Transcript
CELL REPRODUCTION
Outline• Types of Cell Division• Structure of Chromosomes • Cell Division in Prokaryotes• Phases of cell cycle• Interphase• Mphase• Cytokinesis• Cell cycle-abnormalities
Cell Theory: all organisms consist of cells and arise from pre-existing cells
• Mitosis is the process by which new cells are generated for body tissues during development, growth, and tissue repair.– 2 cells are produced in one cycle of division– Daughter cells have ALL of the genetic material of the
parent cell• Meiosis is the process by which special cells called gametes
are generated for reproduction.– 4 cells are produced in two cycles of division– Daughter cells have HALF the genetic material of the
parent cell
SOMATIC Vs REPRODUCTIVE
GAMETES (n) – EGGS (OVA) & SPERM - MEIOSIS
(Somatic) OTHERS (2n) - MITOSIS
NUCLEAR Vs CYTOPLASMIC DIVISION
The state in which there are two copies of each chromosome present is known as diploid (2n).
HHaploid (n)– only one copy of a chromosome is present
All of the somatic cells in our bodies are diploid cells The only cells in our bodies that are haploid are our gametes – eggs and sperm
Human somatic cells have 46 chromosomes diploid number (2n) = 46
23 from mom - 23 from dad
22 pairs are autosomes –true homologous pairs
1 pair is not necessarily homologous
- sex chromosomesfemales are XX
males are XY – a non homologous pair.
Meiosis
– form of cell division where there are two successive rounds of cell division following DNA replication
- produces haploid cells (n)
- start with 46 double stranded chromosomes (2n)After 1 division - 23 double stranded chromosomes (n) After 2nd division - 23 single stranded chromosomes (n) - occurs in our germ cells
– cells that produce our gametes - egg and sperm
Cell division
Cell division
All complex organisms originated from a single fertilized egg.
Every cell in your body started here, through cell division the numbers are increased
Cell then specialize and change into their various roles
Mitosis
• Mitosis is the process by which new body cell are produced for:– Growth– Replacing damaged or old
cells.
This is a complex process requiring different stages
Mitosis• All daughter cells contain the
same genetic information from the original parent cell from which it was copied.
• Every different type of cell in your body contains the same genes, but only some act to make the cells specialise – e.g. into nerve or muscle tissue.
BASIC GENETICS• Each cell in the human body contains two sets of 23
chromosomes
• Mitosis identically replicates this information
• Each cell therefore has the same genetic material
• Reproductive cells only have one set of chromosomes. These combine to make a new person with different genetic material to both parents
2 daughter cells identical to original
Parent cell
Chromosomes are copied and double in number
Chromosomes now split
Reproduction presents a major problem for cells and organisms: (how can information be transmitted faithfully to progeny)
I
II
III
IV
= one bit ofgenetic information
= one bit ofgenetic information
The information transfer problem becomes more challenging as more bits of information are incorporated into the organism
One of life’s solutions to this challenge: “Package” the
bits of information into single units called chromosomes
= one bit ofgenetic information
The nucleus
Nuclear membrane - double membrane
Chromosomes/Chromatin- genetic material/DNA
Gene - DNA segment
Chromosome--- DNA --- Gene
chromosomes
Packaging of genetic material in prokaryotes and eukaryotes
prokaryote cell
eukaryote cell
Structure of Chromosomes• Chromosomes are composed of a complex of
DNA and protein, chromatin.
• DNA exists as a single, long, double-stranded fiber extending chromosome’s entire length.– forms nucleosome every 200 nucleotides
• DNA coiled around histone proteins
C Chromosome basics.TThe number of chromosomes present within the nucleus is a characteristic of the species. Chromosomes of humans and most other eukaryotic species occurs in pairs. Members of a chromosome pair are known as homologues.
Mitosis/Cell division
mitosis is the process of cell division in whichone cell becomes two identical daughter cells
developmentrenewal regeneration
The cell cycle is the mechanism by which a cell duplicates its contents and then divides in two
cell grows and duplicates its contents
cell contents
cell divides in two
Each parental cell gives rise to two daughter cells on completion of each cell cycle
parental cell
daughter cell 1
daughter cell 2
Replication of chromosomes
• Replication is the process of duplicating a chromosome
• Occurs prior to division
• Replicated copies are called sister chromatids
• Held together at centromere
Binary Fission-prokaryotic cells
Cell Cycle
Prophase
Metaphase
Anaphase Telophase
The Stages The Stages of of MMitosisitosis
Interphase
REMEMBER!
Interphase
Prophase
Metaphase
AnaphaseTelophase
IPMAIPMATT
(Individuals Please Make All The Cells)
INTERPHASE
After a cell has divided, the two
new cells begin the process again,
the cells at this stage are in
Interphase.
