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Transcript
CELLS
Cells
• basic structural &
functional units
of all living
organisms
Cell Theory
• cell is basic structural & functional unit
of all living organisms
• activity of organisms depends on
individual & collective activities of cells
• biochemical activities dictated by subcellular structures of cells
• continuity of life has cellular basis
– cells are produced by divisions of preexisting
cells
Major Classes
• Prokaryotic
– no nucleus
– DNA in nucleoid
region
– bacteria
• Eukaryotic
– true nucleus
– contains DNA
– all other cells
– plant & animal
Prokaryotes
• surrounded by plasma
membrane
• outside membrane in most is
cell wall
• rigid
• protects cells
• helps maintain shape
• capsule surrounds cell wall for
further protection
• may contain surface
projections-pili
– help adhere to surfaces
• some have very long
projections-flagella
– help move
Eukaryotic
Cells
• plant or animal
• separated from external
environment by
phospholipid or plasma
membrane
• cytoplasm
– stuff between nucleus
& plasma membrane
• consists of 2 parts
• cytosol
– liquid part
• organelles
– intracellular structures
Plant & Animal Cells
• same organelles
• plant cells have several
organelles are not
found in animal cells
• chloroplasts
– covert light energy
into chemical energy
• central vacuoles
– store water &
chemicals
Plasma Membrane
• creates specific
compartments- functional
units-organelles
• regulates exchanges with
environment
• controls what goes in &
goes out
• selectively permeability
– some substances can
cross easily while others
have difficult time
crossing or cannot cross
• crucial to metabolic
functioning
• allows things to happen in
one area without influencing
another area
Cell Membrane
•
•
•
•
•
•
plasma membrane
lipid bilayer
thin
phospholipids
proteins
carbohydrates
Plasma Membrane
• Phospholipids-composed of
2 fatty acids & PO4 group
• produces molecule with
globular, polar head
– water loving-hydrophillic
• and hydrocarbon tail
• straight, non-polar
– hydrophobic- water hating
• head is attracted to water
• tail is repealed
• causes phospholipids to form
a two-layer sheetphospholipid bilayer with
hydrophobic tails facing each
other & hydrophilic polar
heads pointing outward
• interior of bilayer is
hydrophobic
Membrane Structure &
Function
• structure accounts for
membrane’s selective
permeability
• nonpolar, hydrophobic
molecules are soluble
in lipids & pass through
membrane
• polar molecules &
those not soluble in
lipids have more
difficult time passing
Proteins in Plasma Membrane
•
•
•
•
•
plasma membrane described as fluid
mosaic
– not static
– phospholipids move in membrane
– punctuated along its length with proteins
proteins determine which hydrophilic
molecules may pass through
Integral proteins
– form part of membrane structure
– bound to it
Transmembrane proteins
– traverse bilayer
– some form hydrophilic channels through
which ions & molecules can enter or
leave
Peripheral proteins
– loosely associated with membrane
– bind to inner or outer membrane surface
– cell recognition
• recognize other cells as abnormal or
normal
• called receptors
Nucleus & Nucleolus
•
•
Nucleus
– most obvious organelle in
eukaryotic cells
• all eukaryote cells have
nucleus
– typically spherical
– found in center
surrounded by nuclear envelope
– double membrane with large
number of pores
• allows for passage of materials
between nucleus & cytoplasm
•
•
contains genetic information-DNA
contains nucleolus
– makes subunits that comprise
ribosomes
Ribosomes
• made by nucleous
• travel from nucleus to
cytoplasm via nuclear
pores
• synthesize proteins
• most attached to
surface of endoplasmic
reticulum (ER)-rough
ER
• some can be found
floating free in
cytoplasm
Endoplasmic Reticulum
•
•
•
•
•
•
•
•
•
series of interconnected flattened tubular
tunnels continuous with outer membrane of
nucleus
all eukaryotic cells contain ER
responsible for communication within cell
part of endomembrane system
all membranous organelles belong to
system
Rough
– attached ribosomes
– making it appear spotty
– takes in proteins made on ribosomes
so cannot escape into cytoplasm
