MCAT Biology : MCAT Biological Sciences

Study concepts, example questions & explanations for MCAT Biology

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Example Questions

Example Question #1 : Musculoskeletal System And Muscle Tissue

What structure marks the separation between two sarcomeres?

Possible Answers:

A-band

M-line

I-band

Z-disc

Correct answer:

Z-disc

Explanation:

Z-discs are the dividing points between sarcomeres. Actin filaments extend from this region and are joined together by several complex protein structures.

The M-line is the middle of the sarcomere, marking the central point of the myosin filaments. The I-band consists of actin filaments that are not overlapped by myosin; this region contains the Z-disc. The A-band marks the length of an entire thick filament (myosin), including the overlap region with actin.

Example Question #4 : Sarcomeres

What protein, present in sarcomeres, is responsible for the passive elasticity of muscle?

Possible Answers:

Collagen

Myosin

Actin

Titin

Correct answer:

Titin

Explanation:

Titin is a massive protein that spans the length of half of a sarcomere (from the Z-disc to the M-line) and allows for the passive elasticity of muscle. It is not directly involved in the process of contraction; that function is performed by actin and myosin.

Collagen proteins play an important role in providing tensile strength and building connective tissue throughout the body, but play only a minor role in the properties of muscle tissue in the extracellular matrix. Collagen is not found in the sarcomere.

Example Question #3 : Sarcomeres

Which of the following changes length during sarcomere contraction?

I. Thick filaments

II. Thin filaments

III. H zone

Possible Answers:

I, II, and III

III only

I and II

I and III

Correct answer:

III only

Explanation:

Recall that during sarcomere contraction, the myosin filaments attach to actin filaments and slide along the actin filaments. By this mechanism, the region of overlap between the fibers is increased and the total sarcomere length shortens. Neither actin, nor myosin actually change length; they simply move in relation to one another.

The H zone refers to the region of myosin at the center of the sarcomere that is not overlapped by actin. When the sarcomere shortens, the region of overlap increases and the H zone decreases.

Example Question #1 : Sarcomeres

Which of the following is true about sarcomeres?

Possible Answers:

The sarcomeres contribute to the striated appearance of smooth muscle cells

Sarcomeres are functional units of skeletal and smooth muscle cells

The A band contains both actin and myosin filaments

Actin filaments are only found in the I band

Correct answer:

The A band contains both actin and myosin filaments

Explanation:

Recall that sarcomeres are functional units of muscles that facilitate muscle contraction. Myosin heads bind to actin filaments and cause the filaments to overlap, shortening the sarcomere and, subsequently, the muscle.

Inside a sarcomere there are several regions. One such region is the I band, which consists of the actin filaments in the region where they are not superimposed by the myosin filaments. This means that the I band consists only of actin filaments; however, actin filaments aren’t exclusive to the I band. They are also found in other regions, such as A band. The A band is the region of the sarcomere that contains the myosin (thick) filaments, regardless of overlap. This means that myosin is exclusive to the A band, but that this region contains both actin and myosin due to overlap.

Sarcomeres are functional units of muscles, but they are only found in skeletal and cardiac muscle cells; smooth muscle cells do not contain sarcomeres. Actin and myosin filaments still cause the contraction seen in smooth muscle, but are not organized into alignment. This means that smooth muscle cells do not contract linearly and can essentially shrink in size during contraction, which can allow for things like constriction around organs and vessels.

Example Question #1 : Sarcomeres

A researcher observes a sarcomere through a microscope. He notices that a single myosin filament is forty micrometers long and that a single actin filament is fifty micrometers long. What can the researcher conclude from this information?

Possible Answers:

The A band is 

The A band is 

The I band is 

The I band is 

Correct answer:

The A band is 

Explanation:

To answer this question you need to understand the structural regions of the sarcomere. The I band, A band, and H zone are regions in a sarcomere that constitute of actin (thin) and myosin (thick) filaments. I band is the region of actin filaments that are not superimposed by myosin filaments. The H zone is the region of myosin filaments that are not superimposed by actin filaments. To calculate the length of the I band, you need the length of the myosin filament, the actin filament, and the H zone. Since we don’t have the length of H zone, we can’t solve for the length of I band. Essentially, without knowing the degree of overlap, we cannot determine the length of un-overlapped actin.

The A band is the region of the sarcomere that consists of the entire length of the myosin filament. The question states that the length of the myosin filaments is  micrometers; therefore, the length of the A band is  micrometers.

Example Question #3 : Muscles And Myocytes

Which of the following is true about the organization of actin filaments and myosin in sarcomeres?

Possible Answers:

Prior to contraction, there is no overlap between actin and myosin

Myosin filaments appear thinner than actin filaments 

The degree of overlap of actin and myosin affects the overall contractile strength

All of these answers

Correct answer:

The degree of overlap of actin and myosin affects the overall contractile strength

Explanation:

The only choice that is actually true is that the degree of overlap of myosin and actin plays a role in contractile strength. If there is little to no overlap, contractile strength is low; however, if there is too much overlap then contractile strength is also low. This trend can be represented in a force-tension curve, which demonstrates that maximum force generation occurs when the sarcomere begins at equilibrium.

In a normal sarcomere there is always a small area of overlap of myosin and actin prior to contraction. Myosin appears thicker than actin, and is considered the "thick filament."

