Conclusions
How does Claire’s diagnosis explain why 1 mL of liquid from her small intestine digested protein slowly but 1 mg of her pure protease digested protein normally?
Answers
Answer:
The small intestine is the major site of protein digestion by proteases (enzymes that cleave proteins). The pancreas secretes a number of proteases as zymogens into the duodenum where they must be activated before they can cleave peptide bonds1. This activation occurs through an activation cascade. A cascade is a series of reactions in which one step activates the next in a sequence that results in an amplification of the response. An example of a cascade is shown below.
Figure 3.431 An example of a cascade, with one event leading to many more events
In this example, A activates B, B activates C, D, and E, C activates F and G, D activates H and I, and E activates K and L. Cascades also help to serve as control points for certain process. In the protease cascade, the activation of B is really important because it starts the cascade.
The protease/colipase activation scheme starts with the enzyme enteropeptidase (secreted from the intestinal brush border) that converts trypsinogen to trypsin. Trypsin can activate all the proteases (including itself) and colipase (involved in fat digestion)1 as shown in the 2 figures below.
Figure 3.433 The protease/colipase activation cascade
The products of the action of the proteases on proteins are dipeptides, tripeptides, and individual amino acids, as shown below.
Figure 3.434 Products of pancreatic proteases
At the brush border, much like disaccharidases, there are peptidases that cleave some peptides down to amino acids. Not all peptides are cleaved to individual amino acid, because small peptides can be taken up into the enterocyte, thus, the peptides do not need to be completely broken down to individual amino acids. Thus the end products of protein digestion are primarily dipeptides and tripeptides, along with individual amino acids1.
Explanation:
Answer:
The liquid in her small intestine digested protein slowly because the slow enzyme production in this organ restricts the number of enzymes there are to break down meaning there will be a longer needed time for the 1mL of liquid to break down. The 1mL of pure protease digested protein normally because there was not substrate mutation, allowing the enzyme to carry out its function properly.
Explanation:
this may be wrong but it is what i think