GENERAL BIOLOGY - WEEK 10
Pinocytosis (literally,?)
"cell drinking"
Phagocytosis (literally, ?)
"cell eating"
Primary active transport, which is directly dependent on ?, moves ions across a membrane and creates a difference in charge across that membrane.
ATP
To move substances against a concentration or electrochemical gradient, the cell must utilize energy in the form of ? during active transport.
ATP
? mechanisms require the use of the cell's energy, usually in the form of adenosine triphosphate (ATP).
Active transport
? mechanisms require the use of the cell's energy, usually in the form of?
Active transport, adenosine triphosphate (ATP).
? provide a dramatic example of bulk transport, and the majority of cells in your body don't engulf whole microorganisms.
Macrophages
? refers to the movement of particles (solute) across or through a membranous barrier.
Membrane transport
? is a special case of diffusion.
Osmosis
? is the movement of water across a membrane from an area of low solute concentration to an area of high solute concentration.
Osmosis
? is the simplest method of transport and is dependent upon the concentration gradient, and the size and charge of the solute.
Passive transport
? allows cells to take up large amounts of molecules that are relatively rare (present in low concentrations) in the extracellular fluid.
Receptor-mediated endocytosis
? transport brings sodium ions into the cell, and as sodium ion concentrations build outside the plasma membrane, an electrochemical gradient is created.
Secondary active
?, which is directly related to the osmolarity of a solution, affects osmosis by determining the direction of water flow.
Tonicity
Both ? and ? are used in secondary active transport.
antiporters and symporters
Cells need ? transport mechanisms, in which large particles (or large quantities of smaller particles) are moved across the cell membrane.
bulk
These mechanisms allow cells to obtain nutrients from the environment, selectively "grab" certain particles out of the extracellular fluid, or release signaling molecules to communicate with neighbors
bulk transport
These mechanisms involve enclosing the substances to be transported in their own small globes of membrane, which can then bud from or fuse with the membrane to move the substance across
bulk transport
kinds of transport proteins?
carrier and channel protein
This protein binds a substance and, in doing so, triggers a change of its own shape, moving the bound molecule from the outside of the cell to its interior
carrier proteins
coated pits- This name comes from a layer of proteins, called ?, that are found on the ?
coat proteins, cytoplasmic side of the pit.
The receptors, which are transmembrane proteins, cluster in regions of the plasma membrane known as ?
coated pits.
A ? exists that would allow these materials to diffuse into the cell without expending cellular energy.
concentration gradient
Is a process of passive transport in which molecules move from an area of higher concentration to one of lower concentration.
diffusion
Secondary active transport brings sodium ions into the cell, and as sodium ion concentrations build outside the plasma membrane, an ? is created.
electrochemical gradient
To move substances against a concentration or ?, the cell must utilize energy in the form of ATP during active transport.
electrochemical gradient
types of bulk trasnport
endocytosis, exocytosis
A single substance tends to move from an area of high concentration to an area of low concentration until the concentration is ? across a space.
equal
In passive transport, small uncharged solute particles diffuse across the membrane until both sides of the membrane have reached an ? that is similar in concentration.
equilibrium
Cells also need to release other molecules, such as signaling proteins and waste products, to the outside environment.
exocytosis
Proteins can change shape when their ? bonds are affected, but this may not fully explain this mechanism.
hydrogen
Because the cell has a relatively higher concentration of water, water will leave the cell, and the cell will shrink.
hypertonic
As for a ? solution, the prefix ?- refers to the extracellular fluid having a higher osmolarity than the cell's cytoplasm
hypertonic, hyper
types of tonicity?
hypertonic, hypotonic, isotonic solution
?- means that the extracellular fluid has a lower concentration of solutes, or a lower osmolarity, than the cell cytoplasm.
hypo,
In a ? situation, the extracellular fluid has lower osmolarity than the fluid inside the cell, and water enters the cell.
hypotonic solution
The ? involved in facilitated transport are collectively referred to as transport proteins
integral proteins
Channel proteins have hydrophilic domains exposed to the ? and ?; they additionally have a ? through their core that provides a hydrated opening through the membrane layers.
intracellular and extracellular fluids, hydrophilic channel
In an ? solution, the extracellular fluid has the same osmolarity as the cell.
isotonic
no net movement
isotonic
types of passive transport?
osmosis, diffusion, facilitated diffusion
In ?, small uncharged solute particles diffuse across the membrane until both sides of the membrane have reached an equilibrium that is similar in concentration.
passive transport
form of endocytosis in which large particles, such as cells or cellular debris, are transported into the cell.
phagocytosis
types of endocytosis
phagocytosis, pinocytosis, receptor-mediated endocytocis
Form of endocytosis in which a cell takes in small amounts of extracellular fluid.
pinocytosis
The ? that functions with the active transport of sodium and potassium allows secondary active transport to occur.
primary active transport
types of active trasnport?
primary active transport, secondary active transport, bulk trasnport
Form of endocytosis in which receptor proteins on the cell surface are used to capture a specific target molecule.
receptor-mediated endocytosis
In ?, a molecule is moved down its electrochemical gradient as another is moved up its concentration gradient.
secondary active transport
While ? consumes ATP to generate the gradient down which a molecule is moved, the energy is not directly used to move the molecule across the membrane.
secondary active transport
A method of transport in which the electrochemical potential difference created by pumping ions out of the cell is used to transport molecules across a membrane.
secondary active trasnport
The primary active transport that functions with the active transport of ? allows secondary active transport to occur.
sodium and potassium,
The receptors, which are?, cluster in regions of the plasma membrane known as coated pits.
transmembrane proteins
in both cases, transport proteins are ?
transmembrane proteins.
The integral proteins involved in facilitated transport are collectively referred to as ?
transport proteins
facilitated transport is aka?
Also called facilitated diffusion.
? are channel proteins that allow water to pass through the membrane at a very high rate.
Aquaporins
? are specific for the substance that is being transported.
Channels
? (? = internal, ? = transport mechanism) is a general term for the various types of active transport that move particles into a cell by enclosing them in a vesicle made out of plasma membrane.
Endocytosis, endo, cytosis
? (exo = ?, cytosis = ?) is a form of bulk transport in which materials are transported from the inside to the outside of the cell in membrane-bound vesicles that fuse with the plasma membrane.
Exocytosis , external, transport mechanism
? diffusion is a process by which molecules are transported across the plasma membrane with the help of membrane proteins
Facilitated
