Lipids - Biochemistry
Card 1 of 100
Which of the following statements concerning lipids are correct?
Which of the following statements concerning lipids are correct?
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Incorrect answers are corrected below:
Most lipid double bonds are conjugated nonconjugated (typically three carbon atoms apart).
Lipids of the bilayer matrix most commonly move by transverse lateral diffusion (on same side of the membrane).
Proteins and carbohydrates embedded in the bilayer impart transverse symmetry asymmetry to the membrane.
An increase in the number of double bonds increases decreases the melting point of a triacylglyceride.
Incorrect answers are corrected below:
Most lipid double bonds are conjugated nonconjugated (typically three carbon atoms apart).
Lipids of the bilayer matrix most commonly move by transverse lateral diffusion (on same side of the membrane).
Proteins and carbohydrates embedded in the bilayer impart transverse symmetry asymmetry to the membrane.
An increase in the number of double bonds increases decreases the melting point of a triacylglyceride.
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What is the name of the molecule shown above?
What is the name of the molecule shown above?
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A triglyceride has three fatty acids; this molecule has two (represented by the R chains). Phosphaditic acid is the simplest of the diacyl-glycerophospholipids; its phosphate group is bonded to only to the glycerol, and nothing else, which is not the case here. Among the three other choices, all of them accurately describe this molecule as a diacylglyceride phospholipid (hence the prefix phosphatidyl-); the phosphate is attached to serine as a head group, not a choline,
nor ethanolamine, 
.
A triglyceride has three fatty acids; this molecule has two (represented by the R chains). Phosphaditic acid is the simplest of the diacyl-glycerophospholipids; its phosphate group is bonded to only to the glycerol, and nothing else, which is not the case here. Among the three other choices, all of them accurately describe this molecule as a diacylglyceride phospholipid (hence the prefix phosphatidyl-); the phosphate is attached to serine as a head group, not a choline,
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In terms of energy storage, store the most energy per unit weight of any molecule in the human body.
In terms of energy storage, store the most energy per unit weight of any molecule in the human body.
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Lipids are capable of storing the most energy per unit weight of any molecule. The complete oxidation of a fatty acid yields 
, compared to about 
for carbohydrates and proteins.
Lipids are capable of storing the most energy per unit weight of any molecule. The complete oxidation of a fatty acid yields
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Which of the lipids listed below is usually the most abundant phospholipid present in a cell's membrane?
Which of the lipids listed below is usually the most abundant phospholipid present in a cell's membrane?
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Triglycerides and cholesterol are not phospholipids, so they can be eliminated from the answer choices. Phosphatidylinositol and phosphatidylserine are present in cellular membranes, but they are typically less abundant than phosphatidylcholine, which is the correct answer.
Triglycerides and cholesterol are not phospholipids, so they can be eliminated from the answer choices. Phosphatidylinositol and phosphatidylserine are present in cellular membranes, but they are typically less abundant than phosphatidylcholine, which is the correct answer.
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Which of the following is not a correct function of cholesterol?
Which of the following is not a correct function of cholesterol?
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To answer this question, let's go through each of the answer choices to see what cholesterol's functions are.
It turns out that cholesterol is an important component of animal cell membranes. It helps to maintain both the structural integrity of the membrane, as well as its fluidity.
Cholesterol also serves as a precursor for all steroid hormones. In fact, if you look through all the steroid hormones, you'll find that they all have the characteristic 4-ring structure that cholesterol has.
Cholesterol also functions as a precursor for the production of bile salts in the liver. These bile salts are subsequently stored in the gallbladder and, when needed, released into the duodenum of the small intestine to aid in the digestion of lipids.
Cholesterol can deposit into the inner lining of blood vessels, however this is not a normal function of cholesterol. Rather, this is a pathological process that leads to a condition called atherosclerosis. This, in turn, can lead to the hardening of blood vessels, as well as contribute to the formation of blood clots that can impede the flow of blood in that vessel. These clots can also become dislodged and travel throughout the circulatory system, where it can become trapped in other blood vessels. This is a dangerous situation, because it can potentially lead to heart attack or stroke.
To answer this question, let's go through each of the answer choices to see what cholesterol's functions are.
It turns out that cholesterol is an important component of animal cell membranes. It helps to maintain both the structural integrity of the membrane, as well as its fluidity.
Cholesterol also serves as a precursor for all steroid hormones. In fact, if you look through all the steroid hormones, you'll find that they all have the characteristic 4-ring structure that cholesterol has.
Cholesterol also functions as a precursor for the production of bile salts in the liver. These bile salts are subsequently stored in the gallbladder and, when needed, released into the duodenum of the small intestine to aid in the digestion of lipids.
