse genomes have broken apart and rearranged ~ 170 times E - 5 Comparison of Mice and Humans Trait Average weight Average length Genome size Haploid gene number Number of chromosomes Gestation period Age at puberty Estrus cycle Life span Mice 30g 10 cm (without tail) 3,000,000,000 bp 25,000 19 autosomes + X and Y 3 weeks 5-6 weeks 4 days 2 years Humans 77,000 g (170 lb) 175 cm 3,000,000,000 bp 25,000 22 autosomes + X and Y 38 weeks 624-728 weeks 28 days 78 years E - 6

Conserved Synteny Fig. E.3 E - 7 Life Cycle Fig. E.4 E - 8

Germ Cell Development Female Born with all gametes they will ever have ~ 50,000 eggs, or oocytes Oogenesis begins in ovaries of fetus Oogonia enter meiosis but stop at diplotene in first prophase Estrus cycle begins at puberty 4 days in mice 8-10 primary oocytes complete first meiotic division Secondary oocyte stops at metaphase are released from ovary (ovulation) Oocyte passed into oviduct and is receptive to fertilization (estrus) E - 9 Germ Cell Development Males Sperm At puberty, large number of haploid gametes produced for rest of life Spermatogenesis E - 10

Figure 4.18 E - 11 Fertilization E - 12

Early Embryo Development Preimplantation starts at conception 22 hrs sperm head expands into pronucleus Next 60 hours - embryo divides four times equally (totipotent) cleavage stage Twins and Chimeras E - 13 Events Restricting the Developmental Potency 16-cell embryo First differentiation events occur Trophectoderm layer cells on outside of embryo Inner cell mass (ICM) cells on inside of embryo Fetus is derived from ICM Blastocyte forms After implantation, placenta develops, embryo grows, and tissues and organs emerge E - 14

Two Powerful Transgenic Techniques Addition of genes by nuclear injection Foreign DNA injected into pronucleus of fertilized egg Place injected one-cell embryo back into oviduct DNA integrates at random into chromosome (25-50% of cases) Targeted mutagenesis (knock-out mice) Transfection of cultured embryonic stem cells. Homologous recombination may occur after transfection Injection of transformed cells back into blastocoele Some cells integrate into germ line E - 15 How transgenic Mice are created Fig. E.7 E - 16

Knocking Out a Gene in ES Cells E - 17 Using Transgenic Tools Determination of gene function Combining mouse gene with regulatory regions from other mouse gene Expression of transgene can be changed: At higher than normal level In an alternative tissue At alternative developmental stage E - 18

Using Transgenic Tools SRY locus responsible for production of maleness E - 19 Application of Transgenic Technology Transgenic expression of myc gene provides information on gene s role in tumor formation (a) structure of gene (b) northern blot analysis E - 20

Using Transgenic Technology to Characterize Regulatory Regions DNA construct containing mouse regulatory region of interest is attached to lacz reporter gene Fig. E.11 E - 21 Mapping of cis-acting regulatory region of Tcp 10b t gene Fig. E.12 E - 22

Transgenic technology to identify locus responsible for mutant phenotype Dominant deletion mutation at T locus causes short tail Transgene mouse with pme75 transgene mated to mutant Normal phenotype demonstrates deletion of pme75 is cause of short tail Fig. E.13 E - 23 24

Targeted Mutagenesis to Create a Mouse Model for Human Disease E - 25 E - 26

E - 27 E - 28

E - 29 Inheritance Pattern E - 30

Binary transgenic Mice VM VL Musculus-31 Tetracyclin-Tetracyclin induced Gene expression VM VL Musculus-32

VM VL Musculus-33 Reverse Tet-System VM VL Musculus-34

Dual Promotor with reporter gene VM VL Musculus-35 Inducible Expression using the Gal-System VM VL Musculus-36

Inducible Expression using the Gal-System VM VL Musculus-37