Mitosis & Meiosis: Summary

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

Chapter 13: Meiosis and Sexual Life Cycles

The cell cycle, mitosis and meiosis

CHROMOSOME STRUCTURE CHROMOSOME NUMBERS

Chapter 13: Meiosis and Sexual Life Cycles

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

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

LAB 8 EUKARYOTIC CELL DIVISION: MITOSIS AND MEIOSIS

Cell Growth and Reproduction Module B, Anchor 1

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

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

CHAPTER 10 CELL CYCLE AND CELL DIVISION

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

Chapter 3. Cell Division. Laboratory Activities Activity 3.1: Mock Mitosis Activity 3.2: Mitosis in Onion Cells Activity 3.

Meiosis is a special form of cell division.

Lecture 7 Mitosis & Meiosis

PSI Biology Mitosis & Meiosis

Lecture 2: Mitosis and meiosis

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

Chapter 12: The Cell Cycle

Science 10-Biology Activity 14 Worksheet on Sexual Reproduction

Lecture 11 The Cell Cycle and Mitosis

If and when cancer cells stop dividing, they do so at random points, not at the normal checkpoints in the cell cycle.

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

The Somatic Cell Cycle

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

Sexual Reproduction and Meiosis

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

The illustrations below reflect other scientists results in identifying and counting the stages of the onion root tip and the whitefish blastula.

CHAPTER 9 CELLULAR REPRODUCTION P

From DNA to Protein

Chapter 12: The Cell Cycle

The Huntington Library, Art Collections, and Botanical Gardens

Appendix C DNA Replication & Mitosis

Workshop: Cellular Reproduction via Mitosis & Meiosis

Sexual Reproduction. and Meiosis. Sexual Reproduction

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

Cell Division Mitosis and the Cell Cycle

Biology 3A Laboratory MITOSIS Asexual Reproduction

The chromosomes are structures in living cells that contain

Sample Questions for Exam 3

Cellular Reproduction

Germ cell formation / gametogenesis And Fertilisation

Test Two Study Guide

Mitosis in Onion Root Tip Cells

Cell Cycle in Onion Root Tip Cells (IB)

Cell Division and Mitosis DNA. Sexual Reproduction and Meiosis. 2. Meiosis occurs in the reproductive organs, producing four haploid sex cells.

Classify chromosomes in a karyotype according to size and centromere position. Identify metacentric, submetacentric and acrocentric chromosomes

Name: Class: Date: ID: A

MITOSIS IN ONION ROOT TIP CELLS: AN INTRODUCTION TO LIGHT MICROSCOPY

Mitosis, Meiosis and Fertilization 1

The Cell Cycle: A series of modeling activities

Bio 101 Section 001: Practice Questions for First Exam

Chromosomes, Karyotyping, and Abnormalities (Learning Objectives) Learn the components and parts of a metaphase chromosome.

AS Biology Unit 2 Key Terms and Definitions. Make sure you use these terms when answering exam questions!

1. Identify each phase of mitosis on the onion root tip and the whitefish blastula. 3. Explain differences in mitosis between plant and animal cells.

Teacher s Guide. Mitosis. Grades 5-9 MTTV

1.1 Introduction. 1.2 Cells CHAPTER Prokaryotic Cells Eukaryotic Cells

Guided Notes: Chapter 9 Cellular Reproduction

8 kcal/mole of ATP 2 ATP 16 kcal 16 kcal/2 moles of ATP 686 kcal/mole of glucose 2.3%

Chromosomal Basis of Inheritance. Ch. 3

Pre-lab homework Lab 2: Reproduction in Protists, Fungi, Moss and Ferns

Chromosome Mapping Assignment INSTRUCTIONS

the plant & animal cell

Biology Final Exam Study Guide: Semester 2

Use of the Microscope and Cytology

LABORATORY 2 THE CELL CYCLE AND THE STAGES OF MITOSIS LEARNING OBJECTIVES AFTER COMPLETING THIS LABORATORY, YOU SHOULD BE ABLE TO:

Contains chromatin that makes chromosomes (DNA and protein)

Chapter 8: Variation in Chromosome Structure and Number

LAB 09 Cell Division

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

AP Biology 2011 Scoring Guidelines Form B

Chapter 38: Angiosperm Reproduction and Biotechnology

Von Mäusen und Menschen E - 1

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

CCR Biology - Chapter 5 Practice Test - Summer 2012

Objective: On a team of no more than (2). Build to illustrate a 3D model of a PLANT or ANIMAL cell. 10 pts.