Smooth
– no attached ribosomeslooks smooth
– not involved in protein synthesis
– = steroid production
contains enzymes required to detoxify wide
variety of organic molecules
storage site for calcium
•
•
•
•
•
•
•
Golgi
Bodies
stacks of flattened,
membranous sacs
associated with ER
Store & modify products
made by ER
one side receives
materials
once material is received it
is chemically modified
once modified it is
transported to sending side
of Golgi from where
finished secretory products
are packaged into transport
vesicles
move to plasma membrane
for export
Lysosomes
• bags of digestive enzymes
surrounded by
membranes
– keeps enzymes out of
cell’s cytoplasm so cell
does not digest itself
• breaks down
macromolecules & other
structures
– digestive function
• fuse with food vacuoles &
digest food
• destroy bacteria
• recycle damaged
organelles
Vacuoles
•
•
•
•
•
membranous sacs
larger than vesicles
part of endomembrane system
variety of function
fresh water protests possess
contractile vacuoles
• plant cells have central
vacuoles
– contribute to plant growth by
absorbing water & causing
cells to expand
• other plant vacuoles
– store organic nutrients
– contain pigments that attract
insects
– have poisons to protect them
from plant eaters
Energy Conversion
Organelles
• Chloroplast
–plant cells
• Mitochondria
–animal &
plant cells
Mitochondria
• power stations
• large, usually sausage
shaped
• sites of cellular respiration
• burn food molecules, in
presence of O2, to release
energy
– aerobic respiration
• harvest energy from sugar &
convert it to ATP
– chemical currency all cells
• found in almost all cells of
body
• number depends on cell’s
energy requirements
Chloroplasts
• site of
photosynthesis in
plants
• light energy from
sun converted into
chemical energy of
sugar & organic
molecules
• contains green
pigment,
chlorophyll
Cilia & Flagella
• Cilia
– shorter & more
numerous than flagella
– move fluids across
surfaces by producing
sweeping movements
• Flagella
– longer
– usually only one per cell
– propel cells via
undulating whip like
movement
• common in structure &
movement mechanism
• consist of core of
microtubules wrapped in
plasma membrane
•
Cilia and flagella
•
•
•
•
•
•
Cytoskeleton
internal framework made of protein
filaments
like bones & muscles of cells
3 types of fibers
Microfilaments
– slender protein strands of actin
– helps cells change shape or
contract
– important in amoeboid movement
Intermediate fibers
– fibrous proteins giving them
ropelike structure
– maintain cell shape & anchor
organelles
Microtubules
– straight, hollow tubes made of
globular proteins-tubulins
– reinforce cell shape
– also responsible for movement of
cilia & flagella
Fill in the Parts of the Typical Cell
Cell Surfaces
• cells must
communicate with
each other
• cell junctions
• connect cells
• allow communication
Plant Cell Connections
• cell walls are multilayered
• between walls is a sticky
polysaccharide
– glues cells together
• cell walls are thick but not
completely isolated from cells
next to them
• channels or plasmodesmata
connect adjacent cells
– form communication system
between cells
• connects cytoplasm of one cell
with its neighbor
• water & small molecules are able
to pass through these channels
Animal Cell Connections
• adjacent cells are connected
with junctions
• Tight junctions
– binds cells closely together
• Anchoring junctions
• Adherens
• Desmosome
– attach cells with fibers
forming sheets of cells
• Gap junctions
– form channels
– allow water & small
molecules to pass
Cell Transport
• lipid bilayers are not permeable to ions such
as K+, Na+, Ca2+,Cl- & HCO3• channels are needed for passage
• two basic ways materials are moved in & out
• Passive transport mechanisms
– require no energy
• Active transport mechanisms
– need energy
– usually in form of ATP
Transport Types
• Diffusion
– from higher to lower concentrations
– gradient is formed
– no energy required
• Facilitated Diffusion
– diffusion using transport protein
– no energy required
• Active Transport
– requires energy (ATP)
• Osmosis
– only water
– diffusion of water across semi-permeable
membrane
Diffusion
•
•
•
•
