Membrane Transport System PDF

Summary

This document provides an overview of membrane transport systems. It explains passive transport mechanisms like diffusion, facilitated diffusion, and osmosis. Active transport and bulk transport (endocytosis and exocytosis) are also discussed.

Full Transcript

Transport Across the Cell
Membrane
Membrane Transport Systems
I. Passive Transport
II. Active Transport
III. Vesicular (Bulk) Transport
 Cell membrane is the boundary between
inside & outside…
– separates cell from its environment

Can it be an impenetrable boundary? NO!

IN OUT
food OUT waste
carbohydrates ammonia
sugars, proteins salts
amino acids CO2
IN
lipids H2O
salts, O2, H2O products

cell needs materials in & products or waste out
 TYPES OF CELLULAR TRANSPORT Weeee!!!

Passive Transport
cell doesn’t use energy high
1. Diffusion
2. Facilitated Diffusion low
3. Osmosis
Active Transport This is
cell uses energy gonna be
hard
- Protein Pumps high
work!!

Vesicular (Bulk) Transport
cell uses energy
low
1. Endocytosis
2. Exocytosis
PASSIVE TRANSPORT
cell uses no energy
molecules move randomly

Molecules spread out from an area of
high concentration to an area of
low concentration.
(HighLow)
 3 TYPES OF PASSIVE TRANSPORT
SIMPLE DIFFUSION

FACILITATED DIFFUSION
– Diffusion with the help of channel proteins and
carrier proteins

OSMOSIS
– Diffusion of water
 Simple Diffusion
random movement of
molecules from an area of
high concentration to an
area of low
concentration.
(High to Low)
Factors that Influence Diffusion Rates
Distance
– The shorter the distance, the faster molecules diffuse
Molecular Size
– Ions and small molecules diffuse more rapidly
Temperature -
– Diffusion is faster at high temperature
Steepness of concentrated gradient -
– The larger the gradient, the faster diffusion proceeds
Membrane surface area -
– The larger the area, the faster diffusion proceed
Diffusion through phospholipid bilayer
What molecules can get through directly?
– fats & other lipids

lipid
 What molecules can NOT
inside cell get through directly?
NH3 salt  polar molecules
 H2O
 ions
 salts, ammonia
 large molecules

sugar aa H2O  starches, proteins
outside cell
 Facilitated Diffusion
A B
diffusion of molecules from
high to low using
concentration transport
proteins found in the cell
Facilitated Diffusion
membrane
diffusion (Lipid
- Transports larger or (Channel Bilayer)
charged molecules Protein)

- 2 kinds:
- Channel proteins
- Carrier proteins
Carrier Protein
 Facilitated Diffusion
Glucose
molecules
Cellular Transport from a
High
High Concentration

Cell Membrane

Protein
Low Concentration Channel
channel Proteins
Low
Transport
Through a 
Go to
Protein
Section:
 Channels through cell membrane
– specific channels allow specific material across
cell membrane

inside cell H2O aa sugar

NH3 salt outside cell
Diffusion Through the Plasma
Membrane

Figure 3.7
 Osmosis
diffusion of water through
a selectively permeable
membrane

Water moves from high to
low concentrations
Water moves freely
through pores.
Solute (green) too large
to move across.
ECF

ICF
 Concentration of water
Direction of osmosis is determined by
comparing total solute concentrations
– Hypertonic solution - more solute, less water
– Hypotonic solution - less solute, more water
– Isotonic solution - equal solute, equal water

water

hypotonic hypertonic

net movement of water
 Managing water balance
Cell survival depends on balancing water
uptake & loss

freshwater balanced saltwater
 Active Transport
cell uses energy (ATP) low

molecules transported by
carrier proteins
molecules move from an
area of low to an area of
high concentration high
ATP

(Low  High)
 Active Transport: Protein Pumps

carrier proteins
that require energy
ATP
to do work
protein changes
shape to move
molecules: this
requires energy!
Active Transport: Protein Pumps
Example:
Sodium /
Potassium
ATP
Pumps hydrolysis
important in phosphorylation

nerve responses.

dephosphorylation
 Types of active transport
Primary active transport
– also called direct active transport
– directly uses ATP to transport molecules across a
membrane
 Types of active transport
Secondary active transport (coupled transport
or co-transport)
– no direct use of ATP
– uses the movement of one solute from high to low
concentration to move another molecule from low
concentration to high concentration (against its
concentration gradient)
Cotransporters can be classified as:
symporters (Symport)
– both molecules are transported in the same
direction.

antiporters (Antiport)
– two ion or solutes are pumped in opposite
directions across a membrane
 Vesicular (bulk) Transport
Moving large molecules into & out of cell
– through vesicles & vacuoles
2 kinds
– Endocytosis: materials are taken inside the cell
phagocytosis = “cellular eating”
pinocytosis = “cellular drinking”

– Exocytosis: materials are secreted outside the cell
 Endocytosis
fuse with lysosome
phagocytosis for digestion

ATP

pinocytosis
non-specific
process
Exocytosis

ATP
Transport summary
simple
diffusion
Lipids, hydrophobic
molecules

facilitated
diffusion
Ions, hydrophilic and
Large molecules

active ATP

transport
Ions, hydrophilic molecules