Cell Growth and Reproduction - Lehi FFA
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Transcript Cell Growth and Reproduction - Lehi FFA
Cell Growth and
Reproduction
Biology Agriculture
Cell Growth
All cells come in different sizes and
shapes.
Diffusion in fast and effective over short
distances.
It become slow and inefficient over long
distances.
If a cell and a mitochondria 20cm in diameter –
it would take months before it would receive
molecules that entered the cell membrane.
Cell Growth
Surface area-to-volume ratio
Area: the surface included in a set of lines.
Volume: space occupied as measured in
cubic inches.
Ratio: the relationship in quantity, amount, or
size between two or more things.
Cell Growth
Due to the surface area-to-volume ratio
cells divide before they become to large.
DNA is what directs the cell when it is
becoming to large.
Cell Reproduction
Cell division in necessary to form
multi-cellular organisms.
Asexual Reproduction:
Production of offspring from one parent cell.
Sexual Reproduction:
Formation of offspring from the union of two
gamete cells .
Asexual Reproduction
Steps:
Chromosomes duplicate (called
replication)
Both attach to a site located in the cell
They are forced apart.
Cell membrane constricts them till they
separate.
Asexual Reproduction
Some examples include:
Strawberry Runners
Potatoes
Star Fish
Sexual Reproduction
Results from the joining of two highly
specialized cells.
Sperm Cells
Ovum Cells or Egg Cell
Fertilization:
Sperm cell and ovum combine to form a
Zygote.
Chromosomes
Chromatids:
Long strands of DNA.
Chromosomes:
Made of two sister chromatids.
Held together by a centromere
Diploid (2n) Cells
A cell with two of each kind of
chromosomes are called Diploid Cells.
Haploid (n) Cells
A cell with one kind of each chromosome
is called a Haploid cell.
Mitosis
Cells undergo mitosis as they reach their
maximum cell size.
There are four steps in mitosis:
Prophase
Metaphase
Anaphase
Telophase
Mitosis:
Stage 1 – Prophase.
Chromatids coil up into visible
chromosomes.
Nucleus Disappears
Centrioles migrate to the polar ends of
the cell
Spindle Fibers begin to form.
Mitosis:
Stage 2 – Metaphase
Chromosomes become attached to the
spindle fibers by their centromeres.
They are lined up across the center of
the cell.
Mitosis:
Stage 3 – Anaphase
Sister chromatids begin to separate
Chromatids are pulled apart, and
separate from each other.
Mitosis:
Stage 4 – Telophase
New cells prepare for their new
existence.
Chromosomes uncoil and direct
metabolic activity
Spindle Fibers break down
Nucleolus reappears
Double membrane forms between them
Mitosis
Cytokinesis
Animals – Plasma Membrane pinches
in along the equator of the cell.
Mitosis
Cytokinesis
Plants - Cell Plate is laid across the
equator.
Cell walls form around the plate
Results of Mitosis
As a result,
Each daughter cell receives and exact
copy of the chromosomes present in the
parent cell.
They copy their chromosomes during
Interphase.
They become a diploid cell 2n
The process can then start over.
Results of Mitosis
Process that guarantees that genetic
continuity.
The two new cells formed will carry out
the same functions of the parent cell.
They will grow and divide just like the
parent cells.
Results of Mitosis
As a result of cell division we have
groups of cells working together, until
they create and organism, i.e.
Cells
Tissues
Organs
Organs Systems
Organisms
The Cell Cycle
Cell Cycle:
The sequence of growth and division in
the cell.
A cell goes though two periods:
A period of growth
A period of division
The Cell Cycle
Prepare
for cell
division
2 hours
DNA Synthesis
and Replication
10 Hours
INTERPHASE
Rapid Growth and
Metabolic Activity
9 hours
Interphase
The busiest part of the cell cycle
Part I: Cell grows and protein
production is high.
Part II: Cell copies its chromosomes
Part III: Parts manufactured for cell
division.
The Cell Cycle
The cell cycle is controlled by;
Proteins
Enzymes
Area – to – Volume Ratio
Occasionally, cells lose control.
Cancer, malignant growth resulting from
uncontrolled cell division.
Cancer – A mistake in the
cell cycle!
Tumors
Masses of tissue that deprive normal cells of
nutrients.
Cancer is the second leading cause of
death in the United States, exceeded
only by heart disease.
Meiosis
Meiosis forms haploid daughter cells
from diploid parent cells.
Meiosis is divided into two parts;
Meiosis I
Meiosis II
Meiosis I
Synapsis
Homologous Chromosomes line up
next to each other.
Forming a structure called a tetrad.
Meiosis I
Meiosis I is divided into four stages;
Prophase I
Metaphase I
Anaphase I
Telophase I
Meiosis I
Prophase I
Homologous Chromosomes are
formed
Spindle fibers form
Tetrads are visible and have lined up
along the equator.
Meiosis I
Metaphase I
Each tetrad becomes attached to the
spindle fibers
Meiosis I
Anaphase I
Homologous chromosomes are pulled
apart.
One pair goes to the on polar end while
the other goes to the other end.
Meiosis I
Telophase I
Cytokinesis takes place.
The cell divides.
Meiosis I
At the end of Meiosis I;
One chromosome from each parent cell is
present in the daughter cell.
Meiosis I is a reductive division;
Reduce the chromosomes from diploid (2n)
to a haploid (n).
Meiosis II
Each daughter cell produced in
Meiosis I undergoes another
division.
Meiosis II is very similar to Mitosis
except, it is not proceeded by a
replication of the chromosomes.
Meiosis II
There are four stages;
Prophase II
Metaphase II
Anaphase II
Telophase II
Meiosis II
Resulting in;
Four daughter cells
Each daughter cell produced is
haploid.
Each cell has four chromosomes.
One from each of the homologous
pairs of parent cells.
Meiosis II
Prophase II
New spindle fibers form
chromosomes.
around the
Meiosis II
Metaphase II
Chromosomes line up along the
equator.
Attach the centromere to the spindle
fibers
Meiosis II
Anaphase II
The centromere divides and the
chromatids separate.
Each chromatids becomes it on
chromosomes with their own
centromere.
Meiosis II
Telophase II
The nuclear envelope forms
around each set of chromosomes.
Cell undergoes Cytokinesis.
Meiosis – Why?
The result;
Cells used for reproduction
Sperm Cells
Ovum Cells