Unit 6
Literature Review
Investigating the effect of pH on enzyme activity using amylase and starch
What effect does pH have on enzyme activity when it interacts with amylase and starch?
Introduction
Using starch and amylase, numerous research investigations have examined how pH
affects enzyme activity. Numerous topics, including substrate selectivity, structural
alterations, enzymatic kinetics, and applications in diverse domains, have been
examined in these investigations.
Most of the research shows that amylase has an ideal pH range within which it can
function. Departures from this pH range result in reduced enzyme activity. The results of
the investigations have shown how crucial pH is for controlling amylase activity, which in
turn affects starch hydrolysis.
Many studies have been conducted on the structural changes in amylase brought about
by changes in pH. The protonation state of amino acid residues is altered by pH changes,
which has an impact on hydrogen bonding, electrostatic interactions, and the general
conformation of enzymes. These structural changes affect substrate binding and active
site geometry, which in turn affect catalytic activity.
Studies have also investigated how stable amylase is at various pH values. Elevated pH
levels may cause denaturation and decreased activity of enzymes. Maintaining the
functionality of amylase and maximizing its performance in a variety of applications
need an understanding of its pH stability profile.
The effect of the pH investigation shows how by observing the colour change in Iodine
solution when it reacts with starch allows it to be broken down into glucose by amylase.
Testing the reaction between amylase and starch and observing the color change in
iodine solution as an indicator of starch digestion. ( Harris n.d)
This topic involves investigating the effects of pH on the activity of starch and amylase
enzymes. Proteins called enzymes aid in accelerating chemical reactions in living things.
The enzyme amylase converts starch into less complex carbohydrates. The term pH
describes how acidic or basic a solution is. The ideal pH range for each type of enzyme
, varies to maximize activity. This study looks at how pH variations impact the pace at
which starch is broken down to identify the pH range where amylase functions best.
Researchers can ascertain the ideal pH range for amylase activity by adjusting the
reaction mixture's pH and tracking how quickly starch is absorbed. This can help gain a
better understanding of how the pH changes.
It can be used in labs and sometimes in fieldwork.
Main Body
Amylase, like all enzymes, is a functional protein whose activity relies on its unique
three-dimensional structure, known as its conformation. The pH of the environment
plays a critical role in determining this conformation by influencing the protonation
state of specific amino acids within the protein chain. This affects the formation of
intermolecular and intramolecular hydrogen bonds, impacting the enzyme's overall
confirmation. (Quora, n.d)
Enzymes, such as amylase, have a pH range where they function best. Denaturation or
decreased enzyme activity may arise from pH range deviations. The ideal pH range for
amylase is normally between pH 6-7.
By changing an enzyme's structure, pH can have an impact on its activity. The ionic
connections and hydrogen bonds present in the enzyme can be disrupted by pH
fluctuations, resulting in conformational changes and the loss of enzymatic activity.
Enzymes such as amylase can display activity even beyond the widely acknowledged
ideal pH range. Some might contend that while enzyme functionality may be diminished
when compared to the ideal pH range, it may still adapt to varying pH situations.
PH serves as a regulatory mechanism and directly impacts enzyme activity. It is possible
that they will suggest that variations in pH can initiate signaling cascades or activate
enzymes that regulate the activity of amylase or other enzymes involved in the digestion
of starch.
While other parameters, such as temperature, substrate concentration, or the presence
of activators or inhibitors, have stronger or equivalent influences on amylase activity
compared to pH, pH is recognized to play a substantial role in enzyme activity.