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Example Questions
Example Question #1 : Identifying Disaccharides
Which of the following substances are found in fructose?
Galactose
None of these are found in fructose
Glucose
Lactose
None of these are found in fructose
Fructose is a monosaccharide; therefore, it is only made up of one type of carbohydrate. Disaccharides are made up of two types of monosaccharides. For example, lactose is made up of galactose and glucose whereas sucrose is made up of glucose and fructose. Polysaccharides are made up of multiple units of monosaccaharides.
Example Question #1 : Identifying Disaccharides
Lactose intolerance is a very common disorder, which involves a decrease in the function of the enzyme lactase. Which of the following should be avoided in a patient with lactose intolerance?
Galactose
Both should be avoided
Glucose
Neither needs to be avoided
Neither needs to be avoided
Lactose is a disaccharide that needs to be broken down to its monosaccharide components in the gut (so that it can be absorbed). Lactose is made up of galactose and glucose monosaccharide units. An enzyme called lactase, found on the intestinal walls, is used to break down lactose to galactose and glucose. A person with lactose intolerance lacks lactase and, therefore, cannot break down lactose to its components. This leads to malabsorption of lactose. However, there is no problem with galactose and glucose absorption. This means that a patient with lactose intolerance can still digest galactose and glucose if given separately.
Example Question #1 : Identifying Disaccharides
Hypoglycemia is a disorder that signifies low levels of glucose in the blood. In some cases of hypoglycemia, glucose levels can be brought back to normal via consumption of sugars. What sugar(s) can be administered to a patient with hypoglycemia?
I. Lactose
II. Galactose
III. Sucrose
I and II
I only
II only
I and III
I and III
As the question states, hypoglycemia is characterized by low levels of glucose in the blood. To bring the glucose levels back to normal, one can ingest foods that contain high amounts of glucose. To solve this question we need to decide which of the stated options can be broken down to glucose. Lactose is a disaccharide that is made up of glucose and galactose. An enzyme, called lactase, breaks down lactose to its components, which can then be absorbed by the intestinal cells; therefore, ingesting glucose will increase glucose levels in the blood. Similarly, sucrose is a disaccharide made up of fructose and glucose; therefore, ingesting sucrose will also increase glucose levels in the blood.
Galactose is a monosaccharide and, therefore, cannot be broken down to any further. It is absorbed as galactose by the intestinal cells. This will not increase the concentration of glucose in the blood.
Example Question #4 : Identifying Disaccharides
Which reducing sugar(s) is/are formed from two glucose molecules connected by a 1 to 4 linkage?
Lactose
Maltose
More than one of these
Sucrose
Cellobiose
More than one of these
Maltose, made from the breakdown of starch, contains a 1 to 4 alpha linkage, and cellobiose, made from the breakdown of cellulose, contains a 1 to 4 beta linkage. Both are disaccharides with different shapes and different properties.
Example Question #5 : Identifying Disaccharides
Which of the following sugars is composed of glucose and galactose?
Maltose
Lactose
Sucrose
Xylose
Fructose
Lactose
To answer this question, we'll need to have some background information on each of the sugars shown in the answer choices.
A glycosidic bond between glucose and galactose will produce the disaccharide lactose, which is thus the correct answer.
Sucrose is a disaccharide composed of glucose and fructose. Maltose is also a disaccharide composed of two glucose molecules. Moreover, fructose and xylose are monosaccharides.
Example Question #51 : Identifying Monomers And Dimers
Whichof the following is formed from hypoxanthine attached to ribose?
Inosine
Pseudouridine
Guanosine
Dihydrouridine
Inosine
The minor base (modified base) inosine is essential for translation and commonly found in tRNA wobble base pairing.
Example Question #1 : Help With Organic Lipids
What is the name of the pictured fatty acid?
Oleic acid
Palmitoleic acid
Eicosapentaenoic acid
Arachidonic acid
Linoleic acid
Arachidonic acid
The pictured structure represents arachidonic acid due to the 20-carbon carboxylic acid chain with characteristic unsaturated (double) bonds after carbons 5, 8, 11, and 14.
Example Question #2 : Help With Organic Lipids
Identify the common name of the fatty acid shown here.
Arachidonic acid
Palmitic ccid
Oleic acid
Linoleic acid
Myristic acid
Oleic acid
Oleic acid is a fatty acid consisting of 18 carbon molecules and a single unsaturated (double) bond after carbon 9, as pictured.
Example Question #1 : Identifying Specific Lipid Structures
What hormone does this structure represent?
Cholesterol
Testosterone
Estrogen
Progesterone
Luteinizing hormone
Cholesterol
The structure represents cholesterol. The hydroxyl group attached to the terminal cyclohexane and the 6-carbon chain on the opposite end are easily recognizable substituents.
Example Question #3 : Identifying Specific Lipid Structures
Organic peanut butter contains both saturated and unsaturated fats.
What is the difference between saturated and unsaturated fats?
Unsaturated fats do not contain cholesterol and saturated fats do
Unsaturated fats contain double bonds and saturated fat do not
Unsaturated fats are lipids and saturated fats are carbohydrates
Unsaturated fats do not contain glycogen and saturated fats do
Unsaturated fats contain double bonds and saturated fat do not
Unsaturated fats are said do be unsaturated because of their lack of saturation with hydrogen atoms, due to carbon's ability to make four bonds, and one or more carbons in the hydrocarbon tail of an unsaturated fatty acid contains a double bond to another carbon. Both unsaturated and saturated fats are lipids, but neither contain cholesterol nor glycogen.
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