Cell Division - Mitosis and Meiosis PDF

Summary

This document explains cell division, including mitosis and meiosis. It goes through the various stages involved and details important parts of the cell cycle.

Full Transcript

Duration: 130 min Middle School Grades: 6 - 8 CCSS, NGSS

Cell Division

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Review and Recall:

Cytoplasm
Review and Recall:
 THE CELL CYCLE AND
DIVISION
The production of new cells to bring about growth, the
replacement of damaged cells in the wounded body
parts, and the production of new generations of
individuals among some group of organisms take place
through one of the wonderful processes taking place in
the body of living things called cell division.
As we all grow, why do cells divide instead of just
getting bigger?

X
 Cells gain nutrients from their surroundings and
excrete their waste to their surroundings by the
process of diffusion.

The rate of diffusion decreases with increase in cell
size making the cell less efficient.

Therefore, instead of increasing in size, with growth,
the cells reproduce to grow larger in number and
maintain their efficiency.
 CELL DIVISION
Two kinds of cell division:
Mitosis – takes place in our body cells or somatic
cells
Meiosis – takes place in the ovaries (female) testes
(male). Responsible for the formation of gametes or
sex cells (sperm and egg cell).

The process of cell division is repeated over and
over in a process called cell cycle.
 INTERPHASE
Interphase is described as the resting stage, resting because
the cell is not dividing but very active in performing
metabolic activities.
The metabolic activities are geared towards protein
synthesis that brings about the growth of the cell and DNA
replication.
90% of the entire cell cycle is devoted to the interphase.
 INTERPHASE
What are the three sub phases/stages of
interphase?

G1 (Gap 1) phase
S (synthesis) phase
G2 (Gap 2) phase
 THE CHROMOSOME
The presence of two complete sets of
chromosomes in an organism's cells, with
each parent contributing a chromosome to
each pair.

Haploid refers to the presence of a single
set of chromosomes in an organism's cells.

Haploid (N) Diploid 2(N)
How many chromosomes and
chromatids?
How many chromosomes and
chromatids?
STAGE 1: G1 (GAP 1) PHASE
This is the longest phase among cells
The cell at this stage is still young and
undergoes rapid growth until it attains
its normal size.
Organelles are formed
Proteins are produced such as the
enzymes needed in S phase.
 STAGE 2: S (SYNTHESIS)
PHASE
The DNA, the main composition of
the chromosomes inside the nucleus
of the cell, doubles at this stage
through a process called
replication.
STAGE 3: G2 (GAP 2) PHASE

Preparation for cell division
Assembly of proteins such as
microtubules that cause the
chromosomes to move during
cell division.
 STAGE 1: PROPHASE
The nuclear membrane and nucleolus begin to dissolve
Chromatins undergo changes until they become double
stranded and are called chromatids.
The double-stranded chromosomes are connected
together at one point by a centromere.
Spindle fibers later become well developed.
 STAGE 2: METAPHASE
The double-stranded chromosomes called chromatids
align themselves at the equator of the cell.

Each chromatid is attached to the spindle by a structure
in the centromere called kinetochore.
 STAGE 3: ANAPHASE
Forces originating from the poles pull the chromatids to move
and consequently, the centromere splits separating the
chromatids into new, single-stranded chromosomes.

The chromosomes then migrate toward their respective poles.
 STAGE 4: TELOPHASE
The chromosomes now have reached the opposite
poles and the spindle disappears.
At the poles, the chromosomes uncoil and the
nucleolus and the nuclear membrane begin to
reform.
Simultaneously, the cytoplasm divides and a plasma
membrane partitions the cell into two.
 CYTOKINESIS
Cleavage furrow forms
The formation of the new plasma membrane
completely divides the cell into two identical daughter
cells.
At this point, each chromosome in the resulting
daughter cell is composed of only one chromatid.
FOR EASY RECALL, USE
THE ACRONYM PMAT
P – prophase
M – metaphase (middle)
A – anaphase (away)
T – telophase
2n indicates that there are two sets of these
chromosomes, one from each parent.

