cellular reproduction. describe the debate surrounding spontaneous generation and how redi’s and...
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BIOLOGY CHAPTER 7
Cellular Reproduction
7.1 OBJECTIVES Describe the debate surrounding
spontaneous generation and how Redi’s and Pasteur’s experiments ended that debate.
Sequence the events of the cell cycle in which new body cells are produced.
Analyze the ways in which events of the cell cycle are controlled.
7.1 LIFE FROM LIFE – CELLS FROM CELLS Debating spontaneous generation. Some believed nonliving things could
give rise to living things. Francesco Redi performed an
experiment in 1668 to test this belief.Maggots were thought to be spontaneously
generated from decaying meat.Redi observed maggots turned into flies.He suspected they came from flies
themselves.
LET EXPERIMENT RUN FOR OVER A YEAR.
DEBATING SPONTANEOUS GENERATION In 1675, microorganisms were
discovered. This reopened the debate on
spontaneous generation. In 1864, Louis Pasteur finally developed
an experiment to end the debate. At this time, air was considered to be an
essential ingredient necessary for spontaneous generation.
He conducted experiment in which air was allowed to enter a flask of nutrient broth.
PASTEUR EXPERIMENT:
PASTEUR’S EXPERIMENT: Was the precursor for today’s
pasteurization process. His experiment led to a major biological
theory: Theory of BiogenesisAt the present time and under present
conditions on Earth, all organisms are produced from other organisms.
Fits in well with the cell theory discussed earlier.
REPRODUCTION OF BODY CELLS Cell reproduction occurs when parent
cells divide. Two daughter cells are the result. Contributes to overall growth of an
organism. Also helps repair damaged tissue,
replace cells that are lost from outer surfaces (skin), and helps us to resist disease.
Smaller is better: SA to volume ratio we studied in lab.
THE CELL CYCLE Most cells are in a non-reproducing
phase called interphase. Cell spends most of its life in this stage. Stage length varies with type of cell. Interphase begins when cell
reproduction is completed. Cell carries out normal cell activities
during this phase.
THE CELL CYCLE:
CELL CYCLE: Interphase
G1 – cell growthS – DNA replicatedG2 – preparation for cell division
MitosisProphaseMetaphaseAnaphaseTelophase
PROPHASE Chromatin begins to coil up into
structures known as chromatids. Two identical chromatids are attached at the center in a location called the centromere.
A chromosome is this double stranded structure attached at the centromere.
Spindle also forms during prophase. It is a football-shaped band of fibers that originate from two centrioles.
Centrioles have migrated to opposite ends of the cell.
PROPHASE Nuclear membrane disintegrates as
well:
METAPHASE Chromosomes attach to the spindle
fibers. They then meet in the middle of the cell.
ANAPHASE The chromosomes separate into sister
chromatids again by being pulled apart at the centromere by the spindles.
Chromatids move away from the middle.
TELOPHASE Plasma membranes in animal cells
begin to pinch together. Basically propase in reverse: nuclear
membrane reforms, chromatids relax back into chromatin form, two sets of identical chromatin now located at each end of the cell.
Result of Mitosis: One 2n cell becomes two 2n daughter cells.
TELOPHASE – ANIMAL AND PLANT DIAGRAM Cell plate
CONTROL OF THE CELL CYCLE Cells grow at different rates depending
on needs.Red blood cells and skin cells multiply
rapidly.Some muscle and nerve cells remain in
interphase their whole lives.Liver cells only divide when repairs need to
be made.
UNCONTROLLABLE CELL GROWTH If cells begin to grow rapidly and growth
is not stopped, cancerous areas can occur.
Cancer is an example of uncontrollable cell growth.
Over time, this growth can outcompete vital cells and tissues for nutrients and space.
CELL CYCLE REGULATION One way cells regulate growth is by
coming into contact with other cells. When this occurs, cells stop
reproducing. Controlled by proteins in the cell. As scientists figure out what triggers cell
growth, information could be used to cure cancers, replace damaged tissues, etc.
CELL REPRODUCTION IN PROKARYOTES Have single chromosome (circular). Don’t really have a cell cycle. Reproduce by binary fission.
Chromosome attaches to cell membraneCell elongates.Chromosome is replicated.Cell divides into 2 with 1 chromosome in
each.
7.2 PRODUCTION OF REPRODUCTIVE CELLS Objectives:
Sequence the series of events by which reproductive cells are produced in complex plants and animals.
Analyze the significance of meiosis with respect to adaptation and evolution.
# OF CHROMOSOMES Number of chromosomes varies from
species to species.Humans 46Fruit flies 8Camel 70Porpoise 44Bat 44King Crab 208Soybean 40Pea 14
CHROMOSOME NUMBERS How many chromosomes do your
parents have in their cells? Grandparents?
How does this number remain the same from one generation to the next?
The answer lies in the process of meiosis.
DIPLOID CELLS In the cells of animals, chromosomes
usually come in pairs.
Humans with 46 chromosomes have 23 pairs.
Cells with 2 of each chromosome are said to be diploid (2n) n=number of different pairs.
HOMOLOGUES The two members of each pair are
referred to as homologous chromosomes, or homologues.
The DNA for each homologue carries the information for the same traits, although the exact information may differ.
Example: Eye color: One may carry info for brown eyes and one may carry info for blue eyes.
MEIOSIS RATHER THAN MITOSIS When two parent organisms mate to
produce single cell, the single fertilized egg is called a zygote.
A zygote results from the union of two different kinds of gametes, which are the sex cells (eggs and sperm).
The fusion of the egg and sperm is called fertilization.
Eggs and sperm are haploid (n) cells. They have one set of the chromosome pairs, so they have 23 chromosomes in humans.
MEIOSIS RATHER THAN MITOSIS Fusion of sex cells is sexual
reproduction.
HAPLOID FROM DIPLOID Haploid cells cannot be produced by
mitosis.
Meiosis – the process by which haploid cells are formed from diploid cells.
Not limited to animal cells. Happens in plant cells also. Haploid cells are called spores instead of gametes.
MEIOSIS – NEED TO GET FROM 2N TO N Prophase I Metaphase I Anaphase I Telophase I Prophase II Metaphase II Anaphase II Telophase II
MEOISIS
EXTRA SPACE
MEIOSIS IN FEMALES Interesting differences:
Meiosis I begins before birth, then process stops.
At sexual maturity, several cells continue on with the process.
Usually result is only one egg instead of 4.Why is this an advantage?
VARIATION ADVANTAGE Crossing over provides for genetic
variation. Provides for a better chance at survival
for the species as a whole. The reshuffling of chromosomes and the
genetic information they carry is one of the mechanisms for what is called genetic recombination.
This allows for inheritable variation.
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