c hapter 9 mitosis (cell division) and cell cycle
TRANSCRIPT
CHAPTER 9
MITOSIS (CELL DIVISION) AND CELL CYCLE
ACTIVATOR—KWL CHART MITOSIS
What do you know about mitosis?
What do you want to know about mitosis?
What did I learn today about mitosis?
ACTIVATOR
Name the stages of mitosis in order.
IMPACTS, ISSUES: HENRIETTA’S IMMORTAL CELLS Cancer cells isolated from Henrietta Lacks
established a self-perpetuating lineage of cancer cells
The cell lineage, name HeLa cells, is used in research laboratories across the world
Henrietta Lacks’ contribution is used to research cancer, viral growth, protein synthesis, effects of radiation, and more
Fig. 9-2, p.141
Henrietta’s Immortal Cells
UNDERSTANDING CELL DIVISION “Omnis cellula e cellula”---ALL cells from cells
What instructions are necessary for inheritance?
How are those instructions duplicated for distribution into daughter cells?
By what mechanisms are instructions parceled out to daughter cells?
REPRODUCTION
Parents produce a new generation of cells or multicelled individuals like themselves
Parents must provide daughter cells with hereditary instructions, encoded in DNA, and enough metabolic machinery to start up their own operation
DIVISION MECHANISMS
Eukaryotic organisms
Mitosis(nuclear division) & cytokinesis
(cytoplasm division)
Meiosis—ch 10
Prokaryotic organisms
Prokaryotic fission—replicates only a small,
single, circular chromosome
HUMAN LIFE CYCLE
BOZEMAN VIDEO--MITOSIS
http://www.youtube.com/watch?v=1cVZBV9tD-A
ROLES OF MITOSIS
Multicelled organisms
Growth
Cell replacement
Some protistans, fungi, plants, animals
Asexual reproduction
CELL DIVISION
Individual cells of a human embryo divide, developing from a paddlelike structure into a hand
Fig. 9-10, p.149
Cell Division
CHROMOSOME
A DNA molecule & attached proteins Duplicated in preparation for mitosis
one chromosome (unduplicated)
one chromosome (duplicated)
a One chromosome (unduplicated)
b One chromosome (duplicated)
one chromatid two sister chromatids
one chromatid
Fig. 9-3a, p.142
Stepped Art
Chromosome
STRUCTURE OF CHROMOSOME PAIR
Sister chromatids Centromere locus
ORGANIZATION OF CHROMOSOMES
DNA and proteinsarranged as cylindrical fiber
DNA
histone
one nucleosome
CHROMOSOME NUMBER
Sum total of chromosomes in a cell Somatic cells
Chromosome number is diploid (2n) Two of each type of chromosome
Gametes Chromosome number is haploid (n) One of each chromosome type
THE CELL CYCLE—ALTERNATES BETWEEN M (MITOSIS) PHASE AND INTERPHASE
G1S
G2Mitosis
telophaseanaphasemetaphaseprophase
interphase
Figure 9.5Page 144
INTERPHASE
Usually longest part of the cycle
Nondividing phase
Cell increases in mass (grows & PREPARES
for division)
Number of cytoplasmic components doubles
DNA is duplicated
G1—1st growth phase S– synthesis (DNA replicates) G2– 2nd growth phase; considered by some to
be the first phase of mitosis
MITOSIS
Period of nuclear division Usually followed by cytoplasmic
division(cytokinesis) Four stages:
Prophase
Metaphase
Anaphase
Telophase
CONTROL OF THE CYCLE
Once S begins, the cycle automatically runs
through G2 and mitosis
The cycle has a built-in molecular brake in G1
Cancer involves a loss of control over the
cycle, malfunction of the “brakes”
STOPPING THE CYCLE
Some cells normally stop in interphase
Neurons in human brain
Arrested cells do not divide
Adverse conditions can stop cycle
Nutrient-deprived amoebas get stuck in
interphase
THE SPINDLE APPARATUS
Consists of two distinct sets of microtubules
Each set extends from one of the cell poles
Two sets overlap at spindle equator
Moves chromosomes during mitosis
SPINDLE APPARATUS
one spindle pole
one of the condensed chromosomes
spindle equator
microtubules organized as a spindle apparatus
one spindle pole
MAINTAINING CHROMOSOME NUMBER
mitosis, cytoplasmic divisionchromosome (unduplicated) in daughter cell at interphase
chromosome (unduplicated) in daughter cell at interphase
chromosome (unduplicated) in cell at interphase
same chromosome (duplicated) in interphase prior to mitosis
Fig. 9-6a, p.145
1 2 3 4 5
6 7 8 9 10 11 12
13 14 15 16 17 18
19 20 21 22 XX (or XY)
MAINTAINING CHROMOSOM
E NUMBER
a Two of the chromosomes(unduplicated) in a parent cell at interphase
b The same two hromosomes, nowduplicated, in thatcell at interphase, prior to mitosisc
c Two chromosomes(unduplicated) in the parent cell’s daughtercells, which both startlife in interphase
Fig. 9-6b, p.145
Maintaining Chromosome Number
microtubule ofbipolar spindle
p.145
pole
pole
Maintaining Chromosom
e Number
STAGES OF MITOSIS
Prophase
Metaphase
Anaphase
Telophase
EARLY PROPHASE - MITOSIS BEGINS
Duplicated chromosomes begin to condense and become observable under a microscope;
mitotic spindle
forms
Figure 9.7 Page 146
LATE PROPHASE—AKA PROMETAPHASE
New microtubules are assembled
One centriole pair is moved toward opposite pole of spindle
Nuclear envelope starts to break up
Figure 9.7 Page 146
TRANSITION TO METAPHASE
Spindle formsSpindle
microtubules become attached to the two sister chromatids of each chromosome
Figure 9.7 Page 146
METAPHASE
All chromosomes are lined up at the spindle equator
Chromosomes are maximally condensed
Figure 9.7 Page 147
ANAPHASE
Characterized by MOVEMENT!
