Cell Division: Mitosis and Meiosis (Biology)

Summary

This document provides a summary of cell division, explaining the process of mitosis. It covers topics like stages of mitosis, reasons for cell division, and checkpoints. It includes information about cell cycle and growth.

Full Transcript

 CELL
DIVISION
It is the process in
which one cell,
called the parent
cell, divides to form
two new cells,
referred to as
daughter cells
a part of the cell cycle in which replicated
chromosomes are separated into two new
nuclei. Cell division by mitosis is an
equational division which gives rise to
genetically identical cells in which the total
number of chromosomes is maintained.
 Mitosis was first discovered in plant
cells by Strasburger (1875)
W. Flemming, (1879) discovered it in
animal cells. The term mitosis was
coined by Flemmingin 1882.
 The cells undergoing mitosis are
called mitocytes. In plants, the
mitocytes are mostly meristematic
cells.
In animals, the mitocytes are stem
cells, germinal epithelium and
embryonic cells.
It also occurs during regeneration.
Root tip is the best material to study
mitosis.
There are three main reasons:
1.Growth
2.Repair/healing
3.Asexual reproduction
 INTERPHA
The cell grows and
developsSEand
manufactures
proteins
The cells’ organelles
perform their
functions and
metabolic activities
for survival
The chromosomes
duplicate for cell
division to ensure
that the daughter
cells would have
appropriate numbers
of genetic materials.
 INTERPHAS
E
During G1 phase,
also called the first
gap phase, the cell
grows physically
larger, copies
organelles, and
makes the molecular
building blocks it will
need in later steps.
 INTERPHAS
E
In S phase, the cell
synthesizes a complete
copy of the DNA in its
nucleus. It also
duplicates a
microtubule-organizing
structure called the
centrosome. The
centrosomes help
separate DNA during M
phase.
 INTERPHAS
E
During the second gap
phase, or G2 phase,
the cell grows more,
makes proteins and
organelles, and begins
to reorganize its
contents in
preparation for
mitosis. G2 phase ends
when mitosis begins.
CHECKPOINTS
The G1 checkpoint,
at the G1/S
transition.
The G2 checkpoint,
at the G2/M
transition.
The spindle
checkpoint, at the
transition from
metaphase to
anaphase.
 G CHECKPOINTS
The G1 checkpoint is the main decision
point for a cell 1– that is, the primary point
at which it must choose whether or not to
divide. Once the cell passes the G1
checkpoint and enters S phase, it
becomes irreversibly committed to
division.
Size. Is the cell large enough to
divide?
Nutrients. Does the cell have
enough energy reserves or available
nutrients to divide?
Molecular signals. Is the cell
receiving positive cues (such as
growth factors) from neighbors?
DNA integrity. Is any of the DNA
damaged?
 G0 CHECKPOINTS

If a cell doesn’t get the go-ahead
cues it needs at the G1 checkpoint, it
may leave the cell cycle and enter a
resting state called G1 phase. Some
cells stay permanently in G1, while
others resume dividing if conditions
improve.
G0 CHECKPOINTS
 G2 CHECKPOINTS

To make sure that cell division goes
smoothly (produces healthy daughter cells
with complete, undamaged DNA), the cell
has an additional checkpoint before M
phase, called the G2 checkpoint.
DNA integrity. Is any of the DNA
damaged?
DNA replication. Was the DNA
completely copied during S phase?
 SPINDLE CHECKPOINTS

The cell examines whether all the sister
chromatids are correctly attached to the
spindle microtubules
What will happen if there is an
uncontrolled cell cycle?

