Cells functions - Rahway Public Schools
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Transcript Cells functions - Rahway Public Schools
The Cell
AP Biology
Why are cells so small?
Why can’t they be as huge as an hippo?
AP Biology
What limits cell size?
Surface to volume ratio
as cell gets bigger its volume increases
faster than its surface area
smaller objects have greater
ratio of surface area to volume
What cell organelle governs this?
Why is a huge
single-celled
creature not
possible?
AP Biology
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6:1
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Limits to cell size
Metabolic requirements set upper limit
in large cell, cannot move material in &
out of cell fast enough to support life
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What process is this?
CH
NH3
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CHO
O2
CH
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CO2
CO2
CHO
CH
AP Biology
O2
NH3
CHO
O2
CHO
NH3
O2
NH3
CO2
aa
aa
O2
CO2
CH
2005-2006
aa
What’s the solution?
How to get bigger?
Become multi-cellular (cell divides)
But what challenges do you have to solve now?
CO2
CO2
aa
aa
CO2
CHO
NH3
CH
AP Biology
CO2
O2
NH3
aa
aa
CO2
NH3
CO2
CO2
NH3
NH3
CO2
CH
NH3
NH3
CO2
CHO
O2
NH3
CO2
O2
CH
aa
O2
NH3
CHO
CO2
aa
2005-2006
Cell characteristics
All cells:
surrounded by a plasma membrane
have cytosol
semi-fluid substance within the membrane
cytoplasm = cytosol + organelles
contain chromosomes which have
genes in the form of DNA
have ribosomes
tiny “organelles” that make proteins using
instructions contained in genes
AP Biology
Types of cells
Prokaryote
bacteria cells
- no organelles
- organelles
Eukaryote
animal cells
AP Biology
Eukaryote
plant cells
Types of cells
Prokaryotic vs. eukaryotic cells
Prokaryotic cell
DNA in nucleoid
region, without a
membrane
separating it from
rest of cell
Cell wall present in
all (type differs)
AP Biology
Eukaryotic cell
chromosomes in
nucleus, membraneenclosed organelle
Cell walls present in
fungi and plants
only
More complex
Membrane bound
organelles present
The prokaryotic cell is much simpler in structure, lacking a nucleus and
the other
2005-2006
AP Biology
membrane-enclosed
organelles of the eukaryotic cell.
Why organelles?
Specialized structures
specialized functions
mitochondria
cilia or flagella for locomotion
Containers
partition cell into compartments
create different local environments
chloroplast
separate pH, or concentration of materials
distinct & incompatible functions
lysosome & its digestive enzymes
Membranes as sites for chemical reactions
unique combinations of lipids & proteins
embedded enzymes & reaction centers
Golgi
chloroplasts & mitochondria
AP Biology
ER
Cells gotta work to live!
What jobs do cells have to do?
make proteins
proteins control every
cell function
make energy
for daily life
for growth
make more cells
growth
repair
renewal
AP Biology
Building Proteins
Organelles involved
nucleus
ribosomes
endoplasmic reticulum
(ER)
Golgi apparatus
vesicles
The Protein Assembly Line
nucleus
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ribosome
ER
Golgi
apparatus
vesicles
Synthesizing proteins
cisternal
space
polypeptide
signal
sequence
ribosome
ribosome
mRNA
AP Biology
membrane of
endoplasmic reticulum
cytoplasm
Nucleolus
Function
ribosome production
build ribosome subunits from rRNA & proteins
exit through nuclear pores to cytoplasm &
combine to form functional ribosomes
large subunit
small
subunit
AP Biology
rRNA &
proteins
ribosome
nucleolus
Types of Ribosomes
Free ribosomes
suspended in cytosol
synthesize proteins that
function in cytosol
Bound ribosomes
AP Biology
attached to endoplasmic
reticulum
synthesize proteins
for export or
for membranes
membrane proteins
Rough ER function
Finalize protein formation and prepare for export out
of cell (protein folding)
protein secreting cells will have lots
packaged into transport vesicles to golgi
Which cells
have lot of
rough ER?
AP Biology
Golgi Apparatus
Function
finishes, sorts, tags & ships cell products
like “UPS shipping department”
ships products in vesicles
membrane sacs
Which cells
have lots
of Golgi?
