04 Cell Cycle PDF

Summary

This document provides an outline of the cell cycle, covering its stages, regulation, and role in cell division. It explains the importance of the cell cycle to life processes and details the various stages of cell division and the regulation of this process.

Full Transcript

Topic 4: The Cell Cycle

Topic 4: The Cell Cycle
(Corresponding Textbook Material: Chapter 9)

Objectives:
Introduction to the Cell Cycle (Outline Location: I and II)

Describe why the cell cycle is important to life.
Interphase (Outline Location: III)

For each of the stages of Interphase (G1, Synthesis, G2), describe what is
happening within the cell and why it is important to the cell cycle.

Cell Division (Outline Location: IV)

For each of the phases of cell division, describe what is happening within the cell
and how it contributes to cell division.

Cell Cycle Regulation (Outline Location: V)

Describe the purpose of each of the major checkpoints (G1, G2, and M) that
regulate the cell cycle.

Describe the internal and external factors that play a role in regulating the cell
cycle.

Describe how the loss of cell cycle regulation affects the body.
 Topic 4: The Cell Cycle

I) Review
A) According to Cell Theory, cells are the fundamental structural and functional
unit of life
1) The activity of an organism depends on the individual and collective activity of its
cells

2) The activity of the cell is dictated by subcellular structures

3) The continuity of life has a cellular basis (i.e. all cells originate from other cells)

B) The number of cell in an organism can vary from 1 to trillions depending on the
size of the organism

II) Cells undergo a cycle of growth, development, and reproduction known as
the cell cycle
A) The cell cycle is important because it allows organisms to:
1) Grow and develop

2) Repair themselves

3) Reproduce asexually (in some organisms)

B) The cell cycle is composed of two basic parts:
1) A period of growth and development called interphase

2) A period of cell division

III) Interphase—a period of growth and development.
A) A cell in interphase performs all its normal functions in the body and its DNA is
being transcribed and translated to produce proteins
 Topic 4: The Cell Cycle

B) Interphase is composed of three parts:
1) The first Gap phase (G1)
a) A new cell just entering G1 will have a
diploid number (2n) of chromosomes
(Figure 1)
b) Chromosomes that were condensed for
purposes of cell division are uncoiled so
that the DNA can be used
c) The duration of G1 can vary
tremendously—G1 may be as short as a
few hours or a cell may stay in G1
indefinitely, in which case phase is often
called the G0 phase

2) The Synthesis phase (S)
a) Period during which the DNA is replicated (Figure 2)
i) Results in duplicate copies of all the chromosomes
ii) The duplicate copies are called sister chromatids
iii) The duplicate copies are connected to each other by a centromere

Note: Based on the example in figure 1, there are still just six
chromosomes after DNA replication. However, each chromosome
now contains its genetic information in duplicate copy.

b) Synthesis may never occur if the cell stays permanently in G0
 Topic 4: The Cell Cycle

3) The second Gap phase (G2)
a) During G2, a cell is accumulating the resources and cellular materials needed
for cell division
b) During G2, the centrosome duplicates to form two centrosomes. The
centrosomes will play an important role during cell division

IV) Cell division
A) The process of cell division has two parts:
1) Mitosis

2) Cytokinesis

B) Mitosis
1) Mitosis is the process of dividing the
nucleus of a cell (and the genetic
information it contains) into two equal
nuclei that each have a complete copy of
the genetic information

2) The process of mitosis is divided into
several steps (Figure 3)
a) Prophase
i) Early prophase
Chromatin coils (condenses) into
chromosomes
The nucleoli disappear
Spindles form and extend out from
the centrosomes
Centrosomes move toward
opposite ends of the cell
ii) Late prophase (also called Prometaphase)
Nuclear envelope fragments
Some spindles attach to specialized protein structures on the centromeres
known as kinetochores
Some spindles from opposite poles interact with each other and do not attach to
kinetochores
 Topic 4: The Cell Cycle

b) Metaphase
i) Chromosomes line up on plane called the metaphase plate
ii) Movement of the chromosomes to the metaphase plate due to the actions of
spindles extending from the centrosomes at opposite poles of the cell
c) Anaphase
i) Spindles contract separating the sister chromatids
ii) Each sister chromatid is now a chromosome
iii) The cell elongates as the spindles that are not attached to the kinetochores
elongate
d) Telophase
i) Nuclear envelope forms around each set of chromosomes
ii) Nucleoli reappear
iii) Chromosomes begin to uncoil so that DNA can be used for protein synthesis
iv) Remaining spindles are dismantled

C) Cytokinesis
1) Cytokinesis is the process of dividing the cell (other than the nucleus that already
divided during mitosis) into two daughter cells.

2) Cytokinesis normally occurs nearly simultaneous with telophase

3) Cytokinesis does not always occur, which can result in cells with multiple nuclei
(e.g. muscle cells)

V) Cell cycle regulation
A) Proper control and timing of the cell cycle is crucial to normal maintenance,
growth, and development.
B) Three major checkpoints that regulate the cycle
1) G1 checkpoint—determines whether a cell will proceed toward cell division or
enter the G0 phase

2) G2 checkpoint—makes sure that all DNA is accurately replicated and/or repaired
before allowing mitosis to begin

3) M (Metaphase) checkpoint—makes sure that all chromosomes are properly
connected to a spindle before allowing mitosis to proceed into anaphase
 Topic 4: The Cell Cycle

C) The cell cycle is subject to both internal and external control
1) External regulators include
a) Presence or absence of essential nutrients
b) Growth factors/hormones from other cells in the body
c) Cell density (density-dependent inhibition)
d) Anchorage to a substrate (Anchorage dependence)

2) Internal regulators are generally regulatory proteins (such as cyclins and kinase
enzymes) that activate or inactivate other proteins within the cell

D) Loss of cell cycle control can result in cancer
1) Cancer is an uncontrolled proliferation of cells

2) Cancers may be caused by any change in cell cycle regulation that
a) abnormally increases the rate, or changes the location, of cell proliferation
b) abnormally decreases the rate of programmed cell death (apoptosis)