Active Transport
lipid bilayer (cell membrane)
the hydrophilic heads are on the inner and outer surface and the hydrophobic tails in the middle
active transport
the movement of materials through a cell membrane using energy
passive transport
the movement of substances across a cell membrane without the use of energy by the cell
Active Transport
the moving of substances across the cell membrane AGAINST the concentration gradient (from low to high) using ENERGY.
isotonic cell environment
water concentration inside the cell is the same as water concentration outside of the cell - no net movement of water occurs
Semi-permeable membrane
A membrane that allows only certain molecules to pass through but does not allow other molecules to pass through
Phospholipid
A molecule that is a constituent of the inner bilayer of biological membranes, having a polar, hydrophilic head and a nonpolar, hydrophobic tail.
Vesicle
A temporary "storage tank"
Phagocytosis
A type of active transport - A type of endocytosis, also known as "cellular eating," this occurs when the cell surrounds a food particle and draws it into the cell. (ENTERS)
Exocytosis
A type of active transport - Process by which a cell releases large amounts of material (Exits)
Endocytosis
A type of active transport - The cell engulfs large molecules and draws them into the cell, allowing them to enter against the concentration gradient (low to high). (ENTERS)
Protein Pump
A type of active transport - a type of cell membrane protein used to move small things against the concentration gradient (against diffusion)
Osmosis
Diffusion of water through a selectively permeable membrane
Diffusion
Movement of molecules from an area of higher concentration to an area of lower concentration.
Homeostasis
The process of maintaining stable conditions inside a cell. For example, the concentration of salts, nutrients, and other substances must be kept within a certain range.
Hydrophobic
Water hating
Hydrophilic
Water loving
hypertonic cell environment
a solution in which there is a higher concentration of water molecules (solvent) inside a cell than outside a cell - there is net water movement out of the cell. Water goes out of cell, causing crenation (shriveling)
hypotonic cell environment
a solution in which there is a higher concentration of water molecules (solvent) outside a cell than inside a cell. Cells without walls will swell and burst (lyse) if excess water is not removed from the cell.
fluid mosaic model
model that describes the arrangement and movement of the molecules that make up a cell membrane
facilitated diffusion
passive transport using carrier proteins
