Biology
The Cellular Basis of
Inheritance
Why Do Cells Divide?
Cell Division is the splitting of a single cell
into 2 cells. 3 life processes occur:
1.
Growth: this is the increase of cell in size.
•
Differentiation is the specialization in
cells.
2.
Repair: this is the ability of an organism
to fix itself; humans repair their skin blood
vessels and bone.
•
Regeneration is the ability of an organism
to replace a missing body part
(like a starfish regrowing an arm).
http://beckstrom.com/images/d/d1/Spotted
LinkiaRegenerating.jpg
3.
Reproduction: When an organism is single-celled
and that cell divides, it is reproducing. This is a
form of asexual reproduction.
–
Bacteria and unicellular eukaryotes reproduce this way.
•
The arm that broke off from the starfish can also
reproduce asexually by cell division. It slowly
regrows a new body.
•
Asexual reproduction produces genetically
identical offspring to the parents.
http://www.google.com/imgres
Sexual Reproduction:
•
Sexual reproduction produces genetic varieties in
offspring.
–
Plants and animals reproduce this way. This results in a
recombination of chromosomes through meiosis, a
specialized form of cell division.
http://www.google.com/imgres
How Do Cells Divide?
• The cell cycle is the
sequence of phases in the
life cycle of the cell
• The cell cycle has 2 parts:
Interphase (Growth and
preparation) and Cell
Division
• Cell Division includes:
Mitosis (nuclear division)
and Cytokinesis
(cytoplasm division).
http://www.google.com/imgres
Some Terms:
• Chromatin is the fibrous form of DNA and
proteins that make up chromosomes.
– This is what is found within the nucleus of the cell
during interphase.
– It is clumped DNA.
• Once chromosomes have been replicated, they
are paired together in the form of sister
chromatids.
– These are identical structures that are side by
side.
• Sister chromatids are held together by a
centromere.
– This is the point of attachment.
https://eapbiofield.wikispaces.com/file/view/centromere.gif
Cell Division:
Interphase:
• G1, or gap 1, is characterized by growth and
development.
• S stage, or Synthesis, is when the
chromosomes are replicated.
• G2, or gap 2, is when the cell synthesizes
organelles and other materials.
• This is the longest phase of the entire cell
cycle. The cell is in preparation for the nucleus
to divide.
http://www.ivy-rose.co.uk/Topics/Cell_Structures/Cell-Cycle_cIvyRose.jpg
Mitosis is the formation of 2 nuclei from 1.
It occurs in 4 stages.
1. Prophase:
• Chromosomes condense & become visible under the
light microscope
• Microtubules from the mitotic spindles
• The nuclear envelope & nucleolus break apart &
disappear
• Centromeres attach to the spindle fibers
2. Metaphase:
• The chromosomes move to the center of the cell
• The center of the cell is called the metaphase plate
Prophase:
http://web.grcc.edu/biosci/pictdata/mitosis/prophase.jpg
http://web.grcc.edu/biosci/pictdata/mitosis/prophase.jpg
Metaphase:
http://student.ccbcmd.edu/~gkaiser/biotutorial
s/dna/mitosis/images/metaphase1_ac.jpg
http://www.lima.ohiostate.edu/biology/images/metaphase.jpg
3. Anaphase:
• Centromeres divide & the spindle fibers
pull 1 set of sister chromatids toward
opposite poles
• Once chromosomes are at opposite
poles, anaphase is over
http://faculty.clintoncc.suny.edu/faculty/michael.gregory
/files/bio%20101/Bio%20101%20Lectures/mitosis/whit
efish_mitosis_anaphaseX400.jpg
http://student.ccbcmd.edu/~gkaiser/biotutorials/dna
/mitosis/images/early_anaphase1_pc.jpg
4. Telophase:
• A nuclear envelope forms around each
set of chromosomes
• Chromosomes uncoil into chromatin
• Mitotic spindle fibers disassemble
http://faculty.clintoncc.suny.edu/faculty/michael.gregory/files/Bio%
20101/Bio%20101%20Laboratory/Mitosis/Photographs/whitefish_
mitosis_telophaseX400.jpg
http://www.grossmont.edu/cmilgrim/Bio220/BIO221
/AlliumMitosis/telophase.jpg
Cytokinesis:
• This is a.k.a. cytoplasm separation
• In animal cells, this begins in telophase
as the nuclei reform.
– This starts at the center of the cell and
pinches inward. This is called a cleavage
furrow.