Apoptosis: the process of programmed cell
death
Metastasis: the movement or spreading of
cancer cells from one organ or tissue to
another
What will happen if there is an
uncontrolled cell cycle?
 The meiotic cell division first time described by Van
Beneden in 1883
Meiotic cell division occurs in germ cells of all living
organism.
During meiosis, the genetic material of a diploid
germ cell undergoes two nuclear divisions and
resulting in to four haploid daughter cells.
Each daughter cells has one half of the number of
chromosomes as the parent cell.
There are two successive nuclear divisions in
 One germ cell makes 4 gametes with ½ the # of
chromosome
Occurs only in germ cells in gonads
testes /ovaries
Occurs in flowers
ovary and anther
Pair of chromosomes are similar in shape , size, and
types of genes.
Each locus is in same position on chromosome.
eye color eye color
locus locus

hair color hair color
locus locus

Paternal Maternal
(from Dad) (from Mom)
 The two stages of meiosis are:
Meiosis I : also called as Reductional Division
Meiosis II : also called as Equational Division
Before a dividing cell enters meiosis, it undergoes a
period of growth called Interphase.
INTERPHAS
EI

The interphase just prior to the entry of cell in to
meiosis is known as pre meiotic interphase.
During the S phase of pre meiotic interphase,
chromosome replication takes place.
PROPHASE I
The Prophase I divided into 5
stages:
1. Leptotene
2. Zygotene
3. Pachytene
4. Diplotene
5. Diakinesis
PROPHASE I: LEPTOTENE
The first stage of Prophase I is
called Leptotene or leptonema.
All the chromosomes begin to
condense, so, they become
visible as fine thread.
There is marked increase in the
nuclear volume.
A process of 'homology search'
which is essential to the initial
pairing of homologs, begins
during
PROPHASE I: ZYGOTENE
The zygotene stage also
known as zygonema.
This stage begins with the
initiation of pairing between
homologus chromosomes and
it ends with complete pairing.
The process of pairing
between homologus
chromosomes is known as
Synapsis.
PROPHASE
I
Prophase I - Synapsis
Nonsister chromatids

sister chromatids Tetrad
sister chromatids
PROPHASE I: PACHYTENE
The pachytene stage also
known as pachynema.
The process of synapsis is
complete.
The two homologus of each
bivalent appears to be
attached with each other at
one or more points, these
attachments are known as
chiasmata.
crossing over

It is a precise breakage, swapping and reunion
between two non- sister chromatids.
Crossovers make new gene combinations and
which are an important source of genetic
variations in populations.
nonsister chromatids Tetrad

Chiasma: site of variation
crossing over
PROPHASE I: diplotene

The diplotene stage also
known as diplonema.
DNA recombination is
complete.
The chromatids continue to
shorten and thicken and the
four sister chromatids in a
group is called a tetrad.
PROPHASE I: diplotene

The paired chromatids begin
to pull apart, causing the
strands to separate
longitudinally.
The chiasmata tend to become
terminalised as the meiotic
prophase continues.
PROPHASE I: diakinesis
The chromomes become
shorter and thicker due to
condensation.
Nucleolus and nuclear
envelope disappear towards
the end of diakinesis.
The spindle apparatus
becomes organized.
The centrioles migrate away
from one another.
metaphase i
 Shortest phase; paired
homologues align.
 INDEPENDENT ASSORTMENT
occurs
 pairs of homologues line up
independently of other pairs’
orientation toward the poles --
random.
 Adds variation.
anaphase i

 Homologous chromosomes
separate towards the poles.
 Sister chromatids remain
attached
telophase i

 Each pole now has
haploid set of
chromosomes
(however – still
doubled).
 Cytokinesis occurs:
two haploid daughter
cells formed.
meiosis ii
 No interphase II
( no more DNA replication)
 Meiosis II is similar to mitosis

Prophase II / Metaphase II Anaphase II
meiosis ii: telophase ii
 Same as telophase in mitosis.
 Nuclei form.
 Cytokinesis occurs (2nd time).
 Four haploid daughter cells produced
gametes ~ sperm or egg; ovule or pollen
grain
Spermatogen
esis: The
Oogenesis:
process of
The process of
sperm
egg cell
production in
production in
the testes of
the ovaries of
males
females
Spermatogenesis
n=23
human
germ cell in
testes n=23 sperm
Still doubled
chromosomes n=23

2n = 46
haploid (n)

n=23
n=23
diploid (2n) Still doubled
chromosomes

n=23
meiosis I meiosis II
Oogenesis 23

human germ cell
in ovary Polar
n=23
Still doubled 23 Bodies

2n = 46 23

n=23
Still doubled

diploid (2n)
Ovum
n=23
meiosis I

meiosis II
ASSIGNMENT: Mitosis and Meiosis
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