Chapter 19- Cell Division

Ace your homework & exams now with Quizwiz!

Anaphase

*Centromeres divide and sister chromatids move toward opposite poles of the spindle

1.Prophase

*Centrosomes have duplicated and move toward opposite ends of the nucleus *Spindle fibers appear *The nuclear envelope begins to fragment; nucleolus disappears *The chromosomes condense (are now visible and distinct) *Each is composed of two sister chromatids held together at a centromere

Cell Cycle Control

*Checkpoints delay the cell cycle until certain conditions are met 1.G1 checkpoint 2.G2 checkpoint 3.Mitotic checkpoint

Metaphase

*Chromosomes align at the metaphase plate equidistant from the spindle poles

Telophase

*Chromosomes near the pole and become indistinct chromatin again *The spindle disappears *The nuclear envelope *The nucleolus reappears

Mitosis

*Creates identical diploid daughter cells *Occurs in all dividing cells other than during the formation of gametes

Turner Syndrome (XO)

*Female, has a single X chromosome *Short stature, with a broad chest *Ovaries, uterine tubes, and uterus are very small and underdeveloped; they do not undergo puberty or menstruate, and their breasts do not fully develop *Normal intelligence can lead to fairly normal lives if they receive hormone supplements

Refresher on chromosome nomenclature

*Homologous chromosomes (same genes, different alleles) (one originally from mom and the other one from dad) *Non-homologous chromosomes (different genes) *Sister chromatids (same genes and alleles held together at centromere) (result from DNA replication in S phase of cell cycle)

Meiosis I Highlights

*Homologous chromosomes pair=synapsis *Homologous chromosomes exchange genetic material=crossing over or recombination *Alignment of homologous chromosomes is random=independent assortment *Homologous chromosomes separate while sister chromatids remain attached *DNA does not replicate after meiosis I; cells are haploid after cytokinesis

Chromosomes

*Humans have 46 chromosomes, in 23 pairs -22 pairs=autosomes *Numbered 1-22 (from largest to smallest) -One pair= sex chromosomes (typically differ between males and females) -XX (female) and XY (male) *Organisms with a pair of chromosomes are diploid

Sex chromosomes and X-inactivation

*Humans need 1 and only 1 active X chromosome *In XX females, one X chromosome is inactivated early in development -Inactivated X= Barr body *In XY males the single X is not inactivated] *In XY males the single X is not inactivated] *In 45m XO (Turner female), the single X is not inactivated (1 Barr body)

Significance of Meiosis

*Keeps chromosome number constant from generation to generation *Results in genetic variation

Klinefelter Syndrome (47, XXY)

*Male, with two X chromosomes and one Y chromosome *May have subtle speech and language delays *Slightly feminized physique *Required assisted reproduction to father children *Receive testosterone supplements beginning at puberty

Chromosome Number

*Most people have 46 chromosomes (2n=46) -22 pairs of autosomes -1 pair of sex chromosomes are born with too few or too many chromosomes *Caused by nondisjunction during oogenesis or spermatogenesis -Trisomy: one type of chromosome is present in three copies (2n+1) [in humans=45 chromosomes]

Monosomy and trisomy examples in humans

*No viable autosomal monosomies *Trisomy 21 (Down Syndrome) *Several sex chromosome examples

Meiosis I Stages

*Prophase I (synapsis and crossing over) *Metaphase I (homologous chromosomes randomly align) *Anaphase I (homologous chromosomes separate) *Telophase I (homologous chromosomes move to the poles)

Meiosis highlights

*Reduction division- parent cell is diploid (2n) and produces haploid (1n) daughter cells *Has two consecutive cell divisions without an interphase in between -Meiosis I and Meiosis II *Occurs only in testes or ovaries to produce gametes (eggs or sperm) *Produces genetic variation *Daughter cells are different from the parent cell and from each other

Meiosis is different in males and females

*Spermatogenesis produces sperm in males -in testes -continual starting at puberty -300,000 sperm/minute (over 400 million per day) *4 daughter cells becomes sperm *Oogenesis produces eggs in females -in ovary -discontinuous -starts in fetal development, arrest at Prophase I -resumes meiosis at puberty (ovulation) -completes meiosis only if fertilized -uneven cell divisions -1 egg (ovum) created

2.Prometaphase

*The spindle fibers attach to the centromeres as the chromosomes continue to shorten and thicken *Chromosomes are randomly placed in the nucleus

Cell Cycle Stages

1.Interphase (longest phase) *Substages: G1, S, G2 *Cell growth, organelles carry out functions, cell is active *DNA replicates (S phase) 2.Cell division or M-phase *Substages: mitosis and cytokinesis *Chromosomes split *Cytoplasm divides

Phases of Mitosis

1.Prophase 2.Prometaphase 3.Metaphase 4.Anaphase 5.Telophase

Meiosis II

Anaphase II: daughter chromosomes move towards the poles Telophase II: spindle disappears, nuclei form, and cytokinesis takes place Daughter Cells: Meiosis results in four haploid daughter cells 4 stages: Prophase II, Metaphase II, Anaphase II, Telophase *During anaphase II, the centromeres divide *Sister chromatids separate and move toward opposite poles of the spindle -The daughter cells become gametes

Down Syndrome=Most Common Autosomal Trisomy

Characteristics: short stature, eyelid fold, flat face, stubby fingers, a wide gap between the first and second toes, a large, fissured tongue, a round head, a palm crease (simian line), intellectual disability

Chromatin & Chromosomes Chart

Chromatin: nature of packaging is "relaxed", it is observed in interphase, and may be active with respect to making RNA Chromosomes: nature of packaging is highly condensed, it is observed in cell division, and is inactive in respect to making RNA

Cytokinesis

Division of the cytoplasm and organelles *An indentation called a cleavage furrow passes around the circumference of the cell

A Karyotype of Human Chromosomes= display of chromosomes

Homologous chromosomes-pairs *Same shape, size, same genes in same order *BUT, may have different versions of these genes *Likely, NOT identical *Exception: X and Y chromosomes *Chromosomes and chromatin *Many proteins associate with DNA and assist in the organizational structure -Collectively, the DNA and proteins are called chromatin

External control of cell cycle

Hormones and growth factor signals can regulate cell division 1.Signal binds to a receptor in the target cell 2.Signal is relayed to proteins inside the cell (signal transduction pathway) 3.Activates gene(s) in nucleus to stimulate (or inhibit) cell cycle 4.Cell responds


Related study sets

Chapter 45 Pathophysiology NCLEX-Style Review Questions

View Set

Advanced Project Management Assessment 1

View Set

DECA- Business Economics Worksheet 1

View Set

Unit 2 multiple choice question terms

View Set

India Since Independence: Prime Ministers

View Set