Nokea
A lack of functioning salivary amylase would prevent an individual from being able to digest lactose
- A. TRUE
- B. FALSE
Correct Answer: B
Rationale: Salivary amylase digests starches, not lactose. Lactose digestion occurs in the small intestine via lactase.
You may also like to solve these questions
Salivary amylase and pancreatic amylase are enzymes responsible for the chemical breakdown of
- A. starch
- B. maltose
- C. glucose
- D. lactose
Correct Answer: A
Rationale: Amylase enzymes break down starch into simpler sugars such as maltose during digestion.
Starch is digested to maltose by the enzyme amylase. According to the 'lock and key' hypothesis, which is the 'key' and which is the 'lock'?
- A. key: amylase, lock: starch
- B. key: starch, lock: amylase
- C. key: maltose, lock: amylase
- D. key: amylase, lock: maltose
Correct Answer: A
Rationale: In the lock and key model, the enzyme (amylase) is the key that specifically binds to the substrate (starch), acting as the lock.
Which of the following statements best describes the migrating motor complex (MMC)?
- A. It is responsible for the peristaltic movement of food along the entire gastrointestinal tract
- B. It is a cyclic pattern of motility that primarily occurs during the postprandial (after-meal) period
- C. It involves segmental contractions that aid in the mixing and breakdown of food particles
- D. It occurs during fasting and clears residual contents from the stomach and small intestine
Correct Answer: D
Rationale: The MMC is a fasting-state motility pattern that clears residual contents, regulated by motilin, not active postprandially.
The contraction and expansion of the walls of food pipe is called movement.
- A. Peristalsis
- B. Gastric
- C. Oscillatory
- D. Diastolic
Correct Answer: A
Rationale: Peristalsis is a type of wave-like movement occurring in the alimentary canal which involves contraction and relaxation of the muscles. It begins in the esophagus and helps to move the food along the alimentary canal for the process of digestion.
Which process matches the definition: Circular muscles behind a bolus of food contract and longitudinal muscles relax, thus pushing a bolus of food onwards?
- A. Segmentation
- B. Peristalsis
- C. Emesis
- D. Deglutition
Correct Answer: B
Rationale: Peristalsis involves coordinated muscle contractions to push food forward.