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How does pH affect plants growth?

becaues the plants will not have room for its root to grow


How does substrate concentration and pH affect enzymes?

Substrate concentration will affect enzymes because substrates are specific to enzymes. The pH will affect enzymes because certain enzymes will work better in certain pH levels.


What two things cause enzymes to malfunction?

Enzymes can malfunction due to changes in pH levels, which can alter their active site structure and affect their ability to catalyze reactions. Additionally, excessive heat can denature enzymes by disrupting their tertiary structure, rendering them nonfunctional.


What do acids and bases do to enzymes?

Acids and bases can denature enzymes by disrupting their shape and changing the active site where substrates bind. This alteration can prevent enzymes from catalyzing reactions effectively. pH changes can also affect the ionization of amino acid side chains, influencing enzyme activity.


How pH levels affect enzymes?

It disrupts an enzymes shape and structure.


What are two things that can affect the enzymes shape?

Salt concentration and the pH! also the temperature and activations and inhibitors affect an enzymes actions


How enzymes affect reactions?

Enzymes lower the activation energy required for reactions to occur


What effect do temperature and pH have on enzyme controlled reactions?

enzyme require an optimum temperature and ph level to be active. temperature at which most enzymes are active is around 35-40 degree celcius. above this temperature the enzyme loses it globular structure and thus the substrate will not be able to bind with it. some enzymes are active in alkali ph while others are active in acidic temperature. but most of the enzymes are active in neutral ph and this helps to maintain its globular structure.


Enzymes are affected by?

There are several factors that affect enzyme itself. 1. Temperature As the shape specificity of the enzyme's active site is vital for any enzyme reaction, therefore an optimal temperature is important for enzymes. Enzymes will be inactive under low temperatures since it has too low kinetic energy to start the reaction or quickens the reaction. Alternatively, enzyme's structure and the shape of active site will changed in high temperature. Eventually, enzymes are denature and never can be used again. 2. pH value As mentioned, the structure of enzyme is highly sensitive to the external environment, therefore pH value of the environment also has an effect on enzymes. Again, the shape of enzymes changed outside the range of pH value that suits particular enzymes. For instance, the optimum pH value for enzymes in stomach is around pH 2 whereas most are pH 7. 3. Presence of inhibitor There are 2 types of inhibitor, one is non-competition inhibitor. These inhibitors will bind to the allosteric site (alternative site) of the enzymes that alters the shape of active site, therefore preventing the substrate from binding the enzymes and having reactions.


How does an inhibitor affect the rate of chemical reaction?

An inhibitor reduces the rate of a chemical reaction by slowing down or preventing the reaction from occurring. It does this by interfering with the active sites of enzymes or by changing the overall reaction pathway, ultimately making it more difficult for the reaction to proceed at its normal rate.


How does pH effect how enzymes function?

pH can affect the function of enzymes by altering the charge on the amino acid residues in the enzyme's active site. Subtle changes in pH can disrupt the hydrogen bonding and electrostatic interactions that are necessary for enzyme-substrate binding and catalysis. Extreme pH values can denature enzymes, resulting in loss of their structure and consequently their function.


How does concentration affect enzymes?

Concentration of substrate can affect enzyme activity by impacting the rate of enzyme-substrate complex formation. At low substrate concentrations, enzyme activity may be limited by the availability of substrate molecules. However, at high substrate concentrations, enzyme activity may become saturated as all enzyme active sites are occupied.