Download - Mitosis and meiosis
Mitosis and MeiosisDone by: Rawan Walid shahien
Mitosis
Interphase
Interphase: Nuclear envelope
still there And its before S
phase because the centrioles arent duplicated yet
Prophase
The chromatin condensed together to create visible chromosomes.
Prophase
The spindle fibers also begin to form
Migration of the two pairs of the centrioles to the opposite sides of the cell.
Thinning and gradual disappearance of nuclear envelope.
Prophase
Gradual mixing of the nucleolus with the rest of the nucleus.
The nuclear envelope is almost completely disappeared
Metaphase
Metaphase is marked by the alignment of all the chromosomes at the equatorial plane of the cell (the metaphase plate).
The nuclear membrane dissolves completely, marking the beginning of metaphase.
Attachment of the the spindle fibers to the centromere of the chromosome at a point called kinetochore.
Anaphase
Movements of the chromosomes occurs due to shortening of spindle microtubules and kinetochore movement along the spindle fibers.
Anaphase
Migration and arrival of the new chromosomes to the opposite poles of the cell.
Telophase
During this stage, daughter chromosomes arrive at opposite poles of cell and the spindle fibers disappear.
The chromosomes change into chromatin and become invisible under the light microscope.
Nuclear envelope begins to form around the new nuclei.
Cytokinesis that takes place during telophase
Cytokinesis or cleavage of the cytoplasm of the cell begins.
The result
myosin molecular motors attach to the actin and draw the membrane in -like a purse string.
Once the sister chromatids are separated, a ring of actin filaments (microfilaments) form a “contractile ring” around the middle of the cell
By the end of telophase, two independent daughter cells have been formed
Meiosis
Interphase
Interphase: “ before S phase”
1. the nuclear envelope still there
2. the chromosomes aren't condensed yet
3. Replication of centrioles didn’t occur
Interphase
Interphase: “ after S phase”
1. the nuclear envelope still there
2. the chromosomes started to condense
3. Replication of centrioles took place
Prophase 1 Early prophase 1: The chromatin condensed
together to create visible chromosomes.
The spindle fibers also begin to form at this time.
And centrioles begun to move away from each other
The maternal and paternal homologous chromosomes come close to each other and then align
Disappearance of the nuclear envelope is happening gradually
Prophase 1
Prophase 1: Same as the previous
slide except that The two homologous chromosome now consists of four chromatids, so these chromosomes are called TETRAD.
And now they are connected at the chiasma
Prophase 1
Late prophase 1: Crossing over takes
place between the tetrad at the Chiasma *crossing over of segments of chromatids*
Metaphase 1 Metaphase1: The homologous paired
chromosomes are shown to be connected by a terminal chiasma and arranged in the equatorial plate.
The mitotic spindle fibers connect the centromere of each chromosome on one side and the pole of the dividing cell on the other side
Attachment of the the spindle fibers to the centromere of the chromosome at a point called kinetochore.
Nuclear envelope is disappearing
Anaphase 1 The terminal chiasma disappears
and the chromosomes become free from each other.
The centromere remains undivided so sister chromatids move together to the opposite poles of the cell.
This movement occurs due to shortening of spindle microtubules and kinetochore movement along the spindle fibers.
Migration and arrival of the new chromosomes to the opposite poles of the cell.
Imp: here seperation of the chiasma takes place but NO division of centromere so the sister chromatids don’t separate here
Telophase During this stage,
cytokinesis occurres by contraction of actin filaments around the center of the cell which gives two daughter cells.
The chromosomes become thinner and then changed to chromatin.
The nuclear envelope reforms and the nucleolus reappears
Interkinesis
The two daughter cells that resulted from the 1st meiotic division have 23 (1n) chromosomes and (2C) DNA.
These cells pass in a short interphase called interkinesis during which duplication of centrioles occurs but no replication to DNA takes place (NO S Phase).
Check in the next slide we have two yellow structure which is the centrioles so before we start meiosis 2 centrioles must be duplicated
Meiosis 2
› no further replication occurs
› chromosomes line up again (metaphase II)
› sister chromatids separate (telophase II and anaphase II)
› the cells divide and chromosomes decondense (cytokinesis, telophase II)
The result
Four haploid cells * gamete cells* in which 2 are parental , and 2 are recombinant due to crossing over
The end =D
Wish you the best of luck and inshallah we will all do good in the exams and pass and get HIGH grades =)
You are the best future dentists <3