Sister chromatids of each chromosome are pulled apart thus elongating the cell
Once separated, each chromatid is a chromosome
Kinetechore vs. nonkinetechore microtubles
Figure 9.7 Page 147
TELOPHASE Chromosomes loosen and
become less distinct Two nuclear membranes
form, one around each set of unduplicated chromosomes
Cytokinesis starts to produce 2 identical daughter cells
Plasmodia—when some slime molds have NO cytokinesis resulting in mulitnucleated masses
Figure 9.7 Page 147
RESULTS OF MITOSIS
Two daughter nuclei Each with same
chromosome number as parent cell
Chromosomes in unduplicated form
Figure 9.7 Page 147
Mitosispair of
centrioles
nuclearenvelop
chromosomes
b EARLY PROPHASE c LATE PROPHASE d TRANSITION TO METAPASE
Mitosis begins. The DNA and its associated proteins have started to condense. The two chromosomes color-coded purple were inherited from the female parent. The other two (blue) are their counterparts., inherited from the male parent.
Chromosomes continue to condense. New microtubules become assembled. They move one of the two pairs of centrioles to the opposite end of the cell. The nuclear envelope starts to break up.
Now microtubules penentrate the nuclear region. Collectively, they form a bipolar spindle apparatus. Many of the spindle microtubules become attatched to the two sister chromatids of each chromosome.
a Cell at InterphaseThe cell
duplicates its DNA, prepares
for nuclear division
Fig. 9-7a, p.146
e METAPHASE f ANAPHASE g TELOPHASE h INTERPHASEAll chromosomes have become lined up at the spindle equator. At this stage of mitosis (and of the cell cycle), they are most tightly condensed
Attachments between the two sister chromatids of each chromosome break. The two are separate chromosomes, which microtubules move to opposite spindle pores.
There are two clusters of chromosomes, which decondense. Patches of new membrane fuse to form a new nuclear envelope. Mitosis is completed.
Now there are two daughter cells. Each is diploid; its nucleus has two of each type of chromosome, just like the parent cell.
microtubule
Fig. 9-7b, p.146
ANIMAL CELL DIVISION—CLEAVAGE FURROW FORMS AT OLD METAPHASE PLATE BY WAY OF AN ACTIN CONTRACTILE RING
1 Mitosis is over, and the spindle is now disassembling.
2 At the former spindle equator, a ring of micro-filaments attached to the plasma membrane contracts.
3 As its diameter shrinks, it pulls the cell surface inward.
4 Contractions continue; the cell is pinched in two.
Fig. 9-8a, p.148
Animal Cell Division—
cell plane forming
1 As mitosis ends, vesicles cluster at the spindle equator. They contain materials for anew primary cell wall.
2 Vesicle membranes fuse. The wall material is sandwiched between two new membranes that lengthen along the plane of a newly forming cell plate.
3 Cellulose is deposited inside the sandwich. In time, these deposits will form two cell walls. Others will form the middle lamella between the walls and cement them together.
4 A cell plate grows at its margins until it fuses with the parent cell plasma membrane. The primary wall of growing plant cells is still thin. New material—cellulose- is deposited on it.
Fig. 9-8b, p.148
Cell Plate Formation
MITOTIC CONTROL
Growth factors—such as needed nutrients
Density-dependent inhibition—overcrowding=less growth
Checkpoint(restriction point)—Ex: cells have a checkpoint in G1 where cell can either go on with cycle or go into G 0 (this is where mature muscle and nerve cells are)
CONTINUED MITOTIC CONTROL
CYCLIN-DEPENDENT KINASES-AKA Cdks enzymes(proteins) which are affected by the
cell cycle regulatory protein cyclin; when these enzymes are active & attached to cyclin, then mitosis can happen)
Ex: MPF (maturation promoting factor)
CELL CYCLE & RELATIVE CYCLIN CONCENTRATION
TUMORS
Sometimes a checkpoint gene mutates and control over cell division is lost.
Cells uncontrollable division forms an abnormal mass called a tumor.
Neoplasms
Fig. 9-12, p.150
Cancer
MALIGNANT VS. BENIGN (SEE P. 151)
Fig. 9-15, p.153
cell at interphase
nucleuscytoplasm
telophase
prophase
anaphase
metaphase