All GRE Subject Test: Biology Resources
Example Questions
Example Question #1 : Cell Membrane And Cell Wall
Which of the following conditions would result in a more fluid membrane?
Fully saturated fatty acid tails
Fatty acid tails with double bonds
Long fatty acid tails
A membrane in cold temperatures
Fatty acid tails with double bonds
There are many factors that determine the fluidity of cell membranes. Membranes that are composed of fully saturated, long fatty acid tails are generally less fluid then the opposite conditions. In addition, lower temperatures result in a less fluid membrane.
Membranes that have fatty acid tails with double bonds are more fluid because the double bonds make it difficult for multiple phospholipids to float next to one another. The shape of the double bond adds a another dimension to the lipid, preventing the tails from packing together. Unsaturated fatty acids are thus more fluid than saturated fatty acids.
Example Question #2 : Cell Membrane And Cell Wall
Which of the following factors would you expect to see in a cell membrane for an animal living in a very hot environment?
Reduced integral proteins
More unsaturated fatty acid tails
Longer fatty acid tails
Reduced presence of cholesterol
Longer fatty acid tails
In higher temperatures, the cell membrane is going to become increasingly fluid due to the increased movement of the phospholipids. The cell membrane can control its fluidity in high temperatures by both increasing the saturated fatty acid tail content of the phospholipids, as well as making the fatty acid tails longer. Cholesterol can also help by acting as a buffer at high temperatures.
Example Question #1 : Understanding The Cell Wall
What polymer is commonly found in the cell walls of fungi?
Peptidoglycan
Cellulose
Glycogen
Chitin
Chitin
Although cell walls often serve very similar functions for different species, the composition of the cell walls can vary significantly. Plant cell walls employ cellulose, while bacteria use peptidoglycan. Fungal cell walls use the polymer chitin.
Example Question #1 : Cell Membrane And Cell Wall
In bacteria, what is the polymer that makes up the cell wall?
Peptidoglycan
Chitin
Cellulose
Starch
Glycogen
Peptidoglycan
The correct answer is peptidoglycan. Cellulose composes the cell walls of plants, whereas chitin composes the cell walls of fungi. Starch and glycogen are stored polymers of glucose in plants and animals, respectively.
Example Question #2 : Cell Membrane And Cell Wall
Which statement correctly describes a Gram-positive bacterial cell?
Stains red in the acid-fast stain
Contains a periplasmic space
Contains no outer membrane outside of the peptidoglycan layer
Stains red in the Gram stain
Has a very thin peptidoglycan layer
Contains no outer membrane outside of the peptidoglycan layer
A Gram-positive cell has the following basic structural characteristics: stains dark purple in the Gram stain, has a thick peptidoglycan layer, and possesses no outer membrane beyond this layer. Thus, there is also no periplasmic space. Acid-fast stains are only used for specific bacteria that have waxy cell walls.
Example Question #1 : Understanding Membrane Proteins
Leucine is a hydrophobic amino acid. In which of the following portions of a transmembrane protein would a leucine residue most likely be located?
Cytosolic face
Leucine would not be found in a transmembrane protein
Membrane-spanning region
Exoplasmic face
Membrane-spanning region
Because leucine is a hydrophobic amino acid, it would make sense that it would be most stable in a hydrophobic environment. The interior of the phospholipid bilayer is a hydrophobic environment; therefore, leucine and other hydrophobic amino acids are more commonly found in the membrane-spanning portions of transmembrane proteins.
Polar and hydrophilic amino acids are most commonly found in the cytosolic and exoplasmic regions of the membrane, as these regions interact with the aqueous environment outside of the membrane.
Example Question #1 : Cell Membrane And Organelles
A researcher finds a large amount of an unusual sugar in the cells of a recently discovered species. Which of the following are potential mechanisms the cell is using to import the sugar?
I. Passive diffusion
II. Receptor-mediated endocytosis
III. Symport
I and II
III only
II and III
I, II, and III
II and III
Because the molecule is a sugar, it is too large to passively diffuse across the plasma membrane and contains polar regions that would make this impossible.
There are several other mechanisms by which the sugar could enter the cell. One of these is receptor-mediated endocytosis. In this process the sugar would bind to receptors on the plasma membrane, which stimulates a budding event and eventually leads to the formation of a vesicle inside the cell.
Symport is another potential mechanism. In symport, the import of a molecule is coupled with the import of another molecule through the same transmembrane protein. For example, glucose has a symport mechanism with sodium ions.
Example Question #5 : Cell Membrane And Cell Wall
What type membrane protein changes its shape when allowing substances to cross the membrane?
Glycoproteins
Channel proteins
Carrier proteins
Kinases
Carrier proteins
Of the given choices, only channel and carrier proteins allow substances to cross the membrane. While channel proteins create an open pore through which substances can cross, carrier proteins will change their shape in order to allow substances to cross the membrane.
Example Question #1 : Cell Membrane And Organelles
Which of the following is a function of membranes?
All of these are membrane functions
Separating the internal and external environments
Selectively controlling import and export of nutrients
Housing proteins used in important metabolic pathways
All of these are membrane functions
The question asks about membranes in general, not just the cell plasma membrane; therefore, all of the answers are true. The plasma membrane's most important functions are protecting the internal environment of the cell and selectively allowing nutrients into the cytoplasm (semi-permeability). The final answer describes a function of the inner-membrane of the mitochondria, which houses the electron transport chain.
Example Question #2 : Cell Membrane And Cell Wall
Name the type of transport that requires an expenditure of energy in order to move a compound across the membrane.
Active transport
Facilitated diffusion
Osmosis
Diffusion
Active transport
Energy is not necessary when a compound is being moved down its electrochemical gradient. Diffusion, facilitated diffusion, and osmosis all involve a compound moving from a higher to a lower concentration. Since this is the spontaneous direction of flow, no energy input is required.
In order to move a compound against its electrochemical gradient, energy is needed. This type of transport is called active transport.