Cell Division Simulation: Bacteria Activity One

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

I. Genes found on the same chromosome = linked genes

AS BIOLOGY UNITS. Cell division is a fundamental process, necessary for reproduction, growth and repair.

June examination memorandum G12 ~ Life Sciences LIFE SCIENCES GRADE 12 JUNE EXAMINATION 2014 MEMORANDUM

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.

B2 5 Inheritrance Genetic Crosses

02-SciProbe9-Chap02 2/8/07 12:12 PM Page NEL

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

The Case of the Dividing Cell: Mitosis and Meiosis in the Cellular Court. Part I The First Day of Testimony

University of Tripoli Faculty of Science / Zoology Department. Lecture notes

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

Laboratory Observing the Cell Cycle of Onion Root Tip Cells

How Well Do You Know Your Cells?

Addition by Division TEACHER NOTES SCIENCE NSPIRED

CELL STRUCTURE AND FUNCTION

Time For Mitosis. Materials. Procedure. Name

HUMAN CHROMOSOMES. Using this criterion, human chromosomes are divided in: metacentric, submetacentric, and acrocentric.

Unit 1 Higher Human Biology Summary Notes

( ).

MARK SCHEME for the May/June 2012 question paper for the guidance of teachers 9700 BIOLOGY

The human genome and the chromosomal basis of heredity

Transcription:

Chapter 12 & 13 Mitosis & Meiosis: Summary PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley with contributions from Joan Sharp Copyright 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings

A Comparison of Mitosis and Meiosis Mitosis conserves the number of chromosome sets, producing cells that are genetically identical to the parent cell Meiosis reduces the number of chromosomes sets from two (diploid, 2n) to one (haploid, 1n), producing cells that differ genetically from each other and from the parent cell The mechanism for separating sister chromatids is virtually identical in meiosis II and mitosis

Fig. 13-9a MITOSIS MEIOSIS Parent cell Chiasma MEIOSIS I Prophase Chromosome replication Chromosome replication Prophase I Replicated chromosome 2n = 6 Homologous chromosome pair Metaphase Metaphase I Anaphase Telophase Daughter cells of meiosis I Anaphase I Telophase I Haploid n = 3 2n Daughter cells of mitosis 2n MEIOSIS II n n n n Daughter cells of meiosis II

Three events are unique to meiosis, and all three occur in meiosis l: Synapsis and crossing over in prophase I: Homologous chromosomes physically connect and exchange genetic information At the metaphase plate, there are paired homologous chromosomes (tetrads), instead of individual replicated chromosomes At anaphase I, it is homologous chromosomes, instead of sister chromatids, that separate

The sex chromosomes are called X and Y Human females have a homologous pair of X chromosomes (XX) Human males have one X and one Y chromosome The 22 pairs of chromosomes that do not determine sex are called autosomes

Each pair of homologous chromosomes includes one chromosome from each parent The 46 chromosomes in a human somatic cell are two sets of 23: one from the mother and one from the father A diploid cell (2n) has two sets of chromosomes For humans, the diploid number is 46 (2n = 46)

A gamete (sperm or egg) contains a single set of chromosomes, and is haploid (n) For humans, the haploid number is 23 (n = 23) Each set of 23 consists of 22 autosomes and a single sex chromosome In an unfertilized egg (ovum), the sex chromosome is X In a sperm cell, the sex chromosome may be either X or Y

Behavior of Chromosome Sets in the Human Life Cycle Fertilization is the union of gametes (the sperm and the egg) The fertilized egg is called a zygote and has one set of chromosomes from each parent The zygote produces somatic cells by mitosis and develops into an adult