•
•
•
•
•
passive transport
molecules are in constant movement
due to thermal energy of heat
move from areas of higher to areas of
lower concentration
move randomly
can be made to move directionally
membrane between solution with dye on
one side and no dye on other
dye molecules move to side where less
concentrated
each molecule moves randomlynet
migration is to side with no dye
dye will continue to diffuse until both
sides have same concentration
– point of dynamic equilibrium
•
•
molecules will still move back & forth at
same rate
there will be no change in concentration
of dye on either side of membrane
•
•
•
•
•
•
•
•
Rate of Diffusion
Distance
– shorter distancesfaster diffusion
– takes less time to eliminate
concentration gradient
Size of concentration gradient
– larger concentration gradients proceed
faster than smaller ones
Molecule size
– smaller molecules diffuse faster than
larger ones
Temperatures
– higher ones tend to diffuse substances
faster
Electrical forces
– opposite charges attract; similar ones
are opposed
interior of cell membrane is negative;
negative charges inside cell pulls positively
charged materials into cell
negatively charges ones are repelled
Diffusion through a
Membrane
Facilitated Diffusion
• diffusion across cell
membranes is
selectively permeable
• impermeable to some
substances
• others need a transport
protein
• facilitated diffusion
Osmosis
• diffusion of water through a
selectively permeable membrane
• only refers to water movement
• Semi permeable membrane
• total concentration of dissolved ions
& molecules on either side of
membrane remains same since
membrane is not permeable to
them
• membrane is freely permeable to
water
• whenever there is a solute
concentration gradient
concentration gradient exists for
water as well
• water passes by diffusion from
regions of lower to regions of higher
solute concentration
• water diffuses toward solution with
higher solute concentration or down
concentration gradient for water
Isotonic Solutions
• solutions of equal
solute concentrations
• do not produce
osmotic flow
• movement of water in
= movement of water
out
• volume on both sides
of membrane is
unchanged
Hypotonic Solution
• solutions with
lower
concentrations of
solute
• water will enter by
osmosis
• cell swells
• if continues cell
may rupture
Hypertonic Solution
• concentration
of solutes is
greater
outside cell
than inside
• cell shrinks
Water BalanceOsmoregulation
• to survive cells must have way to
balance excessive water uptake or
loss
• plant & bacterial cells avoid bursting
in hypotonic surroundings by strong
cell walls
• allows turgor to build
• turgor pressure = osmotic
pressureosmosis stops
• fresh water fish-hypotonic
environments use kidneys & gills to
prevent water buildup
• paramecium have contractile
vacuoles to bail out excess water
that continually enters from
hypotonic pond water
Active Transport
• used to move molecules & ions
against concentration gradients
• requires energy usually-ATP
• high energy bonds in ATP are
broken to provide energy
• concentration gradient-not
required
• cell can import or export
regardless of intra- & extracellular concentrations
• allows cells to maintain internal
concentration that is different
from environmental
concentrations
Bulk Movement
• movement of
larger molecules &
large volumes of
fluid
• endocytosis
• exocytosis
•
•
•
•
•
•
•
•
Endocytosis
cell ingestion
requires energy
part of plasma membrane folds inward
forming a pouch
pouch is pinched off from membrane so
that incoming materials are enclosed in a
vesicle
endosome
Pinocytosis
– cell drinking
– ingestion of fluids or small particles
– occurs in almost all cells on a
continuous basis
– not selective
Phagocytosis
– cell eating
– particles are engulfed & packaged into
food vacuoles
– occurs only in specialized cells such
as neutrophils & macrophages
Receptor-mediated endocytosis
– cell selects what to ingest
– cholesterol is taken up by this method
Exocytosis
• reverse of endocytosis
• secretion or removal of
things from a cell
• membrane-bound
vesicles move to cell
surface
• fuse with plasma
membrane
• release contents into
extracellular fluid