Categorie: Tutti - osmosis - membrane - proteins - transport

da Ellie Wicklund mancano 2 anni

110

Cellular Transport and Membrane

Cells utilize various mechanisms to transport substances across their membranes, ensuring proper function and communication. Membrane channel proteins play a significant role in this process, including aquaporins for water transport and ion-gated channels for ion movement.

Cellular Transport and Membrane

Cellular Transport and Membrane

Functions of Cellular Transport

Can exit, travel through vasculature system, and enter or signal a different cell
stored, modified, to make macromolecules needed to break down and to produce energy
when the metabolism uses molecules in order to transport to the correct location

Channel Proteins

Aquaporins = facilitated transport of water Ion-gated Channels = voltage gated

Bulk Transport, Exocytosis, Endocytosis

Endocytosis
Receptor Mediated Endocytosis = important for cholesterol uptake
Pinocytosis= fluid intake (unicellular, intestinal cells)
Phagocytosis = unicellular, immune cells
Exocytosis
Used by neurons (neurotransmitters release)
Used by secretory cells (insulin release by pancreatic cells)
BOTH EXO and ENDOcytosis use the plasma membrane

Active Transport

Involve carrier proteins and work AGAINST concentration gradient
Secondary = uses indirect source of energy, CO2 transport (symporter or antiporter)
Primary= uses direct source of energy ion pumps important for cell membrane potential
Cotransport (indirectly require ATP)
Require help of a membrane protein to pass

Facilitated Transport

Aided by proteins

Osmosis

FOR WATER ONLY
NO ENERGY NEEDED
Follow concentration gradient (high to low)

Passive Transport

Simple diffusion
Allowed to move freely and will achieve equilibrium
NO ENERGY needed
Follow concentration gradient (from high to low)

Types of Cellular Transport

Passive Transport, Active Transport, Bulk Transport
Can exit, travel through vasculature system, and enter or signal a different cell
Stored, modified to make macromolecules needed to break down and produce energy

Embedded Proteins

Dynamic, aqueous environment, attach site for ECM
Transport, signalization, recognition

What Can Pass?

Varies on size and polarity
A lot of (large) molecules need SPECIFIC TRANSPORTORS to pass membrane (proteins, amino acids, polysaccharides, DNA)
Small polar molecules (H2O, ethanol C2H5OH) CAN SLOWLY PASS
Gasses (O2,CO2,NO2) CAN PASS
Small hydrophobic molecules CAN PASS

Membrane Fluidity

Gradient across the membrane
Composition of endomembrane can change upon the need of the cell
Phospholipids; rotate, move latterly, flip-flop

Membrane Proteins

20-25 hydrophobic amino acids arranged in a alpha helix
Peripheral Proteins

Loosely attached!

found outside and inside surfaces of the membrane (attached to integral protein or phospholipid)

Integral Proteins

proteins inside are hydrophobic proteins exposed to cytoplasm or EXF are hydrophilic

Lipids (40%), Proteins (50%), Carbohydrates (10%)
Consist of 20-25 monosaccharide units
Carbohydrates are alone or attached to proteins (glycoproteins) to lipids (glycolipids)
Important for Immune system

Functions of Membrane

Barrier for most molecules Allows cell to communicate with outside and other cells
Major difference between procaryotes and eukaryotes cells
Cell Envelop= barrier between cell and noncell (role of Phospholipids) which allow communication with extracellular media (role of proteins)
NOT JUST A BAG (controls what goes in and out)