Principles Of Anatomy And Physiology Chapter 3 (Tortora) Flashcards
chromosome
is a single molecule of DNA associated with several proteins and containing thousands of hereditary units called genes
cytosol
is the fluid portion of the cytoplasm containing water, dissolved solutes and suspended particles
carriers
are integral membrane proteins which selectively move polar molecules or ions from one side of the plasma membrane to the other
ligand
is a specific molecule which binds to a receptor protein within the plasma membrane
glycocalyx
is formed by the glycolipids and glycoproteins at the extracellular fluid side of the plasma membrane forming an extensive sugary coat for cells; this sugary coat has many functions
genes
are the hereditary units which control most aspects of cellular structure and function
transmembrane proteins
Integral proteins which span the entire lipid bilayer and protrude into both the cytosol and the extracellular fluid (amphipathic)
phospholipids
are molecules which make up 75% of membrane lipids; they contain phosphorus at their hydrophilic end and two fatty acids at their hydrophobic end.
amphipathic
molecules which have both polar and nonpolar parts; phospholipids are an example.
glycolipids
are molecules which make up 5% of membrane lipids; they have attached carbohydrate groups and are only found in the part of the bilayer facing the extracellular fluid
cholesterol
is a steriod maolecule which makes up 20% of the membrane lipids: it has the typical four-rings structure of the steriod molecules: it helps stabalize the lipid bilayer
integral proteins
The proteins which extend into or through the lipid bilayer and are firmly embedded in it are
impermeable
means that a structure does NOT permit the passage of substances through it.
linkers
are integral or peripheral protein molecule which anchor proteins in the plasma membranes of neighboring cells to one another or to protein filaments inside or outside the cell
organelles
are small structures found in the cytoplasm which have characteristic shapes and specific functions
hydrophobic
The water-hating, nonpolar part of an amphipathic molecule is said to be
receptors
are integral proteins which are cellular recognition sites; each type of receptor recognizes and binds to a specific type of molecule called a ligand
permeable
means that a structure permits the passage of substances through it.
nucleus
is a large organelle which holds most of a cell's DNA in the form of chromosomes; it is the organelle which controls the functions of the cell
identity markers
are membrane glycoproteins and glycolipids which enable a cell to recognize other cells of the same type during tissue formation or to respond to potentially dangerous foreign cells; the ABO blood type markers are a good example.
glycoproteins
Proteins with carbohydrate groups attached to the end of the protein which protrudes into the extracellular fluid are
peripheral proteins
are proteins which are not firmly embedded in the membrane; they are loosely associated with the polar heads of membrane lipids or with integral proteins at the inner or outer surface of the membrane
membrane fluidity
The property by which most of the plasma membrane lipids and proteins easily rotate and move sideways in their own half of the lipid bilayer;this property allows the membrane to self-seal if torn; proteins seldom flip-flop from one half of the bilayer to the other
enzymes
are either integral or peripheral protein molecules which catalyze specific chemical reactions at the inside or outside surfaces of the plasma membrane of the cell.
ion channels
are integral membrane proteins which form pores or holes in the membrane through which specific ions can move into or out of the cell; most of these are selective for a specific ion
hydrophilic
The water-loving, polar part of an amphipathic molecule is said to be
selectively permeable
means that a structure permits some substances to pass through it but not others; the lipid bilayer is permeable to nonpolar, uncharged molecules but impermeable to ions and large polar molecules.
lipid bilayer
two back-to-back layers made up of three types of lipid molecules, primarily phospholipid
plasma membrane
A cell's flexible selectively-permeable outer surface is its
cytoplasm
all the cellular contents between the plasma membrane and the nucleus.
symporters
are carrier proteins which can move two substances the same direction across the plasma membrane using the concentration gradient of one of the two substances.
hypotonic solution
the solution outside the cell has a lower concentration of solutes than the cytosol inside the cell causing water molecules to enter the cell and rupture it.
secondary active transport
uses energy stored in an ionic concentration gradient to move substances against their concentration gradients.
diffusion
is a passive process in which the random mixing of particles in a solution occurs because of the particles' kinetic energy; both the solute and the solvent particles undergo this process.
primary active transport
is the process in which some solutes, which must enter or leave cells against their concentration gradients, can be moved by use of ATP specifically for energy by the cell.
transport maximum
Once all of the carrier proteins are occupied, the number of solute molecules that can move across the membrane is limited by the..
aquaporins
Integral membrane proteins which serve as water channels are called
concentration gradient
A difference in the concentration of a chemical from one side of the plasma membrane to the other side is called a
facilitated diffusion
is the process by which solutes which are too polar or highly charged can cross the plasma membrane assisted by an integral membrane protein.
