yes
catabolic
The breakdown of protein initiates in stomach by the action of the stomach acid.
The stomach begins digestion of protein by secreting pepsin and hydrochloric acid to break down protein molecules into peptides. Emulsification of food occurs in the small intestine through the action of bile salts, which help break down fats into smaller droplets for better absorption by enzymes.
The absorbance data correlates to the initial protein concentration in ug ml in one way. It breaks down protein in the stomach by the action of the stomach acid.
Decrease in pH of the stomach will distort the active site of the enzyme pepsin, which affects its action.
They have a catabolic action on substances, breaking them down into metabolites
Every action has an equal opposite reaction unless acted upon by another contributing element to the equation. The stomach contributes caustic acid called bile to break down protein compounds. I think this process is an action that has a reaction.
Ptyalin is an enzyme, which means that it is made up of proteins. When a protein enters the stomach, it is denatured by HCL, which is a kind of acid. This results in the Ptyalin no longer being effective.
Protease enzymes break down protein molecules in protein stains on clothes into smaller fragments, making them easier to lift and remove during the washing process. This enzymatic action helps to break down the chemical bonds between the protein molecules and the fabric, making it easier for the stain to be washed away with water.
As a matter of fact, we can consider both reactions:When amylases (alpha and beta) perform the breakdown of starch during digestion, is considered to be a catalytic reaction.Otherwise, when amylase breaks the glycosidic bond of glycogen, in order to provide glucose molecules to the metabolism, can be considered that carries out an anabolic process.
Is the action of the enzyme illustrated in the video is anabolic or catabolic please checked
The process of digestion, primarily involving enzymes, breaks down food molecules into smaller molecules in the stomach and small intestine. Enzymes play a crucial role in catalyzing reactions that break down proteins, carbohydrates, and fats.