Write the function of any two digestive enzymes.
Answers
Explanation:
Enzymes are globular proteins that control biological reactions.
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Digestive enzymes.
Digestive juices and enzymes Substance digested Product formed
Pancreatic juice Proteases (trypsin) Lipases Amylase Proteins Fats emulsified by bile Starch Peptides and amino acids Fatty acids and glycerol Maltose
NAMING AND CLASSIFICATION OF ENZYMES=
There are 2 systems used for naming enzymes:
The suffix ‘-ase’ is used with the root name of the substance being acted upon, for example, when sucrose (sugar) is digested, it is acted upon by an enzyme called sucrase.
The type of chemical reaction involved as the enzyme functions, for example, when sucrase acts on sucrose, it breaks it into a molecule of glucose and a molecule of fructose. This reaction involves adding a water molecule to break a chemical bond and so the enzyme is a hydrolase. All digestive enzymes belong to this hydrolase class.
Enzymes are classified according to the type of chemical reaction catalysed. All digestive enzymes are hydrolases, whereas most of the enzymes involved in energy release for muscular contraction are oxidation-reduction enzymes such as oxidases, hydrogenases and dehydrogenases.
CHEMICAL STRUCTURE OF ENZYMES=
Enzymes are large protein molecules, all of which have their own specific 3D shape. Embedded within the shape is a region known as the ‘active site’, which can attract other suitably shaped molecules to bind to the site. The analogy that is often used to describe this mechanism is that of a key fitting into a lock. The enzyme serves as the lock and the attracted molecule (called the substrate) is the key.
Once the chemical reaction within this lock and key arrangement has been completed, the products are released and the enzyme is free to attract another substrate molecule.
The rate of reaction for such a process is thousands of substrate molecules per minute. If a solution of sugar is left in a sealed container, it breaks down into glucose and fructose extremely slowly. In the presence of a small amount of the enzyme sucrase, the rate of breakdown is millions of times faster.
Sometimes, chemical substances other than substrates can bind with the active sites of enzymes, blocking their normal function. For example, water-soluble compounds of arsenic and mercury are extremely poisonous because they can permanently bind to some enzyme systems, markedly reducing their efficiency. Depending on the dose, the end result could be death.
DIGESTIVE ENZYMES=
Digestive enzymes all belong to the hydrolase class, and their action is one of splitting up large food molecules into their ‘building block’ components. Another unique property is that they are extracellular enzymes that mix with food as it passes through the gut. The majority of other enzymes function within the cytoplasm of the cell.
The chemical digestion of food is dependent on a whole range of hydrolase enzymes produced by the cells lining the gut as well as associated organs such as the pancreas. The end goal is to break large food molecules into very much smaller ‘building block’ units. These can then be readily and rapidly absorbed through the gut wall and into the bloodstream for transport to the liver and from there to other parts of the body.
The main enzyme-producing structures of the human digestive system are the salivary glands, stomach, pancreas, liver and small intestine.
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