Download CELL-DIVISION CELL LIFE CYCLE a)Division b)Elongation c

CELL-DIVISION
CELL LIFE CYCLE
a)Division
b)Elongation
c)Differentiation
zygote
embryo
plantlet
baby plant
LIFE CYCLE
1.INTERPHASE(resting)
2.DIVISION PHASE
INTERPHASE
*Gets ready for division.
* Cell is metabolically active.
* Hence, it is called non resting stage.
It is divided into three periods.they are G1,S,G2
Gap 1 (G1): Cells increase in size in Gap 1, produce RNA
and synthesize protein. An important cell cycle control
mechanism activated during this period (G1 Checkpoint)
ensures that everything is ready for DNA synthesis. (Click
on the Checkpoints animation, above.)
S Phase: To produce two similar daughter cells, the complete
DNA instructions in the cell must be duplicated. DNA
replication occurs during this S (synthesis) phase.
Gap 2 (G2): During the gap between DNA synthesis and
mitosis, the cell will continue to grow and produce new
proteins. At the end of this gap is another control checkpoint
(G2 Checkpoint) to determine if the cell can now proceed to
enter M (mitosis) and divide.
Mitosis or M Phase: Cell growth and protein production
stop at this stage in the cell cycle. All of the cell's energy is
focused on the complex and orderly division into two similar
daughter cells. Mitosis is much shorter than interphase,
lasting perhaps only one to two hours. As in both G1 and
G2, there is a Checkpoint in the middle of mitosis
(Metaphase Checkpoint) that ensures the cell is ready to
complete cell division. Actual stages of mitosis can be viewed
at Animal Cell Mitosis.
DIVISION PHASE
It is of two types 1)MITOSIS,2)MEIOSIS
MITOSIS
It is again divided into two stages 1.KARYOKINESIS.
2.CYTOKINESIS.
KARYOKINESIS
1.It is “division of nucleus”.
Karyo=nucleus;kinesis=division.
2.It occurs in four different phases.
a)PROPHASE
b)METAPHASE
c)ANAPHASE
d)TELOPHASE
PROPHASE
It is divided into there sub stages i)early prophase
ii)mid prophase
iii)late prophase
EARLY PROPHASE
1.”CHROMATIN” which is present in nucleus condenses and
form rod like structures called “CHROMOSOMES”.
MID PROPHASE
1.’CHROMOSOMES’ splits longitudinally and forms “SISTER
CHROMATIDS” and they are attached to the “CENTROMERE”.
LATE PROPHASE
1.NUCLEAR MEMBRANE and NUCLEOLUS dissappeares.
2.Chromosomes will scatter in the cytoplasm.
3.EVENTS are opposite in the TELOPHASE.
METEPHASE
1.Formation of by polar spindle appratus takes place.
2.Spindle fibers are spindle shaped.
3.Spindle fibers are made up of “MICROTUBULES”.
4.It has a protein called “TUBULIN”.
5.Spindle fibers forms the METAPLATE at centre portion of the
cell.
6.CHROMOSOMES which are scattering in the CYTOPLASM are
brought togethere by the “SPINDLE FIBERS”.
7.These CHROMOSOMES are along with INTERZONAL spindle
fibers forms hard portion called METAPLATE.
8.SPINDLE FIBERS are of three types
a)CONTINUOUS Spindle fibers are the fibers which extends
from one pole to the other pole passing through mid line and
are not attached to the CHROMOSOMES.
b)CHOMOSOMAL Spindle fibers are the fibers which are
attached to the CHROMOSOMES at CENTROMERE.
c)INTERZONAL Spindle fibesr are the fibers which are present
at either side of the equotorial plate but in small hair like
strutures.
ANAPHASE
1.During ANAPHASE pressure is exerted on CENTROMERE.
2.As a result,the Chromatids break forming daughter
CHROMOSOMES.
3.These reach either ends of the cell.
4.CONTINUOUS Spindle fibers breaks into MICROTUBULES .
TELOPHASE
1.NUCLEOLUS and NUCLEAR MEMBRANE reappears during
this phase.
2.This phase is opposite to LATE PROPHASE.
3.Each of the Chromosomes are surrounded by NUCLEAR
MEMBRANE.
CYTOKINESIS
1.The MICROTUBULES gather to the centre and forms
“PHRAGMOPLAST”.(Barrel shaped)
2.Due to disapperance of vacoules,it condenses into flat
structure.
3.Ths develops into CELL PLATE.
4.This finally forms MIDDLE
LAMELLUM.