3.1 The Cell Membrane
What materials can easily diffuse through the lipid bilayer, and why?
Only materials that are relatively small and nonpolar can easily diffuse through the lipid bilayer. Large particles cannot fit in between the individual phospholipids that are packed together, and polar molecules are repelled by the hydrophobic/nonpolar lipids that line the inside of the bilayer.
Why is receptor-mediated endocytosis said to be more selective than phagocytosis or pinocytosis?
Receptor-mediated endocytosis is more selective because the substances that are brought into the cell are the specific ligands that could bind to the receptors being endocytosed. Phagocytosis or pinocytosis, on the other hand, have no such receptor-ligand specificity, and bring in whatever materials happen to be close to the membrane when it is enveloped.
What do osmosis, diffusion, filtration, and the movement of ions away from like charge all have in common? In what way do they differ?
These four phenomena are similar in the sense that they describe the movement of substances down a particular type of gradient. Osmosis and diffusion involve the movement of water and other substances down their concentration gradients, respectively. Filtration describes the movement of particles down a pressure gradient, and the movement of ions away from like charge describes their movement down their electrical gradient.
sodium-potassium pump
also, Na+/K+ ATP-ase) membrane-embedded protein pump that uses ATP to move Na+ out of a cell and K+ into the cell
Because they are embedded within the membrane, ion channels are examples of ________. a. receptor proteins b. integral proteins c. peripheral proteins d. glycoproteins
b. integral proteins
Choose the answer that best completes the following analogy: Diffusion is to ________ as endocytosis is to ________. a. filtration; phagocytosis b. osmosis; pinocytosis c. solutes; fluid d. gradient; chemical energy
b. osmosis; pinocytosis
Ion pumps and phagocytosis are both examples of ________. a. endocytosis b. passive transport c. active transport d. facilitated diffusion
c. active transport
glycocalyx
coating of sugar molecules that surrounds the cell membrane
The diffusion of substances within a solution tends to move those substances ________ their ________ gradient. a. up; electrical b. up; electrochemical c. down; pressure d. down; concentration
d. down; concentration
amphipathic
describes a molecule that exhibits a difference in polarity between its two ends, resulting in a difference in water solubility
hypertonic
describes a solution concentration that is higher than a reference concentration
hypotonic
describes a solution concentration that is lower than a reference concentration
isotonic
describes a solution concentration that is the same as a reference concentration
hydrophilic
describes a substance or structure attracted to water
hydrophobic
describes a substance or structure repelled by water
concentration gradient
difference in the concentration of a substance between two regions
electrical gradient
difference in the electrical charge (potential) between two regions
facilitated diffusion
diffusion of a substance with the aid of a membrane protein
osmosis
diffusion of water molecules down their concentration gradient across a selectively permeable membrane
pinocytosis
endocytosis of fluid
phagocytosis
endocytosis of large particles
receptor-mediated endocytosis
endocytosis of ligands attached to membrane-bound receptors
exocytosis
export of a substance out of a cell by formation of a membrane-bound vesicle
selective permeability
feature of any barrier that allows certain substances to cross but excludes others
extracellular fluid (ECF)
fluid exterior to cells; includes the interstitial fluid, blood plasma, and fluid found in other reservoirs in the body
intracellular fluid (ICF)
fluid in the cytosol of cells
interstitial fluid (IF)
fluid in the small spaces between cells not contained within blood vessels
passive transport
form of transport across the cell membrane that does not require input of cellular energy
active transport
form of transport across the cell membrane that requires input of cellular energy
single phospholipid molecule
has a phosphate group on one end, called the "head," and two side-by-side chains of fatty acids that make up the lipid tails
endocytosis
import of material into the cell by formation of a membrane-bound vesicle
cell membrane
membrane surrounding all animal cells, composed of a lipid bilayer interspersed with various molecules; also known as plasma membrane
peripheral protein
membrane-associated protein that does not span the width of the lipid bilayer, but is attached peripherally to integral proteins, membrane lipids, or other components of the membrane
integral protein
membrane-associated protein that spans the entire width of the lipid bilayer
vesicle
membrane-bound structure that contains materials within or outside of the cell
channel protein
membrane-spanning protein that has an inner pore which allows the passage of one or more substances
ligand
molecule that binds with specificity to a specific receptor molecule
diffusion
movement of a substance from an area of higher concentration to one of lower concentration
receptor
protein molecule that contains a binding site for another specific molecule (called a ligand)
glycoprotein
protein that has one or more carbohydrates attached
cell recognition proteins
serve to mark a cell's identity so that it can be recognized by other cells
