the amylase degrades the starch
The activity of amylase may be reduced or inhibited if soda is used as a buffer due to the acidic pH of soda, which may denature the enzyme. Enzymes like amylase function optimally within a specific pH range, and deviation from this range can affect their activity.
Nothing special.
it turns red
Heating up starch and amylase can lead to denaturation of the amylase enzyme, causing it to lose its shape and function. This can result in a decreased ability of amylase to break down starch into smaller sugar molecules.
There are three main types of amylase: salivary amylase, pancreatic amylase, and fungal amylase. Salivary amylase is produced in the mouth, while pancreatic amylase is produced in the pancreas. Fungal amylase is produced by fungi and is often used in commercial applications such as in the food industry.
You wouldn't be able to digest starch.
Boiled amylase as you probably figure has been boiled and since all enzymes are protein, their molecular structure is affected by the heating process. In other words, the amylase has become denatured and will not break down the starch and thus, the starch will remain in its present form.
Amylase is an enzyme that is made in the mouth of humans. It is specifically found in saliva and is used in digestion.
When amylase gets too hot, it can denature, meaning its structure and function are altered. This can lead to a loss of enzymatic activity, rendering the amylase ineffective at breaking down starch into simpler sugars. Ultimately, this can impact the efficiency of processes such as digestion or fermentation where amylase is essential.
After the enzyme amylase breaks down a starch molecule, it breaks it into smaller sugar molecules called maltose.
Fungal amylase is used predominately in the baking industry. Bacterial amylase is a water-dispersible blend that breaks down complex carbohydrates into small units.