• In plant cells, this begins in anaphase
and starts in the center of the cell along
the metaphase plate and grows
outward.
– This is called the cell plate.
http://fig.cox.miami.edu/~cmallery/150/mitosis/c7.12.9cytokinesis.jpg
Cancer
• Tumors: masses/clusters of cells
– Benign: non-cancerous
– Malignant: cancerous (usually uncontrolled
dividing cells)
http://www.google.com/imgres
• Metastasis: spreading of cancerous
cells
• Treatment: surgery (removes tumor),
radiation & chemotherapy (destroys
cells by disrupting cell cycle)
• Radiation & chemo side effects: healthy
cells may die, sterility, hair loss,
nausea
What is Meiosis?
Remember that humans have 46 chromosomes (or 23
pairs) in their cells.
• This means they have 2 complete sets of
chromosomes.
• Diploid, or 2n, is a cell that has 2 complete sets of
chromosomes (in humans, 46).
• Haploid, or 1n or n, is a cell that has only 1 set of
chromosomes (in humans, 23).
http://www.google.com/imgres
• Human’s sex cells, or gametes, are haploid.
• All human body cells are produced through
mitosis whereas the sex cells, or gametes,
are produced through meiosis.
• Gametes are sperm and egg and have only
23 chromosomes in each.
– When they fuse (at fertilization), they form
a zygote (23 + 23= 46).
– This is how each generation remains
stable.
• Meiosis is a type of cellular reproduction in
which the # of chromosomes are reduced by
½ so that the daughter cells are haploid (n).
• Homologous pairs are pairs of
chromosomes.
– Each of the 23 chromosomes has a matching
chromosome (with 1 exception: the sex
chromosomes).
– Sex chromosomes are X and Y.
http://www.google.com/imgres
The Phases of Meiosis:
• Prior to meiosis, a diploid cell
replicates its chromosomes
(Interphase).
• Meiosis has 2 stages: Meiosis I and
Meiosis II. Each has 4 phases.
Homologous Chromosomes:
http://silverfalls.k12.or.us/staff/read_shari/homologo
uschrom.jpg
http://www.treachercollins.co.uk/gene/chrom.gif
Karyotype: display of chromosomes in # order; informs
chromosomal # abnormality, chromosomal abnormaility &
genetic sex
Meiosis I:
1. Prophase I: chromosomes condense,
homologous chromosomes become
attached to each other, each homologous
chromosome contains 4 sister chromatid
(this is called a tetrad, meaning 4).
2. Metaphase I: homologous pairs align along
the middle of the cell.
3. Anaphase I: homologous pairs split.
4. Telophase I and Cytokinesis: Nuclei reform
and the cells split. This result is 2 diploid
cells, each with 2 complete sets of
chromosomes.
http://www.google.com/imgres
Meiosis II:
1.
Prophase II: Spindle fibers form again &
chromosomes condense. NO tetrads; NO crossing
over!
2.
Metaphase II: chromatids move to the center of the
cell.
3.
Anaphase II: chromatids are pulled to opposite
poles.
4.
Telophase II and Cytokinesis: Nuclei reform and
cells separate. The result is 4 haploid cells.
http://www.google.com/imgres
Meiosis I 
Meiosis II 
http://www.accessexcellence.org/RC/VL/
GG/images/meiosis.gif
• In human males, 4 haploid cells result
(sperm cells) but in human females,
only 1 of the 4 haploid cells forms an
egg cell. The other 3 receive no
cytoplasm and do not form gametes
(they disintegrate).
• Interphase occurs only ONCE (Meiosis
I), meaning chromosomes replicate
only 1X.
What are the differences between mitosis
and meiosis?
• Meiosis produces daughter cells with ½
the # of chromosomes (haploid cells),
mitosis produces diploid cells.
• Meiosis produces daughter cells that
are NOT genetically identical to each
other (the homologous chromosomes
separation is random); mitosis
produces EXACT copies of parent cells.
• Meiosis produces 4 haploid cells;
mitosis produces 1 cell.
Genetic Variation
Variation results from the recombination of
DNA (from meiosis & fertilization) and
accounts for the differences between
members of a population.
Sources of Genetic Variation:
• Random separation of homologous pairs of
chromosomes
• Random combination of haploid gametes
• Crossing Over (tips of homologous
chromosomes switch places) occurs during
prophase I (meiosis I)
http://kvhs.nbed.nb.ca/gallant/biology/mitosis_meiosis.jpg