So, in humans, 2n = 46, meaning 46 chromosomes
total in a diploid cell (23 pairs).

n stands for the number of unique chromosomes in
a set (the haploid number). For humans, n = 23,
which represents 23 unique chromosomes.
Review and Recall:
Humans have 23 pairs of chromosome. Provide the number
of chromosomes and chromatids inside the table.
Phases of Mitosis No of chromosomes Number of chromatids
PROPHASE 46 92
METAPHASE 46 92
ANAPHASE 92 92
TELOPHASE 92 92
END OF MITOSIS 46 46
(SEPARATED CELLS)
 Let’s Try:
Dogs have 78 TOTAL NUMBER (DIPLOID) of chromosomes. Provide
the number of chromosomes and chromatids in each stage of mitosis.
Phases of Mitosis No of chromosomes Number of chromatids
INTERPHASE 78 78
PROPHASE 78 156
METAPHASE 78 156
ANAPHASE 156 156
TELOPHASE 156 156
END OF MITOSIS 78 78
(SEPARATED CELLS)
MEIOSIS
 PROPHASE I
each chromosome is composed of two
sister chromatids containing identical
genetic information
crossing over – happens randomly
MEIOSIS
 METAPHASE I
the centrioles are now at opposite poles of the cell with
meiotic spindle
the chromosome pairs line up next to each other along
the center (equator) of the cell.
The meiotic spindle fibers attach to the kinetochore of
the chromosome
Independent assortment
MEIOSIS
 ANAPHASE I
Each of the homologous chromosomes get
pulled towards opposite poles of the cell

The sister chromatids of each chromosome
remain attached to one another and don’t
come apart.
MEIOSIS
 TELOPHASE I
The chromosomes arrive at opposite poles of
the cell.
Cleavage furrow appears and the cytoplasm
starts to divide
A nuclear membrane forms around each set of
chromosomes to create two new nuclei.
 MEIOSIS II
Cells move from meiosis 1 to meiosis 2 without
copying their DNA.
“mitosis for haploid cells”
Just have one chromosome but still consist of two
sister chromatids
The sister chromatids separate, making haploid
cells with non-duplicated chromosomes.
 PROPHASE II
Now, there are two daughter cells, each with 23
chromosomes (23 pairs of chromatids)
In each daughter cells the chromosomes condense again
into visible X-shaped structures.
Nuclear membrane around the nucleus dissolves
The centrioles duplicate
Spindle forms again
 METAPHASE II
The chromosomes line up end-to-end
along the equator of the cell.
The centrioles are now at opposites poles
in each of the daughter cells.
Meiotic spindle fibers at each pole of the
cell attach to each of the sister chromatids
 ANAPHASE II
The chromosomes are pulled to
opposite poles

The separated chromosomes are
now individual.
 TELOPHASE II
The chromosomes complete their move to the opposite poles of the cell
A membrane forms around each set of chromosomes to create four new
cell nuclei
Nuclear membrane forms around each set of chromosomes.
There are four granddaughter cells, each with half a set of
chromosomes (haploid)
MALES – four cells are all sperm cells
FEMALES – one of the cells is an egg cell while other three are polar
bodies.
Meiosis leads to the formation of haploid cells.
However, these cells are still incapable of
fertilization until they further mature as gametes in
a process called gametogenesis.

Gametogenesis in males is called spermatogenesis
and oogenesis in females.
 MALES – four cells are all sperm cells
FEMALES – one of the cells is an egg cell while other three are
polar bodies.

These haploid cells will become diploid during the process of
fertilization, when sperm cells unite with the egg cells making into
another organism.
This process also shows how the organisms, like us humans are
made.
 GENETIC DISORDERS
ASSOCIATED WITH MEIOSIS
TURNER SYNDROME (45,XO)
seen in female individuals
small and underdeveloped ovaries, uterus, and oviducts
lose the ability of normal ovarian function
do not experience puberty at a normal age
DOWN SYNDROME
(TRISOMY 21)
3 chromosome in the 21 st

chromosome
most cases are not due to
inheritance, but on random
mistakes
short stature
short neck
short arms and legs
KLINEFELTER SYNDROME
(47, XXY)
underdeveloped prostate gland and testes
lack of facial and body hair
breast enlargement
small penis
TRISOMY X
(47, XXX)
the abnormal presence of an extra X chromosome
mild symptoms or none at all
no unusual physical features
behavioral and emotional difficulties
Cancer is a large group of diseases that can start in almost any
organ or tissue of the body when abnormal cells grow
uncontrollably, go beyond their usual boundaries to invade
adjoining parts of the body and/or spread to other organs. The
latter process is called metastasizing and is a major cause of
death from cancer. A neoplasm and malignant tumor are other
common names for cancer.

Cancer is the second leading cause of death globally, accounting
for an estimated 9.6 million deaths, or 1 in 6 deaths, in 2018.
Lung, prostate, colorectal, stomach and liver cancer are the
most common types of cancer in men, while breast, colorectal,
lung, cervical and thyroid cancer are the most common among
women.