Mitosis - Seabreeze High School
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Transcript Mitosis - Seabreeze High School
Mitosis- Chapter 6
Sections 1-3
Objectives
Identify four examples of cell division in eukaryotes and one
example in prokaryotes.
Differentiate between a gene, a DNA molecule, a
chromosome, and a chromatid.
Compare haploid and diploid cells.
Differentiate between homologous chromosomes,
autosomes, and sex chromosomes.
Predict how changes in chromosome number or structure
can affect development.
Why do cells divide?
Repair
Growth & development
Make gametes (sex-cells; sperm or
egg)
Asexual Reproduction
Reproduction by
– Binary Fission
– Fragmentation
– Vegetative Propagation
Genetically identical offspring
Don’t need partner to reproduce
Binary Fission
Fragmentation
Sexual Reproduction
Reproduction requires gametes
Genetically different offspring
Sexual ReproductionSimple version
Daddy’s sperm meet Mommy’s egg
This sperm “eats” a hole for itself into
the egg to get its DNA in
This fertilized cell is called a zygote
This zygote divides and grows into a
baby by Mitosis
Prokaryotes vs
Eukaryotes
Prokaryotes use asexual reproduction
Eukaryotes may use asexual OR sexual
reproduction
Prokaryotes reproduce more quickly
Eukaryotes reproduce more slowly
Prokaryotes vs
Eukaryotes
Focus on Eukaryotes (us)
Gene- part of DNA
that codes for
particular trait
Chromosomemade of coiled DNA
and protein
More Important Terms
Centromere- center
point where two
chromatids are
attached
Chromatid- half of a
chromosome
Chromosome
Eukaryote Cell Division
http://www.cellsalive.com/cell_cycle.htm
Cell Cycle
S phase
(DNA synthesis;
chromosome duplication)
Consists of
– Interphase
– Mitosis
Interphase
(90% of time)
G2
G1
Mitotic
phase (M)
(10% of time)
Cytokinesis
Mitosis
Interphase
Cell spends 90% of its time here
G1- 1st growth phase
S- synthesis of DNA
G2- 2nd growth phase
There are checkpoints throughout the
cell cycle
Mitosis- (growth/repair)
Begins with 1 diploid cell, ends with 2
diploid cells
Diploid = twice the number of
chromosomes (2N)
One chromosome set comes from
mom, the other from dad
All of our body cells are diploid (except
for sperm and egg)
Remember: produces 2 genetically identical cells!
Basic Steps of Mitosis:
“PMAT”
P- Prophase
M- Metaphase
A- Anaphase
T- Telophase
Prophase
Nuclear membrane
dissolves
Chromosomes
become visible
Metaphase
Chromosomes align
on the equator
Spindle fibers form
and attach to
centromere
Anaphase
Centromeres break
Chromatids move
toward the poles as
spindle fibers shorten
Telophase
Nuclear envelope
forms
– Cleavage furrow in
animals
– Cell plate in plants
Daughter cells form
when Cytokinesis
(cell splits into two)
occurs
Cleavage Furrow
Cell Plate
When Mitosis goes bad
Cell Cycle checkpoints don’t work
properly
Cell can divide when it shouldn’t
Cell can mutate
A benign (harmless) tumor can form
Cancer may develop
Cell Cycle CheckPoints
What is Cancer?
Named for organ or tissue where its found
Cells that divide out of control due to a
mutation in the DNA
These “out of control” cells can
destroy/invade normal cells and tissues
Cancer can spread from a malignant
(harmful) tumor
Metastasis is cancer cells that have spread
Figure 12-17x1 Breast cancer cell
Lymph
vessels
Tumor
Glandular
tissue
Metastasis
A tumor grows from a
single cancer cell.
Cancer cells invade
neighboring tissue.
Cancer cells spread through lymph
and blood vessels to other parts of t
body
Figure
Common Types of Cancer
Cancer Treatment
Radiation can be used for skin cancer
Chemotherapy involves drugs that
stop Mitosis throughout the body
– Chemotherapy drugs not only try to kill
cancer cells but it makes wounds slower
to heal, hair to be lost, immune system to
be weakened
Cancer “Caution” Signs
Change in potty habits
A sore that does not heal
Unusual bleeding or discharge
Thickening of tissue or new lump
Indigestion
Obvious changes to moles or warts
Nagging cough that lasts for a month or more
Cancer Preventionwhat YOU can do
Not smoking
Limiting time in the sun
Eating high-fiber, low-fat diet
Visit Doctor regularly
Perform regular self-examinations