17994063
Descrição
Mapa Mental por Savannah Reynolds, atualizado more than 1 year ago
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Criado por Savannah Reynolds
mais de 5 anos atrás
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Cell Transport
- Cell Membrane
- Made of Phospolipids
- Phosphate head- Polar and it attracted to
water (Hydrophilic)
- Two fatty acid tails - nonpolar and
repels water (Hydrophobic)
- Phosphate head- Polar and it attracted to
water (Hydrophilic)
- Proteins
- Identify cell type
- Help substances through
- Recognize and bind to
substances outside cell
- Identify cell type
- Made of Phospolipids
- Cell Transport
- Semi Permeable/Selectively
permeable - only certain substances
can pass through
- The barrier allows only small, non-polar
substances to pass through.
- Concentration
- Amount of substances
- When the concentration
is the same
- The state of the cell is at an equilibrium
- The state of the cell is at an equilibrium
- When the concentration is NOT the same
- A concentration gradient exists
- Results in a movement of molecules from a
place of higher concentration to a place of
lower concentration
- A concentration gradient exists
- Amount of substances
- Two Types
- Passive Transport
- Energy input NOT required
- Energy input NOT required
- Active Transport
- Energy input required
- Energy input required
- Passive Transport
- Semi Permeable/Selectively
permeable - only certain substances
can pass through
- Passive Transport
- Energy is not required
- High to Low concentration
- Down concentration gradient
- High to Low concentration
- 3 Types
- Simple Diffusion
- Small non polar molecules can
easily pass through lipid bilayer
- Examples: In: Oxygen
Out: Carbon dioxide
- Examples: In: Oxygen
Out: Carbon dioxide
- Small non polar molecules can
easily pass through lipid bilayer
- Facilitated
Diffusion
- Particles move with the
help of membrane
proteins
- Particles move with the
help of membrane
proteins
- Osmosis
- Diffusion of water
through a cell membrane
allowing the cell to
maintain water balance
- The direction in which the water
moves depends on the
concentration of the cell
environment
- From high concentration to low
concentration
- From high concentration to low
concentration
- Solutions have 2 parts:
Solvent and Solute
- Solvent: Water
- Solute: sugar,
salt, etc
- Solvent: Water
- Preventing Water Movement
- Hypertonic
- Water moves out if
the solution is
hypertonic
- Has a higher
concentration of
solute than the
cytoplasm
- Cell loses water
and shrinks
- Has a higher
concentration of
solute than the
cytoplasm
- Water moves out if
the solution is
hypertonic
- Hypotonic
- Water moves in
if the solution is
hypotonic
- Has a lower
concentration of
solute than the
cytoplasm
- Cell loses
water and
shrinks
- Has a lower
concentration of
solute than the
cytoplasm
- Water moves in
if the solution is
hypotonic
- Isotonic
- No net change
if the solution
is Isotonic
- Has the same
concentration
- Water moves in and out of
the cell at an equal rate
- Cell is at an
equilibrium and
stays the same
size
- Has the same
concentration
- No net change
if the solution
is Isotonic
- Hypertonic
- Diffusion of water
through a cell membrane
allowing the cell to
maintain water balance
- Simple Diffusion
- Energy is not required
- Active Transport
- Energy is
required
- Need ATP (Adenosine Triphosphate)
- Need ATP (Adenosine Triphosphate)
- Low to high concentration
- Against Concentration gradient
- Against Concentration gradient
- 3 Types
- Ion Pumps
- Carrier proteins
use energy to
move substances
- Sodium -
Potassium pump
prevents Na ions
from building up in
the cell
maintaining
homeostasis
- Moves out 3
sodium and
brings in 2
potassium
- Moves out 3
sodium and
brings in 2
potassium
- Carrier proteins
use energy to
move substances
- Endocytosis
- Into the cell
- Cell membrane forms a pouch
- Pouch closes and
pinches off to form
vesicle inside the cell
- Pouch closes and
pinches off to form
vesicle inside the cell
- Into the cell
- Exocytosis
- Out the cell
- Vesicles inside the cell fuse to the
cell membrane and then release
- Out the cell
- Ion Pumps
- Energy is
required
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