tonicity
The measure of a solution's ability to change the volume of cells by altering their water content is .
hemolysis
The process in which cell membranes are ruptured because the solution outside the cell has a lower concentration of solutes than the cytosol inside the cell causing water molecules to enter the cell is called .
channel-mediated facilitated diffusion
is a process in which a solute moves down its concentration gradient through a membrane channel (mostly ion channels) which may be gated or not gated; this process is slower than simple diffusion.
isotonic solution
the concentrations of solutes that cannot cross the plasma membrane are the same on both sides of the membrane.
passive transport
The process by which substances move down their concentration or electrical gradients to cross the plasma membrane using their own kinetic energies is
osmosis
A type of diffusion in which there is a net movement of solvent (usually water) down its concentration gradient through a selectively permeable membrane; this passive process is called .
vesicle
small, spherical sac composed of a lipid bilayer
endocytosis
process that moves materials into a cell in a vesicle formed from the plasma membrane.
transcytosis
process that moves materials across a cell in a vesicle.
crenation
When the solution outside the cell has a higher concentration of solutes than the cytosol inside the cell causing water to move out of the cell and shrinking the cell, the process is called .
primary active transport pumps
are carrier proteins which mediate primary active transport; they use 40% of the ATP produced in a typical body cell.
simple diffusion
is a passive process in which substances move freely through the lipid bilayer without the help of membrane transport proteins.
antiporters
are carrier proteins which can move two substances opposite directions across the plasma membrane using the concentration gradient of one of the two substances.
rates of diffusion
depend on many factors such as steepness of a concentration gradient, temperature, the mass of a diffusing substance, the surface area for diffusion and the diffusion distance.
receptor-mediated endocytosis
is a highly selective process in which cells take up specific ligands.
electrical gradient
A difference in electrical charge between one side of the plasma membrane to the other side is called a/an
sodium-potassium pump
is a very important type of primary active transport pump; all body cells have thousands of them.
exocytosis
process that moves materials out of a cell by fusion of a vesicle with the plasma membrane.
active transport
is the process in which some solutes which must enter or leave cells, moving "uphill" against their concentration gradients, can be moved by use of energy by the cell.
hypertonic solution
the solution outside the cell has a higher concentration of solutes than the cytosol inside the cell causing water to move out of the cell and shrinking or shriveling the cell.
carrier-mediated facilitated diffusion
is a process in which the solute binds to a carrier protein to move down its concentration gradient and the protein changes shape to move the solute into or out of the cell.
phagocytosis
is a form of endocytosis in which the cell engulfs large solid particles such as worn-out cells, whole bacteria or viruses.
pinocytosis
is the process by which tiny droplets of extracellular fluid are taken into a cell; no receptor proteins are involved and all the solutes in the extracellular fluid are brought into the cell.
bulk-phase endocytosis
is the process by which tiny droplets of extracellular fluid are taken into a cell; no receptor proteins are involved and all the solutes in the extracellular fluid are brought into the cell.
phagocyte
Macrophages and neutrophils are the two main types of .
pseudopods
are extensions of the plasma membrane of a phagocyte which are used to surround a solid particle such as a worn-out cell, whole bacterium or virus particle.
phagosome
a vesicle formed by pseudopods to engulf a solid particle.
organelles
are specialized structures within a cell that have characteristic shapes and perform specific functions in cellular growth, maintenance and reproduction.
cytoskeleton
a network of protein filaments which extends throughout the cytosol.
microfilaments
are composed of the protein, actin, and are the thinnest elements of the cytoskeleton; found mostly at the edge of the cell to generate movement and provide mechanical support as in microvilli, they anchor the cytoskeleton to integal proteins in the plasma membrane.
intermediate filaments
are composed of several different proteins and they are thicker than microfilaments; found in parts of the cell subject to mechanical stress, they help stabilize positions of organelles such as the nucleus and help attach cells to one another.
microtubules
are long, unbranched hollow tubes composed mainly of the protein, tubulin; they help determine cell shape and function in movement of organelles and chromosomes during cell division; they also move cilia and flagella.
centrosome
located near the nucleus and it consists of two components: a a pair of centrioles and a pericentriolar material.
pericentriolar material
surrounds the centrioles and contains hundreds of ring-shaped complexes composed of the protein, tubulin; the complexes are the organizing centers for growth of the mitotic spindle.
centrioles
cylindrical structures each of which is composed of 9 clusters of 3 microtubules arranged in a circular pattern; the two centrioles lie at right angles to one another; they are essential for cell division because they organize the mitotic spindle.