Example Question #11 : Sarcomeres

Which of the following is true of actin and myosin filaments?

Possible Answers:

Some muscle cells do not contain actin, but all muscle cells contain myosin

Troponin, calcium, and tropomyosin interact with the thick filaments

Actin molecules are classified as thin filaments, whereas myosin molecules are classified as thick filaments

Some muscle cells do not contain myosin, but all muscle cells contain actin

Correct answer:

Actin molecules are classified as thin filaments, whereas myosin molecules are classified as thick filaments

Explanation:

Actin and myosin filaments are essential contractile elements found in muscle cells. They are essential because they conduct muscle contraction. A molecule of actin is made up of small microfilaments, which give them a very thin appearance. Myosin is made up of long polypeptide chains that join together to form a thick filament; therefore, actin molecules are classified as thin filaments, whereas myosin molecules are classified as thick filaments.

All muscle cells, regardless of type, contain both actin and myosin filaments. Muscle contraction is not possible without the presence of both contractile elements. Organization of these molecules can vary, as smooth muscle does not contain striations, but the molecules are still responsible for contractile actions. Troponin, calcium, and tropomyosin are all required to initiate the contact between myosin and actin. Calcium binds to troponin, which subsequently removes tropomyosin from actin (thin filaments). None of these interact with myosin, the thick filaments.

Example Question #232 : Mcat Biological Sciences

Duchenne Muscular Dystrophy is an X-linked recessive genetic disorder, resulting in the loss of the dystrophin protein. In healthy muscle, dystrophin localizes to the sarcolemma and helps anchor the muscle fiber to the basal lamina. The loss of this protein results in progressive muscle weakness, and eventually death.

In the muscle fibers, the effects of the disease can be exacerbated by auto-immune interference. Weakness of the sarcolemma leads to damage and tears in the membrane. The body’s immune system recognizes the damage and attempts to repair it. However, since the damage exists as a chronic condition, leukocytes begin to present the damaged protein fragments as antigens, stimulating a targeted attack on the damaged parts of the muscle fiber. The attack causes inflammation, fibrosis, and necrosis, further weakening the muscle.

Studies have shown that despite the severe pathology of the muscle fibers, the innervation of the muscle is unaffected.

A healthy muscle will have the most contractile force when __________.

Possible Answers:

it is shortened, allowing for additional actin-myosin overlap

it is lengthened, allowing for more distance to contract

it is at rest, allowing for the maximum number of cross-bridges

it is shortened, then lengthened. A muscle that has been compressed first helps activate titin

it is lengthened, then shortened. A muscle that has been stretched first will contract more strongly.

Correct answer:

it is at rest, allowing for the maximum number of cross-bridges

Explanation:

When a muscle is shortened, the force decreases as the filaments slide past one another and lose room to form new cross-bridges. When a muscle is lengthened, there is less filament overlap which leads to fewer cross-bridges. Stretching a muscle before contracting it will not affect the force produced, nor will shortening a muscle before lengthening it. Titin is a protein responsible for some of the elastic properties of muscle, but is not involved in force production.

At rest, the muscle has the potential to form the maximum number of cross-bridges, resulting in the maximum amount of force production. For further review, go over the length-tension curve for a muscle fiber.

Example Question #233 : Mcat Biological Sciences

Duchenne Muscular Dystrophy is an X-linked recessive genetic disorder, resulting in the loss of the dystrophin protein. In healthy muscle, dystrophin localizes to the sarcolemma and helps anchor the muscle fiber to the basal lamina. The loss of this protein results in progressive muscle weakness, and eventually death.

In the muscle fibers, the effects of the disease can be exacerbated by auto-immune interference. Weakness of the sarcolemma leads to damage and tears in the membrane. The body’s immune system recognizes the damage and attempts to repair it. However, since the damage exists as a chronic condition, leukocytes begin to present the damaged protein fragments as antigens, stimulating a targeted attack on the damaged parts of the muscle fiber. The attack causes inflammation, fibrosis, and necrosis, further weakening the muscle.

Studies have shown that despite the severe pathology of the muscle fibers, the innervation of the muscle is unaffected.

A muscle fiber is divided into sarcomeres. The region of the sarcomere corresponding to the myosin filament is the __________.

Possible Answers:

A-band

H-band

Z-disc

M-line

I-band

Correct answer:

A-band

Explanation:

A sarcomere is one contractile unit of a muscle fiber, and contains two half-filaments of actin and a full filament of myosin. The ends of the sarcomere are the Z-discs and the center is the center is the M-line (the middle of the myosin filament). The H-band lies between the two half-actin filaments where there is only myosin; however, it does not correspond to the full myosin filament. The I band corresponds to the region where only actin is present and the A-band correspond to the full length of the myosin filament.

Example Question #212 : Biology

During a muscular contraction, which of the following elements maintains constant length?

Possible Answers:

N line

Sarcomere

H zone

A band

I band

Correct answer:

A band

Explanation:

The A band is the only element that remains constant during a muscle contraction. It represents the segment of the sarcomere that contains the length of the thick filament. The H zone refers to the part of the sarcomere where there are only thick filaments, and no superimposing thin filaments. Conversely, the I band refers to the area where there are only thin filaments and no superimposing thick filaments. As filaments overlap, both the H zone and I band will shorten. The N line does not exist in musculoskeletal physiology.

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