• By late interphase, the chromosomes have been duplicated but are loosely packed.
• The centrosomes have been duplicated and begin to organize microtubules into an aster (“star”).
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
PROPHASE• The chromatin (decondensed
DNA) in the nucleus, condenses to form pairs of chromosomes.
• The centrioles move to opposite ends of the nucleus.
• As this is happening the nucleolus
begins to break down
• Nuclear membrane begins to break down
Prophase
• Replicated chromosomes condense.
• Microtubules organize into a spindle
The Spindle
A spindle is a web type structure made up of microtubule fibers. It is essential for mitosis because it arranges the chromosomes into their correct positions in preparation for cell division.
Mitotic center
MicrotubuleA cell at metaphase a spindle
Chromosomes attached to spindle during nuclear division
METAPHASE
• The spindle becomes fully developed
• The nuclear membrane has completely gone
• The chromatid pairs are aligned along the center of the spindle (the EQUATOR)
• The spindle fibers push the sister chromatids until they are all arranged at the metaphase plate, an imaginary plane equidistant between the poles, defining metaphase.
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
Anaphase
• Centromeres of sister chromatids separate
• Chromosomes move to opposite ends of the cell
• At anaphase, the centromeres divide, separating the sister chromatids.
• Each is now pulled toward the pole to which it is attached by spindle fibers.
• By the end, the two poles have equivalent collections of chromosomes.
TELOPHASE
Two new nuclei are formed when the chromosomes reach the opposite poles of the cell
The nuclear membrane is formed- the nucleolus reappears
The chromosomes disperse in the nucleus
Telophase
• Nuclear membranes form
• Spindle disappears
• Division of cytoplasm occurs (cytokinesis)
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
CYTOKINESIS
Literally means, division of the cytoplasm
Mitosis is the splitting of the nucleus.
Cytokinesis is the splitting of cytoplasm
Cytokinesis
• Cleavage of cell into two halves– animal cells
• constriction belt of actin filaments
– plant cells• cell plate
Cytokinesis
Cytoplasmic division
occurs after nuclear
division is complete.
Two cells are formed.
Cytokinesis in animals
A cleavage furrow forms that pinches the cell in two - the furrow represents a ring of actin and myosin filaments just under the plasma membrane.
Rat – epithelial cells
Mitosis – bone cell slides
1 2
3 4 5
Parent cellChromosomes copied
Copies separating 2 daughter cells
Cells split
Cytokinesis in plants
A cell plate made up of cell-wall components gradually forms in the middle of the cell.
So what’s the difference in Plants?
• Plant cells do not have a centriole
• Plant cells do not pinch in half.
• Cytoplasmic division is accomplished by a cell plate forming between 2 daughter cells
Plants
Cell Turnover – The speed of mitosis
One full cycle can vary between a couple of minutes to days.
For example skin and epithelial cells have a rapid turnover in the human body in order to replace the ones constantly being worn away.
Cells which make up organs such as the eye and the brain, need not multiply as often once they reach adult size.
Organs which need to produce new cells continuously have the highest turnover.
For example:-
Bone marrow-
producing replacement
blood cells
The testes - producing
spermatogonia
Tumors
Abnormalities can sometimes occur in cells which reproduce at a rapid rate, this in turn may lead to the formation of tumors.
Tumors of any type should be considered serious.
Although benign tumors do not usually cause a threat to a persons life, they can cause great inconvenience if not treated.
CANCER
• uncontrolled cellular mitotic divisions
Meiosis – A Source of DistinctionMeiosis – A Source of Distinction
Why do you share some but not all characters of each parent?
What are the rules of this sharing game?
At one level, the answers lie in meiosis.
Meiosis does two things -Meiosis does two things -
1) Meiosis takes a cell with 1) Meiosis takes a cell with two copiestwo copies of every of every chromosome (diploid) and makes cells with a chromosome (diploid) and makes cells with a single copysingle copy of every chromosome (haploid). of every chromosome (haploid).
This is a good idea if you’re going to combine This is a good idea if you’re going to combine two cells to make a new organism. This trick two cells to make a new organism. This trick is accomplished by is accomplished by halvinghalving chromosome chromosome number. number.
In meiosis, In meiosis, one diploid cells produces four one diploid cells produces four haploid cells.haploid cells.
Why do we need meiosis?• Meiosis is necessary to halve the
number of chromosomes going into the sex cells
Why halve the chromosomes in gametes?
• At fertilization the male and female sex cells will provide ½ of the chromosomes each – so the offspring has genes from both parents
2) Meiosis 2) Meiosis scramblesscrambles the specific forms of the specific forms of each gene that each sex cell (egg or sperm) each gene that each sex cell (egg or sperm) receives. receives.