Cholesterol can deposit into the inner lining of blood vessels, however this is not a normal function of cholesterol. Rather, this is a pathological process that leads to a condition called atherosclerosis. This, in turn, can lead to the hardening of blood vessels, as well as contribute to the formation of blood clots that can impede the flow of blood in that vessel. These clots can also become dislodged and travel throughout the circulatory system, where it can become trapped in other blood vessels. This is a dangerous situation, because it can potentially lead to heart attack or stroke.
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The electric potential gradient of an ion across a plasma membrane .
The electric potential gradient of an ion across a plasma membrane .
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For animal cells at rest, the potential difference across plasma membranes is usually somewhere between 
and 
. It is given by the Nernst equation:
Where 
and 
are constant, 
is the ion's charge, 
and 
are the outside and inside concentrations respectively, and 
is the temperature. Therefore, the potential difference decreases as the ion's charge increases, and is not independent of the concentration gradient. It increases -- it does not decrease -- with temperature.
For animal cells at rest, the potential difference across plasma membranes is usually somewhere between
Where
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What does "amphipathic" mean?
What does "amphipathic" mean?
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An "amphipathic" molecule is one that has both hydrophilic and hydrophobic regions. A molecule that can act as both an acid and a base is amphoteric. Stereoisomers are molecules with the same molecular formula, but a different arrangement of atoms in space - an example is D-glucose and L-glucose.
An "amphipathic" molecule is one that has both hydrophilic and hydrophobic regions. A molecule that can act as both an acid and a base is amphoteric. Stereoisomers are molecules with the same molecular formula, but a different arrangement of atoms in space - an example is D-glucose and L-glucose.
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Which group is not present in a phosphatidic acid?
Which group is not present in a phosphatidic acid?
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Phosphatidic acids consist of all of the structures listed, except for choline. Choline is a nitrogen-containing salt with an alcohol group. It is a precursor to the neurotransmitter acetylcholine and some classes of phospholipids including sphingomyelin and phosphatidylcholine.
Phosphatidic acids consist of all of the structures listed, except for choline. Choline is a nitrogen-containing salt with an alcohol group. It is a precursor to the neurotransmitter acetylcholine and some classes of phospholipids including sphingomyelin and phosphatidylcholine.
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Which of these statements is false?
Which of these statements is false?
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Unsaturated fatty acids lead to lower LDL levels ("bad cholesterol") than saturated fatty acids. Thus, unsaturated fatty acids are healthier than saturated fatty acids. Plant oils do contain more unsaturated fatty acids than saturated fatty acids, so they are much healthier than animal fats - also note that cholesterol is largely an animal-derived lipid and is almost exclusively found in animal fats (however some research shows that very low levels of cholesterol may be found in some plant products). Saturated fatty acids also lead to higher LDL levels ("bad cholesterol"), which accelerate heart disease.
Unsaturated fatty acids lead to lower LDL levels ("bad cholesterol") than saturated fatty acids. Thus, unsaturated fatty acids are healthier than saturated fatty acids. Plant oils do contain more unsaturated fatty acids than saturated fatty acids, so they are much healthier than animal fats - also note that cholesterol is largely an animal-derived lipid and is almost exclusively found in animal fats (however some research shows that very low levels of cholesterol may be found in some plant products). Saturated fatty acids also lead to higher LDL levels ("bad cholesterol"), which accelerate heart disease.
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You have a membrane bilayer composed of phospholipids with saturated fatty acid tails. What can you change to increase the fluidity of this membrane without changing temperature?
You have a membrane bilayer composed of phospholipids with saturated fatty acid tails. What can you change to increase the fluidity of this membrane without changing temperature?
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Lipids with saturated tails are able to pack into very close proximity and form a relatively stable and solid bilayer because the fatty acids tails are straight and do not take up a lot of space. Adding cis-double bonds to these tails puts kinks in the them that make it harder for lipids to pack in close proximity. By unsaturating the tails of lipids in a bilayer membrane in this way, you can make that membrane more fluid.
Lipids with saturated tails are able to pack into very close proximity and form a relatively stable and solid bilayer because the fatty acids tails are straight and do not take up a lot of space. Adding cis-double bonds to these tails puts kinks in the them that make it harder for lipids to pack in close proximity. By unsaturating the tails of lipids in a bilayer membrane in this way, you can make that membrane more fluid.
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Which of these vitamins is lipid-soluble?
Which of these vitamins is lipid-soluble?