AP Biology
“UPS trucks”
secretory
vesicles
transport vesicles
Putting it together…
nucleus
nuclear pore
Making proteins
cell
membrane
protein secreted
rough ER
ribosome
vesicle
proteins
smooth ER
AP Biology
transport
vesicle
cytoplasm
Golgi
apparatus
Smooth ER function
Membrane production
Many metabolic processes
synthesis
synthesize lipids
oils, phospholipids, steroids & sex hormones
hydrolysis
hydrolyze glycogen into glucose
in liver
detoxify drugs & poisons
in liver
ex. alcohol & barbiturates
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Where
old organelles
go to die!
Lysosomes
Function
little “stomach” of the cell
digests macromolecules
“clean up crew” of the cell
cleans up broken down
organelles
Structure
vesicles of digestive
enzymes
synthesized by rER,
transferred
to Golgi
AP Biology
only in
animal cells
Cellular digestion
Lysosomes fuse with food vacuoles
polymers
digested into
monomers
pass to cytosol
to become
nutrients of
cell
vacuole
lyso– = breaking things apart
AP Biology
–some
= body
When cells need to die…
Lysosomes can be used to kill cells when
they are supposed to be destroyed
some cells have to die for proper
development in an organism
apoptosis
“auto-destruct” process
lysosomes break open & kill cell
ex: tadpole tail gets re-absorbed
when it turns into a frog
ex: loss of webbing between your
fingers during fetal development
AP Biology
syndactyly
Fetal development
6 weeks
15 weeks
AP Biology
Making Energy
Cells must convert incoming energy to
forms that they can use for work
mitochondria:
ATP
from glucose to ATP
chloroplasts:
from sunlight to ATP & carbohydrates
ATP = active energy
carbohydrates = stored energy
ATP
AP Biology
+
Mitochondria & Chloroplasts
Important to see the similarities
transform energy
generate ATP
double membranes = 2 membranes
semi-autonomous organelles
move, change shape, divide
AP Biology
internal ribosomes, DNA & enzymes
Mitochondria
Function
cellular respiration
generate ATP
from breakdown of sugars, fats
& other fuels
in the presence of oxygen
break down larger molecules into
smaller to generate energy = catabolism
generate energy in presence of O2 =
aerobic respiration
AP Biology
Mitochondria
Almost all eukaryotic cells have mitochondria
there may be 1 very large mitochondrion or
100s to 1000s of individual mitochondria
number of mitochondria is correlated with
aerobic metabolic activity
more activity = more energy
needed = more mitochondria
What cells would
have a lot of
mitochondria?
active cells:
• muscle cells
AP Biology
• nerve cells
Chloroplasts
Chloroplasts are plant organelles
class of plant structures = plastids
amyloplasts
store starch in roots & tubers
chromoplasts
store pigments for fruits & flowers
chloroplasts
store chlorophyll & function
in photosynthesis
in leaves, other green
structures of plants &
in eukaryotic algae
AP Biology
Chloroplasts
Function
photosynthesis
generate ATP & synthesize sugars
transform solar energy into chemical energy
produce sugars from CO2 & H2O
Semi-autonomous
moving, changing shape & dividing
can reproduce by pinching in two
Who else divides
like that?
AP Biology
bacteria!
Mitochondria & chloroplasts are different
Organelles not part of endomembrane system
Grow & reproduce
semi-autonomous organelles
Proteins primarily from free ribosomes in
cytosol & a few from their own ribosomes
Own circular chromosome
directs synthesis of proteins produced by own
internal ribosomes
ribosomes like bacterial ribosomes
Who else has a circular chromosome not
bound within a nucleus?
bacteria
AP Biology
food vacuoles
Food & water storage
plant cells
central vacuole
animal cells
AP Biology
contractile
vacuole
Vacuoles & vesicles
Function
little “transfer ships”
Food vacuoles
phagocytosis, fuse with lysosomes
Contractile vacuoles
in freshwater protists, pump excess H2O
out of cell
Central vacuoles
in many mature plant cells
AP Biology
Vacuoles in plants
Functions
storage
stockpiling proteins or inorganic ions
depositing metabolic byproducts
storing pigments
storing defensive
compounds against
herbivores
selective membrane
control what comes
in or goes out
AP Biology