This makes for a lot of This makes for a lot of genetic diversitygenetic diversity. This . This trick is accomplished through trick is accomplished through independent independent assortmentassortment and and crossing-overcrossing-over..
Genetic diversity is important for the Genetic diversity is important for the evolution evolution of populations and speciesof populations and species..
Meiosis
Parent cell – chromosome pair
Chromosomes copied
1st division - pairs split
2nd division – produces 4 gamete cells with ½ the original no. of chromosomes
Meiosis – mouse testes Parent cell
4 gametes
1st division
2nd division
The Stages of Meiosis:
• aka: Reduction Division
Meiosis I : Separates Homologous
Chromosomes• Interphase– Each of the chromosomes
replicate– The result is two genetically
identical sister chromatids which remain attached at their centromeres
Prophase I
• During this phase each pair of chromatids match up with their homologous pair and fasten together (synapsis) in a group of four called a tetrad.
• Extremely IMPORTANT!!! It is during this phase that crossing over can occur.
• Crossing Over is the exchange of segments during synapsis.
Metaphase I
• The chromosomes line up at the equator attached by their centromeres to spindle fibers from centrioles.– Still in homologous pairs
Anaphase I
• The spindle guides the movement of the chromosomes toward the poles– Sister chromatids remain attached– Move as a unit towards the same pole
• The homologous chromosome moves toward the opposite pole– Contrasts mitosis – chromosomes
appear as individuals instead of pairs (meiosis)
Telophase I
• This is the end of the first meiotic cell division.
• The cytoplasm divides, forming two new daughter cells.
• Each of the newly formed cells has half the number of the parent cell’s chromosomes, but each chromosome is ready for the second meiotic cell division
Cytokinesis
• Occurs simultaneously with telophase I– Forms 2 daughter cells
• Plant cells – cell plate• Animal cells – cleavage furrows• NO FURTHER REPLICATION OF
GENETIC MATERIAL PRIOR TO THE SECOND DIVISION OF MEIOSIS
Figure 13.7 The stages of meiotic cell division: Meiosis I
Meiosis II : Separates sister
chromatids
• Similar to mitosis
• THERE IS NO INTERPHASE II !
Prophase II
• Each of the daughter cells forms a spindle, and the double stranded chromosomes move toward the equator
Metaphase II
• The chromosomes are positioned on the metaphase plate in a mitosis-like fashion
Anaphase II
• The centromeres of sister chromatids finally separate
• The sister chromatids of each pair move toward opposite poles– Now individual chromosomes
Telophase II and Cytokinesis
• Nuclei form at opposite poles of the cell and cytokinesis occurs
• After completion of cytokinesis there are four daughter cells – All are haploid (n)
Figure 13.7 The stages of meiotic cell division: Meiosis II
One Way Meiosis Makes Lots of One Way Meiosis Makes Lots of Different Sex Cells (Gametes) – Different Sex Cells (Gametes) – Independent AssortmentIndependent Assortment
Independent assortment produces 2Independent assortment produces 2nn distinct gametes, where n = the number distinct gametes, where n = the number of unique chromosomes. of unique chromosomes.
That’s a lot of diversity by this That’s a lot of diversity by this mechanism alone.mechanism alone.
In humans, n = 23 and 2In humans, n = 23 and 22323 = 6,000,0000. = 6,000,0000.
Another Way Meiosis Makes Lots of Different Another Way Meiosis Makes Lots of Different Sex Cells – Crossing-OverSex Cells – Crossing-Over
Crossing-over multiplies the already huge number of different gamete Crossing-over multiplies the already huge number of different gamete types produced by independent assortment.types produced by independent assortment.
The Key Difference Between Mitosis and Meiosis is The Key Difference Between Mitosis and Meiosis is the Way Chromosomes Uniquely Pair and Align in the Way Chromosomes Uniquely Pair and Align in
Meiosis Meiosis
MitosisMitosis The first (and The first (and distinguishing) distinguishing) division of meiosisdivision of meiosis
Boy or Girl? The Y Chromosome “Decides”Boy or Girl? The Y Chromosome “Decides”
X chromosomeX chromosomeY chromosomeY chromosome
Boy or Girl? The Y Chromosome “Decides”Boy or Girl? The Y Chromosome “Decides”
Meiosis – division error
Chromosome pair
Meiosis error - fertilization
Should the gamete with the Should the gamete with the chromosome pair be fertilized chromosome pair be fertilized then the offspring will not be then the offspring will not be ‘normal’.‘normal’.
In humans this often occurs In humans this often occurs with the 21with the 21stst pair – producing pair – producing a child with Downs Syndromea child with Downs Syndrome
21 trisomy – Downs Syndrome
Can you see the extra 21st chromosome?
Is this person male or female?
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