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Lipid-soluble vitamins are soluble in lipids (fats). These vitamins are absorbed into the body and then stored in body tissues. Water-soluble vitamins, by contrast, are soluble in water and do not store for long periods of time in the body; they are easily eliminated through urine. There are 4 lipid-soluble vitamins. These are vitamins A, D, E, and K. In contrast, thw water-soluble vitamins are B complex and C.
Lipid-soluble vitamins are soluble in lipids (fats). These vitamins are absorbed into the body and then stored in body tissues. Water-soluble vitamins, by contrast, are soluble in water and do not store for long periods of time in the body; they are easily eliminated through urine. There are 4 lipid-soluble vitamins. These are vitamins A, D, E, and K. In contrast, thw water-soluble vitamins are B complex and C.
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Which of the following is not a major type of membrane lipid?
Which of the following is not a major type of membrane lipid?
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Glycolipids, phospholipids, and cholesterol are all major components of membranes. Free fatty acids, however, are not found freely in membranes. Free fatty acids are the tails in phospholipids, sphingolipids and other lipid derivatives, but not cholesterol.
Glycolipids, phospholipids, and cholesterol are all major components of membranes. Free fatty acids, however, are not found freely in membranes. Free fatty acids are the tails in phospholipids, sphingolipids and other lipid derivatives, but not cholesterol.
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Which is not a characteristic of an unsaturated fatty acid?
Which is not a characteristic of an unsaturated fatty acid?
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The key to this question is realizing that unsaturated fatty acids contain one or more double bonds, while saturated fatty acids contain no double bonds. From that information, you can make inferences about most of the other answer choices. Because of the double bonds within an unsaturated fatty acid, there are fewer hydrogens attached to the carbon molecules. Additionally, the double bonds result in a bent/kinked structure. Furthermore, this bent/kinked structure results in a lower boiling point. This structure disrupts packing, and reduces the van der Waals interactions, thus reducing the boiling point. Finally, fatty acids do not contain amino groups, so this is the correct answer.
The key to this question is realizing that unsaturated fatty acids contain one or more double bonds, while saturated fatty acids contain no double bonds. From that information, you can make inferences about most of the other answer choices. Because of the double bonds within an unsaturated fatty acid, there are fewer hydrogens attached to the carbon molecules. Additionally, the double bonds result in a bent/kinked structure. Furthermore, this bent/kinked structure results in a lower boiling point. This structure disrupts packing, and reduces the van der Waals interactions, thus reducing the boiling point. Finally, fatty acids do not contain amino groups, so this is the correct answer.
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Cholesterol has what effect on membrane fluidity at low temperatures?
Cholesterol has what effect on membrane fluidity at low temperatures?
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The amount of cholesterol within a membrane has a unique effect on the fluidity. At low temperatures, it increases fluidity. At high temperatures it decreases fluidity. The best way to remember this is to think of cholesterol as maintaining optimal fluidity in a membrane. With higher temperatures alone, fluidity increases, and cholesterol acts to counter that increase. The opposite is true at low temperatures; fluidity decreases, and cholesterol acts to oppose that decrease.
The amount of cholesterol within a membrane has a unique effect on the fluidity. At low temperatures, it increases fluidity. At high temperatures it decreases fluidity. The best way to remember this is to think of cholesterol as maintaining optimal fluidity in a membrane. With higher temperatures alone, fluidity increases, and cholesterol acts to counter that increase. The opposite is true at low temperatures; fluidity decreases, and cholesterol acts to oppose that decrease.
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Why are lipids insoluble in water?
Why are lipids insoluble in water?
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Lipids are nonpolar substances, meaning that they are hydrophobic ("water-fearing"). Water, meanwhile, is polar. A common statement to remember in biochemistry is "like dissolves like." This means that polar substances will dissolve other polar substances, while nonpolar substances will dissolve other nonpolar substances. Polar and nonpolar substances do not mix; thus, lipids and water cannot mix.
Lipids are nonpolar substances, meaning that they are hydrophobic ("water-fearing"). Water, meanwhile, is polar. A common statement to remember in biochemistry is "like dissolves like." This means that polar substances will dissolve other polar substances, while nonpolar substances will dissolve other nonpolar substances. Polar and nonpolar substances do not mix; thus, lipids and water cannot mix.
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Saponification involves cleavage of what type of bond?
Saponification involves cleavage of what type of bond?
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Saponification is the general term for a chemical reaction between an acid and a base to form a salt. This process can be used to make soap (the salt) if one mixes an oil or fat (the acid) with lye (the base). Triglycerides (triesters) are the main materials that are saponified. We can saponify triglycerides by treating them with a strong base (such as lye), which accelerates cleavage of the ester bond to release the fatty acid and glycerol. Soap can then be precipitated by a salting out process.