tubulin
protein which is found in microtubules.
cilia
numerous, short, hairlike projections that extend from the surfaces of cells and function to move fluids and mucous along the apical surfaces of the cells.
flagella
longer than cilia; their function is to move entire cells; in humans, found only on sperm cells.
ribosomes
sites of protein synthesis; they contain rRNA and consist of 2 subunits which are produced in the nucleolus; some are attached to the outer surface of the rough endoplasmic reticulum; others are free in the cytoplasm.
rough endoplasmic reticulum
a network of memebranes in the form of flattened sacs continuous with the nuclear membrane and studded with ribosomes; it produces secretory proteins, membrane proteins and organelle proteins.
smooth endoplasmic reticulum
extends from the rough endoplasmic reticulum but does not contain ribosomes on its outer surface; it synthesizes fatty acids and steroids, detoxifies drugs, and releases glucose into the blood stream.
Golgi complex
consists of 3 to 20 flattened membranous sacs called cisternae; its function is to modify, sort and package proteins, which it has received from the rough ER, for transport.
cisternae
the flattened membraneous sacs which form the Golgi complex.
transfer vesicles
They bud from the edges of the cisternae of the Golgi complex; they function to move enzymes back toward the entry face of the Golgi complex and to move proteins toward the exit face.
secretory vesicles
They leave the exit face of the Golgi complex carrying proteins which are delivered to the plasma membrane where they undergo exocytosis into the extracellular fluid.
membrane vesicles
They carry processed proteins from the exit face of the Golgi complex to the plasma membrane for incorporation into the plasma membrane itself.
lysosomes
membrane-enclosed vesicles that form from the Golgi complex and contain as many as 60 kinds of powerful digestive and hydrolytic enzymes; they help recycle worn-out cell components or even destroy entire cells.
autophagy
the process by which entire worn-out organelles are digested.
autophagosome
a vesicle formed around a worn-out organelle; this vesicle then fuses with a lysosome which digests the organelle.
autolysis
the process in which entire cells are destroyed due to a pathological condition or after death of an organism.
matrix
the central fluid-filled cavity that lies inside the inner mitochondrial membrane.
cell cycle
an orderly sequence of events by which a somatic cell duplicates its contents and divides into 2 daughter cells.
cristae
the folds in the inner mitochondrial membrane.
anaphase
During this the centromeres split, separating the 2 members of each chromatid pair (now called chromosomes) which then are pulled toward opposite poles of the cell by the spindle microtubules.
mitotic phase
consists of a nuclear division and a cytoplasmic division.
chromatin fiber
consists of coiled nucleosomes which form a larger diameter fiber.
metaphase
During this the spindle microtubules align the chromatid pairs at the exact center of the mitotic spindle.
proteasomes
barrel-shaped structures which use enzymes to destroy unneeded, damaged or faulty proteins in the cytosol; thousand are found in both the cytosol and nucleus.
chromatin
a loosely coiled complex of DNA, proteins called histones and some RNA; it is found in the nucleus.
telophase
begins after the chromosomal movement stops and the chromosomes, now at opposite poles of the cell, uncoil and revert to the chromatin form; the nuclear envelope and nucleoli reappear and the mitotic spindle breaks up.
nuclear membrane
a double membrane that separates the nucleus from the cytoplasm; both layers are bilayers similar to the plasma membrane.
peroxisomes
similar to lysosomes, but smaller; they contain several enzymes which protect cells from harmful or toxic chemicals; they can self-replicate.
mitosis
the distribution of 2 sets of chromosomes into 2 separate nuclei resulting in the exact partitioning of genetic information; also called nuclear division.
mitochondria
the powerhouses of the cell generating most of the ATP used by the cell by aerobic (cellular) respiration; they have a 2 layered membrane; the inner membrane consists of folds which surround a central fluid-filled cavity; they self-replicate and have their own circular DNA.
interphase
During this the cell replicates its DNA, produces additional organelles and cytosolic components in anticipation of cell division; this phase is a time of high metabolic activity and growth.
prophase
the phase in which the chromatin fibers condense and shorten into chromatids which are identical and held together by a centromere; late in this phase, the centrosomes begin the formation of the mitotic spindle; the nucleolus disappears and the nuclear envelope breaks down.
nucleoli
small spherical bodies which are the sites of synthesis of ribosomal RNA and assembly of the rRNA and proteins into the ribosomal subunits.
homologous chromosomes
a pair of chromosomes which contain similar genes arranged in the same (or almost the same) order along the chromosomes.
chromatids
the replicated DNA in nucleosomes which is even more condensed; a pair of these form a chromosome.