Transcript cells

Cellular World
The Three Domains
Eukarya
Kingdoms:
Animalia
Plantae
Fungi
Protista
Archaea
“Extremophiles”
Prokaryotic:
cells have
no nucleus
Eukaryotic:
cells have
a nucleus
Bacteria
Bacteria
Cyanobacteria
Prokaryotic cells
Bacterial structure
Bacteria have no
nucleus, but do have:
a cell membrane
a cell wall
a capsule
flagellae or cillia
DNA
Escherischia coli
E. coli is a wellknown gut bacteria
that can also cause
infections.
Like all prokaryotes,
it has no nucleus and
no membrane-bound
organelles, but is
highly adaptable.
E. coli
The “hot dog” shape
is a typical
“bacillius” form.
Bacteria can also be
round (“cocci”) or
spiral-shaped
(“spirilli”).
E. coli
In this photo, you can
see the bacterial DNA
coiled up in the center
of the organism.
Bacterial DNA forms
one long loop rather
than strands.
Small loops
(“plasmids”) can be
shared between
bacteria.
Cyanobacteria
These are
photsynthetic
bacteria that gather
in long strands.
Cyanobacteria were
probably the first
photosynthetic
organisms on the
planet.
Eukaryotic cells
Eukarya
Eukaryotic cells, like
this amoeba contain
a nucleus and
membrane-bound
organelles.
The cell’s DNA is
contained inside the
membrane-bound
nucleus.
Eukarya
Paramecium, like Amoeba, is a self-contained,
single-celled eukaryotic organism.
Eukarya
Volvox, a colonial alga, is composed of many singlecelled algae clumped together.
Eukarya
In multi-cellular
Eukarya, cells take
on specialized
functions.
These flat, shortlived cells are from
the inside of
someone’s cheek.
Eukarya
This scanning
electron micrograph
shows human bone
marrow cells.
Proteins on the
surface stick the
cells together and
help the body
identify cells.
Cell Structure
Animal Cell
Plasma Membrane
Nucleus
The nucleus
contains the genetic
material (DNA) of
the cell.
The nucleus directs
cell processes by
transcribing genes
and sending RNA
instructions out to
the rest of the cell.
Nuclear Structure
Nucleus
Nuclei in
onion skin
cells.
Nucleus with
chromosomes
in onion root
tip.
Endoplasmic
Reticulum (ER)
RNA from the
nucleus travels into
the ER.
There the RNA is
“read” and the
instructions are used
to manufacture
proteins.
Golgi Apparatus
The Golgi bodies
package materials
made in the ER.
Vesicles containing
products break off
and float away to
deliver their
contents.
Lysosomes
Lysosomes “eat” up
waste products,
digest them, and
recycle the
molecules.
Lysosomes can also
make a cell “selfdestruct.”
Mitochondria
The mitochondria
are the “power
houses” of the cell.
Mitochondria use
oxygen to extract
energy from
carbon
compounds.
Animal Cell Review
Plant Cell
Plant Cell
The plant cell has everything an animal cell
has except lysosomes.
The plant cell also has a cell wall, large
vacuole, and chloroplasts.
Cell Wall
A plant cell wall is
composed mostly of
cellulose.
Pectin, a sticky fiber,
“glues” plant cells
together.
Lignin, a tough fiber,
is found in wood.
Cell wall
The plant cell wall,
like an animal
skeleton, holds the
organism upright.
Cell walls also
protect cells and
help control
movement of
molecules between
cells.
Vacuole
A large central
vacuole serves as a
storage tank.
The vacuole also
serves some of the
functions of a
lysosome.
Chloroplast
The chloroplast is
the site of
photosynthesis.
Chloroplasts collect
light energy and use
it to manufacture
sugars.
Chloroplast
This electron
micrograph
shows the
multi-layered
structures
inside the
chloroplast.
Chloroplast
Sugars made by photosynthesis are used:
1) for the plant’s own metabolism
2) to make complex carbohydrates and amino acids.
Endosymbiosis Theory
Mitochondria and chloroplasts have
their own DNA that resembles
bacterial DNA, and have bacterialike membranes.
Some scientists now view
mitochondria and chloroplasts as
symbiotic organisms.
Endosymbiosis theory may help
explain how eukaryotic cells
evolved.
Plant cell review
Structure
Determines
Function