Saponification is the general term for a chemical reaction between an acid and a base to form a salt. This process can be used to make soap (the salt) if one mixes an oil or fat (the acid) with lye (the base). Triglycerides (triesters) are the main materials that are saponified. We can saponify triglycerides by treating them with a strong base (such as lye), which accelerates cleavage of the ester bond to release the fatty acid and glycerol. Soap can then be precipitated by a salting out process.
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Which of these are not found in cell membranes?
Which of these are not found in cell membranes?
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Phosphoacylglycerols, glycolipids, and cholesterol are all part of cell membranes. Phosphoacylglycerols and glycolipids are major components of cell membranes. Glycolipids mainly have a communicative role in which they act as markers for cell recognition. They also provide stability for the cell and help form tissues. Cholesterol helps maintain the fluidity of cell membranes, along with securing important proteins in the membrane.
Triacylglycerols, however, are not found in cell membranes. These are triesters formed by esterification of three fatty acids to glycerol. Oils are triacylglycerols that are liquids at room temperature, while fats are triacylglycerols that are solids at room temperature. Triacylglycerols are stored forms of energy for living systems.
Phosphoacylglycerols, glycolipids, and cholesterol are all part of cell membranes. Phosphoacylglycerols and glycolipids are major components of cell membranes. Glycolipids mainly have a communicative role in which they act as markers for cell recognition. They also provide stability for the cell and help form tissues. Cholesterol helps maintain the fluidity of cell membranes, along with securing important proteins in the membrane.
Triacylglycerols, however, are not found in cell membranes. These are triesters formed by esterification of three fatty acids to glycerol. Oils are triacylglycerols that are liquids at room temperature, while fats are triacylglycerols that are solids at room temperature. Triacylglycerols are stored forms of energy for living systems.
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Which of these fatty acids is expected to have the highest melting point?
Which of these fatty acids is expected to have the highest melting point?
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The less double bonds there are (sites of unsaturation) and the more carbons there are in a fatty acid, the higher the melting point for a fatty acid. This is due to the difference in the three-dimensional chemical shape of such fatty acids - saturated fatty acids have linear hydrocarbon chains, which allows them to stack closely together and maximize intermolecular forces within the chains whereas unsaturated fatty acids contain a "kink" in their hydrocarbon chains, which does not allow two unsaturated fatty acids to associate very closely to one another, thereby not maximizing intermolecular forces of attraction between them. This means that the saturated fatty acids require more energy to overcome the higher quantity of intermolecular forces in order for a phase change to occur than do unsaturated fatty acids. Based on this reasoning, the 20:0 fatty acid (which has 20 carbons and zero double bonds) is expected to have the highest melting point.
The less double bonds there are (sites of unsaturation) and the more carbons there are in a fatty acid, the higher the melting point for a fatty acid. This is due to the difference in the three-dimensional chemical shape of such fatty acids - saturated fatty acids have linear hydrocarbon chains, which allows them to stack closely together and maximize intermolecular forces within the chains whereas unsaturated fatty acids contain a "kink" in their hydrocarbon chains, which does not allow two unsaturated fatty acids to associate very closely to one another, thereby not maximizing intermolecular forces of attraction between them. This means that the saturated fatty acids require more energy to overcome the higher quantity of intermolecular forces in order for a phase change to occur than do unsaturated fatty acids. Based on this reasoning, the 20:0 fatty acid (which has 20 carbons and zero double bonds) is expected to have the highest melting point.
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Which of the following can be used to describe fatty acids?
Which of the following can be used to describe fatty acids?
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Fatty acids are composed of a carboxylic acid head and a long carbon chain. The carbon chain is non-polar, while the carboxylic acid head is polar. A molecule with both a polar and non-polar parts is known as amphipathic. The word amphoteric means a molecule that can act as either an acid or a base. Finally, just as a fatty acid has both polar and non-polar ends, those same ends are also hydrophilic and hydrophobic, respectively.
Fatty acids are composed of a carboxylic acid head and a long carbon chain. The carbon chain is non-polar, while the carboxylic acid head is polar. A molecule with both a polar and non-polar parts is known as amphipathic. The word amphoteric means a molecule that can act as either an acid or a base. Finally, just as a fatty acid has both polar and non-polar ends, those same ends are also hydrophilic and hydrophobic, respectively.
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What is an amphipathic molecule?
What is an amphipathic molecule?
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An amphipathic molecule has both polar and nonpolar domains. Long-chain fatty acids are examples of amphipathic molecules.
An amphipathic molecule has both polar and nonpolar domains. Long-chain fatty acids are examples of amphipathic molecules.
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