At sexual maturity, the ovaries and testes produce haploid gametes Gametes are the only types of human cells produced by meiosis, rather than mitosis Meiosis results in one set of chromosomes in each gamete Gametes are the only haploid cells in animals Gametes fuse to form a diploid zygote that divides by mitosis to develop into a multicellular organism

Meiosis reduces the number of chromosome sets from diploid to haploid Like mitosis, meiosis is preceded by the replication of chromosomes Meiosis takes place in two sets of cell divisions, called meiosis I and meiosis II The two cell divisions result in four daughter cells, rather than the two daughter cells in mitosis Each daughter cell has only half as many chromosomes as the parent cell

The Stages of Meiosis In the first cell division (meiosis I), homologous chromosomes separate Meiosis I results in two haploid daughter cells with replicated chromosomes; it is called the reduction division In the second cell division (meiosis II), sister chromatids separate Meiosis II results in four haploid daughter cells with unreplicated chromosomes;

Fig. 13-7-3 Interphase Homologous pair of chromosomes in diploid parent cell Chromosomes replicate Homologous pair of replicated chromosomes Sister chromatids Diploid cell with replicated chromosomes Meiosis I Meiosis II 1 Homologous chromosomes separate Haploid cells with replicated chromosomes 2 Sister chromatids separate Haploid cells with unreplicated chromosomes

Meiosis I is preceded by interphase, in which chromosomes are replicated to form sister chromatids The sister chromatids are genetically identical and joined at the centromere The single centrosome replicates, forming two centrosomes

Fig. 13-8 Prophase I Metaphase I Anaphase I Telophase I and Cytokinesis Prophase II Metaphase II Anaphase II Telophase II and Cytokinesis Sister chromatids Centrosome (with centriole pair) Chiasmata Spindle Centromere (with kinetochore) Metaphase plate Sister chromatids remain attached Homologous chromosomes Fragments of nuclear envelope Microtubule attached to kinetochore Homologous chromosomes separate Cleavage furrow Sister chromatids separate Haploid daughter cells forming

Prophase I Prophase I typically occupies more than 90% of the time required for meiosis Chromosomes begin to condense In synapsis, homologous chromosomes loosely pair up, aligned gene by gene

In crossing over, nonsister chromatids exchange DNA segments Each pair of chromosomes forms a tetrad, a group of four chromatids Each tetrad usually has one or more chiasmata, X-shaped regions where crossing over occurred

Metaphase I In metaphase I, tetrads line up at the metaphase plate, with one chromosome facing each pole Microtubules from one pole are attached to the kinetochore of one chromosome of each tetrad Microtubules from the other pole are attached to the kinetochore of the other chromosome

Anaphase I In anaphase I, pairs of homologous chromosomes separate One chromosome moves toward each pole, guided by the spindle apparatus Sister chromatids remain attached at the centromere and move as one unit toward the pole

Telophase I and Cytokinesis In the beginning of telophase I, each half of the cell has a haploid set of chromosomes; each chromosome still consists of two sister chromatids Cytokinesis usually occurs simultaneously, forming two haploid daughter cells No chromosome replication occurs between the end of meiosis I and the beginning of meiosis II because the chromosomes are already replicated

Fig. 13-8d Prophase II Metaphase II Anaphase II Telophase II and Cytokinesis Sister chromatids separate Haploid daughter cells forming

Prophase II In prophase II, a spindle apparatus forms In late prophase II, chromosomes (each still composed of two chromatids) move toward the metaphase plate

Metaphase II In metaphase II, the sister chromatids are arranged at the metaphase plate Because of crossing over in meiosis I, the two sister chromatids of each chromosome are no longer genetically identical The kinetochores of sister chromatids attach to microtubules extending from opposite poles

Anaphase II In anaphase II, the sister chromatids separate The sister chromatids of each chromosome now move as two newly individual chromosomes toward opposite poles Telophase II and Cytokinesis In telophase II, the chromosomes arrive at opposite poles Nuclei form, and the chromosomes begin decondensing

Cytokinesis separates the cytoplasm At the end of meiosis, there are four daughter cells, each with a haploid set of unreplicated chromosomes Each daughter cell is genetically distinct from the others and from the parent cell

2024 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information