2794099
Beschreibung
Mindmap von emilyrahill, aktualisiert more than 1 year ago
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Erstellt von emilyrahill
vor mehr als 9 Jahre
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Eukaryotic Cells
- Microscopy
- Parts & Functions
- Condenser
- Focuses light
onto the
specimen
- Focuses light
onto the
specimen
- Iris Diaghragm
- controls the
amount of light
entering and
leaving the
sondenser
- controls the
amount of light
entering and
leaving the
sondenser
- Coarse & fine controls
- For focusing
- For focusing
- Objective lens
- provides the first
magnified image
- provides the first
magnified image
- eye piece
- magnifies the
image and presents
it to the viewer
- magnifies the
image and presents
it to the viewer
- resolving power
- its ability to distinguish
between two points that
are close together
- its ability to distinguish
between two points that
are close together
- Condenser
- working out the size of the specimen
- For high power,
one small division
on graticule is
2.5micrometers
- For medium
power, one small
division is
10micrometers
- for low power,
one small
division is 25
micrometers
- For high power,
one small division
on graticule is
2.5micrometers
- electron microsope
- has a much higher
resolving power
- electrons are emitted at the top and
travel through a vacuum in the column
of the microscope. The TEM
(transmission electron microscope)
uses elecrtrogmagnetic lenses to
fu=ocuse the electrons into a very thin
beam.
- there are two types of
electron microscope, TEM
and scanning electron
microscope (SEM). the
electrons pass through a
thin section of the
specimen in a TEM on they
way to the photographic
film. some electrons are
scattered and siapper from
the b.eam depending on
ttheir density. at the
bottom of the un-scattered
electrons hit a flourescent
screen, which gies rise to a
'shadow' image of the
specimen with its different
parts displayed in waried
darkness according to their
density. the images are
called electron micrographs
- they can produce
images with
magnification of up to
500 000
- In SEM's, the electrons
are reflected off the
prepared surface of the
specimen
- has a much higher
resolving power
- Parts & Functions
- Organelles
- all living organisms are
eukaryotes (plant,animal,
fungi and protoctist
kingdoms)
- much larger than
prokaryotes, have less
surface area per volume.
they are
compartmentalized,
containing organelles that
perform specific functions
- they all have a
cell membrane
and a nucleus,
surrounded by
a nuclear
encelope
- The Nucleus and ribosomes
- diameter of 5micrometers.
contains chromatin which is
a threadlike material that
coils into chromosomes just
before cell dicision occurs. it
consists of DNA and protein
- nucleolus is a dark region
of chromatin inside the
nucleus, it is the site
where rRNA joins with
proteins to form
ribosomes
- the nucleus is separated from the
cytoplasm by the nuclear membrane, which
contains pores to permit the passage of
substances
- ribosomes are the site of
protein synthesis in the cell,
they may occur freely or in
groups as polyribosomes
- a series of intracellular membranes
compartmentalise the cell.:
thenucleus, the membranes of the ER
and the golgi apparatus, and several
types of vesicles
- diameter of 5micrometers.
contains chromatin which is
a threadlike material that
coils into chromosomes just
before cell dicision occurs. it
consists of DNA and protein
- Endoplasmic Reticulum
- system of cisternae
(flattened vesicles)
continuous with the outer
membrane if the nuclear
envelope
- the rough ER is studded
with ribosomes on the
cytoplasm side, it is the
site where proteins are
synthesized and enter
the ER interior for
processing and
modification
- the smooth ER is
continuous with rough
ER, but lacks ribosomes,
it is a site of the
manufacture of lipids
and steroids
- system of cisternae
(flattened vesicles)
continuous with the outer
membrane if the nuclear
envelope
- Golgi Apparatus
- consists of a
stack of slightly
curved cisternae
- it receives protein-filled
vesicles that bud from the
rough ER and lipid filled
vesicles from the smooth
ER
- enzymes within the
golgi apparatus
modify the
carbohydrates that
were placed on the
proteins in the ER,
proteins and lipids
are sorted and
packaged
- vesicles formed from the
membrane of the outer face
of the golgi apparatus move
to different locations in a cell,
at the plasma membrane they
discharge their contents as
secretions, a process called
exocytosis
- protein degradation is
essential to the cell to
supply amino acids for
fresh protein synthesis, to
remove excess enzymes,
to remove transcription
factors that are no longer
needed. there are two
major intracellular
devises in which damaged
proteins and broken
down: lysosomes and
proteasomes
- consists of a
stack of slightly
curved cisternae
- Lysosomes
- membrane-bounded vesicles
produced by the golgi apparatus.
they contain powerful digestive
enzymes
- lysosomes deal
primarily with
extracellular proteins,
cell-surface membrane
proteins, the proteins
engulfed by WBC
- macromolecules enter a cell
by vesicle formation;
lysosomes fuse with vesicles
and digest the contents of the
vesicle
- WBC use lysosomes
to digest bacteria
- autodigestion
occurs when
lysosomes digest
parts of cells
- participate in
apoptosis
- membrane-bounded vesicles
produced by the golgi apparatus.
they contain powerful digestive
enzymes
- proteasomes
- Centrioles
- Vacuoles
- Cell Wall
- Secretoy Vesicles
- Microtubules
- Cilia and Flagella
- Chloroplasts
- Mitochondria
- all living organisms are
eukaryotes (plant,animal,
fungi and protoctist
kingdoms)
- Cell Membranes
Medienanhänge
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