The Processes of the Cell - Mr. Obiechefu`s Life Science

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Transcript The Processes of the Cell - Mr. Obiechefu`s Life Science

The Processes
of the Cell
1
What has to happen to your cells in
order to grow from a baby into an
adult?
2
How do we know our cells
are working?
What do you think your
cells must do in order to
stay alive?
Your cells are constantly
working to perform many
activities such as getting
food, removing wastes,
growing, reproducing, and
making new materials
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Your cells work to keep all of these
activities in balance, which is known
as homeostasis.
5
If your cells do not have the
materials necessary to conduct their
activities, they send out various
signals to let the rest of your body
know.
6
Homeostasis is also important because
if your cells are not balanced, chemical
reactions can not occur. This means
that your cells can not perform their job
correctly.
7
How are our cells able to do all of these
activities when they are surrounded by
a barrier, the cell membrane?
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In our previous unit, we
learned that the job of the
cell membrane is to allow
materials in and out of the
cell.
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The cell membrane is semi-permeable.
This means that it can let some
materials pass through while others
can not.
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Since we now know that
materials can and must
move in and out of a cell
in order for it to survive,
let’s discuss the different
ways in which this occurs.
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Some small particles can easily
move in and out of a cell, this
happens through diffusion.
Diffusion is when particles move
from an area where it is crowded
(high concentration) to an area
where it is less crowded (low
concentration)
Examples of Diffusion
 Smell of food, perfume,
air freshener, and other
substances
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Diffusion
http://www.bbc.co.uk/scotland/e
ducation/bitesize/standard/biolo
gy/investigating_cells/cells_and
_diffusion_rev3.shtml
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Osmosis is the diffusion of water.
Water moving from where it is
crowded to where it is less
crowded.
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Examples of Osmosis
 Cooking rice, beans, and
macaroni
 Watering a plant
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Pure water diffuses more
than any other water
mixture because it is more
crowded (has a higher
concentration) than any
other water mixtures.
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In this picture a red blood cell is put
in a glass of distilled water (pure
water with no salt or sugar in it).
Because there is a
higher concentration
of water outside the
cell, water enters the
cell by OSMOSIS.
The cell bursts and
dies
18
Osmosis
http://www.bbc.co.uk/scotland/e
ducation/bitesize/standard/biolo
gy/investigating_cells/cells_and
_diffusion_rev4.shtml
19
If your cell needs a
particle and the particle is
too big to diffuse into the
cell membrane, does your
cell just go without that
particle?
20
Although some particles
are too large to diffuse
into or out of a cell, they
can still get in or out of the
cell membrane.
How?
21
If a particle is too large to naturally go
through a cell membrane, it can enter or
exit in two ways:
 Particles can move in and out of a
cell through protein doorways
 If a particle is still too large to fit
through a protein doorway, it can
be engulfed (eaten) by the cell
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Protein Doorways
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Engulfing
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Particles that have to go
through protein doorways can
enter one of two ways:
Passive transport -particles can
enter easily through the protein
doorway
Active transport -particles
require energy to move through
the protein doorway
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Active transport is different from
passive transport because it
requires energy. Active transport is
necessary to make particles move
against their natural tendency. In
active transport, particles move
from less crowded (low
concentration) to more crowded
(high concentration).
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Active Transport
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Active transport is
important in organs such
as the kidneys when
harmful particles are
made to stay in the organ
when they naturally want
to diffuse
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If a particle is too large to
fit through a protein
doorway, then it can enter
the cell by being engulfed,
endocytosis, or it can be
released from the cell by
exocytosis
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Endocytosis and Exocytosis
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Endocytosis
and
Exocytosis
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Metabolism
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Cells need energy to carry
to do (3) main activities:
live, grow, and reproduce
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- Cells get energy from
food.
- Plant cells make their
own food (autotrophs)
- animal cells must get
their food by eating other
things.
35
- Plant cells make their
own food through the
process of
photosynthesis.
- plant cells take in light
energy and change it into
a food called glucose
(sugar).
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Glucose
Simple form of
sugar/carbohydrates
The basic fuel of the body
Absorbed through villi into
the blood stream, where it
goes as “food” to ALL
body cells
Photosynthesis
Sunlight + Water + Carbon
Dioxide = C6H12O6 (Glucose)
and Oxygen
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Photosynthesis
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- Once food (glucose) is
obtained or made in
animal cells and plant
cells, it must be broken
down to release energy.
- This process is called
cellular respiration.
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Cellular Respiration
C6H12O6 (Glucose) + Oxygen =
Carbon Dioxide, Water, and
Energy (ATP)
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Cellular Respiration
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Photosynthesis and
Cellular Respiration are
the opposite of one
another
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HOMEOSTASIS
Homeostasis
Is the process by which the
organisms keep their internal
conditions relatively
constant despite changes in
external environments
Homeostasis
Is the process by which
the organisms keep
their internal conditions
relatively constant
despite changes in
external environments
Examples
– Sweating
– Shivering
– Osmotic Regulation
Cell Division/Reproduction
Copyright Pearson Prentice Hall
Cell Division
In eukaryotes, cell division
occurs in two major stages.
The first stage, division of the
cell nucleus, is called mitosis.
The second stage, division of
the cell cytoplasm, is called
cytokinesis.
Copyright Pearson Prentice Hall
Chromosomes
Chromosomes
Genetic information is
passed from one generation
to the next on
chromosomes.
Before cell division, each
chromosome is duplicated,
or copied.
Asexual reproduction
(mitosis) requires one
parent to produce an
identical offspring
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Organisms that reproduce
asexually
 Bacteria
 Plants
 Fungi
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Bacteria reproduces
asexually through a
process called binary
fission
Binary Fission Video
55
Cells reproduce by
making more cells
or dividing through
a process called
mitosis (one cell
makes two)
This is a form of
asexual
reproduction.
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Mitosis
The cell process in which the nucleus
divides to form two nuclei identical to each
other, and identical to the original nucleus.
Interactive Mitosis Animation
Mitosis Animated Video
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