Genetics: A Conceptual Approach 3/e

Genetics: A Conceptual Approach 3/e

Broad Course Objectives for Cell Reproduction Students should be able to: Describe the basic differences between prokaryotes and eukaryotes in genome organization and cell structure Describe the cellular events that occur during the eukaryotic cell cycle and gamete formation Describe how chromosome structure and number changes as a cell progresses through a cell cycle, meiosis I and meiosis II Explain how meiosis and random fertilization contribute to genetic variation in sexually reproducing organisms Necessary for understanding future material: The cellular basis for a diploid genotype vs. a haploid genotype The cellular basis for independent assortment of alleles Cellular basis for Downs Syndrome and other chromosome aneuploidy (Chromosome Variation)

DNA replication and gene expression in bacteria vs. eukaryotes Outline/Study Guide for Mitosis-Meiosis Review of cell structure necessary for understanding cell division What structural differences exist between the genomes of viruses, bacteria, and eukaryotic cells? What structures are responsible for the cytoplasmic division of bacterial cells? Why does bacterial cell division not need elaborate mechanisms like lining up the chromosomes at the metaphase plate for correct chromosome segregation? Is bacterial cell division a cloning division or a reductional division? Eukaryotic Cell Division In multicellular organisms which bodily processes use mitosis? Meiosis?

What is a somatic (body) cell vs. a gamete (or germ) cell? What are the phases of the cell cycle, and what events occur in each phase? At what points in the cell cycle is cell division regulated (checkpoints)? What signaling molecules are involved in regulating the cell cycle? What is the difference between being haploid vs. diploid? What is the genetic content of the parent cell vs. the daughter cell in mitosis? In meiosis? What are the parts of a chromosome? When is a chromosome considered a single duplicated chromosome, vs. two unduplicated chromosomes? What are the sub-stages of mitosis and meiosis, and

what cellular events occur in each phase? (example events below) e.g. How are the microtubules functioning in each stage? e.g. When does the nuclear membrane disappear and reappear? e.g. When does recombination occur? e.g. What structures are responsible for the cytoplasmic division of animal cells? e.g. Are the chromosomes condensed during interphase? During mitosis or meiosis? Do we need to know leptotene, zygotene, pachytene, etc.? No Do we need to know G1, S, G2, Mprophase, metaphase, anaphase, telophase, cytokinesis? Yes. Draw chromosomes for when the cell is in G1, G2,

Metaphase, and Telophase. Assume they are always condensed so that you can denote whether the chromosome is duplicated or not. What are the resulting products of mitosis and meiosis (cellularly, and in terms of genetic variation or similarity)? Size differences between eukaryotic cells, bacterial cells, and viruses From Audesirk and Audesirk, BiologyLife on Earth, 6th ed 1 mm Prokaryotic Cell Structure

Ribosomes in cytoplasm Outer membrane Cell wall Plasma membrane (also known as inner membrane) Flagellum Nucleoid

(where bacterial chromosome is found) (a) Bacterial cell Brooker, Fig 2.1 a Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Mother cell Bacterial chromosome Replication of bacterial chromosome

Bacterial Cell Division FtsZ protein Septum Two daughter cells Brooker, Fig 2.4 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Microfilament

Golgi body Nuclear envelope Nucleolus Chromosomal DNA Nucleus Eukaryotic Cell Structure

Polyribosomes Ribosome Rough endoplasmic reticulum Cytoplasm Membrane protein Plasma membrane Smooth endoplasmic reticulum Lysosome Mitochondrial DNA (b) Animal cell

Mitochondrion Centriole Microtubule Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Brooker Fig 2.1b Cloning Divisions vs. Reductional Divisions Functions of mitosis and meiosis

From Audesirk and Audesirk, BiologyLife on Earth, 6th ed Karyotype (normal male) Emerys Elements of Medical Genetics, 12th ed 2005 Elsevier Similar to fig 2.6--Brooker Types of Chromosomes From Genetics, A Conceptual Approach, Pierce, 2nd ed. Each chromosome has a characteristic

banding pattern Emerys Elements of Medical Genetics, 12th ed 2005 Elsevier Chromosome nomenclature Examples of Public Databases for Genetic Information (human) Online Mendelian Inheritance in Man (OMIM) http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?d b=OMIM Main database of all human genes known HapMap Project www.hapmap.org Database of single nucleotide polymorphisms

Karyotype (normal male) Is this a diploid or a haploid karyotype? Emerys Elements of Medical Genetics, 12th ed 2005 Elsevier 1 Homologous chromosomes and sister chromatids of the right homolog

6 2 7 13 19 3 8 14

9 15 4 10 11 16 20 5

17 21 12 18 22 XY Leonard Lessin/Peter Arnold A pair of homologous chromosomes

Biophoto Associates/Photo Researchers Brooker, Fig 2.6a Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Homologous chromosomes have the same genes, but may have different alleles Gene loci (location) A b c

A B c Homologous pair of chromosomes Genotype: Brooker Fig 2.3 AA Bb

cc Homozygous Heterozygous Homozygous for the for the dominant recessive allele allele Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The Cell Cycle Interphase Mother cell Restriction

point S G1 ph as e Anaph ase Te lo Chromosome Nucleolus G0

(Nondividing cell) Pr op h se ha ap et om Pr ase Metaph is

es n ki to y C G2 M as e Two daughter

cells Brooker Fig 2.5 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or dis Cyclin Protein and CDKs Regulate the Cell Cycle G1 cyclin is degraded after cell enters S phase. CDK S Activated G1

cyclin/CDK complex CDK G1 checkpoint G2 checkpoint G1 G1 cyclin G2 Mitotic cyclin

CDK M Metaphase checkpoint CDK Activated mitotic cyclin/CDK complex Mitotic cyclin is degraded as cell progresses through mitosis.

Brooker, Fig 23.16 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display The concentration of cyclin proteins determines the Cell Cycle (fig from Campbells Biology) The timing of the cell cycle is important mistakes in mitosis result in abnormal number and type of chromosomes, and can cause cancer Photo from Karp, Cell and Molecular Biology Cytokinesis = splitting of cell

cell movement Cleavage furrow S G1 t Cy G2 o

n ki es is 150 mm Dr. David M. Phillips/Visuals Unlimited (a) Cleavage of an animal cell Fig 2.9, Brooker How do the microtubules

appear out of nowhere? Karyotype (normal male) Is this a diploid or a haploid karyotype? Emerys Elements of Medical Genetics, 12th ed 2005 Elsevier Is this a diploid or a haploid karyotype? Emerys Elements of Medical Genetics, 12th ed 2005 Elsevier

In humans, most cells are diploid and have 46 chromosomes (23 homologous pairs) 1 2 3 4 5 9

10 11 12 13 6 7 8 14

15 16 (a) Chromosomal composition found in most female human cells (46 chromosomes) 17 18 19 20 21

22 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. XX Figure 1.11a, Brooker Gametes (sperm and egg) Are haploid e.g. Human gametes have 23 chromosomes 1

2 3 4 5 6 7 8 9

10 11 12 13 14 15 16 17

18 19 20 21 22 X (b) Chromosomal composition found in a human gamete (23 chromosomes) Figure 1.11b, Brooker

Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

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