General Biology I - Cell Cycle and M Phases PDF

Summary

This document provides a comprehensive overview of cell cycle, mitosis, and meiosis. It explains the phases of the cell cycle, including significant stages like prophase, metaphase, anaphase, and telophase within both mitosis and meiosis, and the function of checkpoints. The document also delves into the processes of DNA replication and cytokinesis. It emphasizes the fundamental concepts of cellular reproduction and the role of these processes in the overall life of organisms.

Full Transcript

Britannica.com
Britannica.com
ScienceNotes.org
ScienceNotes.org
 OBJECTIVES:
1.Learn about the cell cycle.
2.Develop an understanding why cell cycle occurs.
3.Accomplish the 10-item evaluation (GRADED).
4.Complete given activity at the end of the slide.
1 ST CLASS ACTIVITY
 =>
WHAT IS THIS CALLED?

ETYOGZ
ABBY
OEDLDTR
EGTARENE
2 nd CLASS ACTIVITY
What can
you say
about Dua
Lipa’s hair?
The root of the hair is made up of protein
cells and is nourished by blood from nearby
blood vessels. As more cells are created, the
hair grows out of the skin and reaches the
surface. Sebaceous glands near the hair
follicles produce oil, which nourishes the
hair and skin
Alternation of Generation
Alternation of generations is a type of life cycle found in
terrestrial plants and some algae in which subsequent
generations of individuals alternate
between haploid and diploid organisms.
In general, the generations alternate between
the sporophytes capable of creating spores and
the gametophytes, capable of creating gametes.
 A repeating I tis made up of different
sequence of cellular phases, each has its own
growth and division unique process or event

Inorder to ensure the cell cycle
regulation, critical points called
‘checkpoints’ must also be
identified.
 CELL CYCLE
includes two phases

1. INTERPHASE
G1 Phase
S Phase
G2 Phase
2. MITOTIC PHASE
The G0 phase, also
known as the resting
phase, is the phase
of the cell cycle
during which a cell is
neither dividing nor
preparing to divide.
 G1 Phase
cell grows by producing more organelles
and increasing the volume of the cytoplasm
cell is active at the biochemical level
cell is accumulating the building block of
chromosomal DNA, associated proteins,
and enough energt reserves for the
replication of DNA in the next phase.
G1 Checkpoint (Restriction
Point)
determines wether all conditions
are favorable for cell division
point at which cell irreversibly
commits to the cell division
process
cell not meeting growth
requirements will not progress
into S phase
S Phase (Synthesis)
DNA replication occurs
formation of identical DNA molecules
centrosome is duplicated
G2 Phase
cell replenishes its energy stores and
synthesizes proteins for chromosome
manipulation.
some organelles are duplicated
cytoskeleton is dismantled to provide
resources for the mitotic phase
completion of final preparations for
the mitotic phase
 G2 Checkpoint
prevents entry into the mitotic phase if
certain conditions are not met like:
complete replication of DNA
No damaged DNA
If such problems are detected, the cell
cycle halts and the cell attempts to
complete DNA replication or repair
damanged DNA
 M Checkpoint
“SPINDLE CHECKPOINT”
determines whether all the sister
chromatids are correctly attached
to the spindle microtubules
occurs near the end of metaphase
stage
 Sister
Chromosome Chromosome Chromatid
condensed form of DNA s

Chromatids
duplicated chromosomes

Chromatin
DNA + PROTEIN
condenses to form chromosome
 Diploid Cell 2n=46 chromosomes
(23 pairs of chromosome)

Cell Cycle
Mitosis Meiosis n=92 individual
chromatids
2 Diploid Cell 4 Haploid Cell

Fertilization

Diploid Cell
 four phases namely:
type of cell prophase, metaphase,
division that anaphase, and
produces two telophase;
genetically which is the followed
identical daughter by the division of the
cells cytoplasm known as
‘cytokinesis.’
Prophase
Chromosomes condense
Nucleolus disappears
Separation of centrosomes
Formation of mitotic spindle
(structure that separates the
duplicated chromosomes)
Prometaphase
Nuclear membrane breaks
down
Polar microtubulues push
against each other, moving
centrosomes apart
Microtubulues attached at the
centromere, specifically at the
kinetochore (protein)
Metaphase
Chromosomes line up
along the metaphase
plate (imaginary plane)
The spindle fibres attach
to the chromosomes (at
the centromere,
kinetochore)
Anaphase
centromere splits, allowing sister chromatids to separate
The kinetochore spindle fibers shorten.
 Telophase
begins once the chromosomes
have completed separating and
reached the opposite poles of
the cell
remains of the network of
spindle fibers is dismantled
nuclear envelope begins to form
and the daughter chromosomes
begin to decondense
CYTOKINESIS CLEAVAGE FURROW
final stage of the cell cycle
can occur anywhere from
Anaphase into Telephase once
the chromosomes have separated
cytoplasm of the cell begins to
split and divides evenly in half
Produces TWO DAUGHTER CELLS
 type of cell division
involving the Itis divided into two
production of gametes. major phases:
A diploid Meiosis Ior the
cell tends to divide Reduction phase and
twice in order to Meiosis IIor the
produce four haploid Replication phase
daughter cells.
 Prophase I
homologous chromosomes
line up side by side which is a
process known as SYNAPSIS
DNA is exchanged between
two nonsister chromatids of a
homologous pair of
chromosomes
Metaphase I
the homologous pairs of chromosomes
align on either side of the equatorial
plate
spindle apparatus forms from opposite
ends of the cell and attaches to the
chromosomes
spindle fibers
are only able to make contact with the
kinetochore on the sister chromatid
that is facing outward in each
chromosome pair
Anaphase I
attachment of spindle fibres
are complete.
The homologous
chromosomes are pulled
apart and move towards
opposite ends of the cell
Telophase I
The chromosomes are now
at opposite ends of the cell
and begin to form two
distinct chromosome
clusters
Cytokinesis
Nuclear division begins,
and the parent cell is
divided in half, forming 2
daughter cells
Prophase II
chromosomes begin to
recondense and spindle
fibers begin to form once
again
spindle fibres attach to the
kinetochore (in the
centromere) of the sister
chromatids.
Metaphase II
Each of the 23
chromosomes line up
along the center of the
cell at the metaphase
plate
Anaphase II
centromere splits, freeing the
sister chromatids from each
other
spindle fibers begin to
shorten, pulling the newly-
separated sister chromatids
towards opposite ends of the
cell.
Telophase II
nucleus forms around the
bundle of chromosones
remains of the network of
spindle fibers is dismantled
Cytokinesis
cell division begins again
in each of the two
daughter cells, creating 4
daughter cells (haploid).