They are split into oxygen and hydrogen
They are split into oxygen and hydrogen
hydrogen is pulled of an the the hydrogen ions go through the electron transport chain.
oxygen is released
They are split into oxygen and hydrogen.
the water-splitting enzyme
Starch is an enzyme that converts the glucose into bigger molecules. Starch is proteins and fat.
A single enzyme molecule can act on about 1000 substrate molecules per second.
At 0°C enzyme action is low because the movement of molecules is low. This causes the collision frequency between enzyme and substrate to be low. Increasing the temperature speed up the movement of molecules and thus the collision frequency increases therefore enzyme action increases. Human bio enzymes work best at 37 degrees Celsius. As the temperature raises the shape of the enzyme changes and the enzyme becomes denatured. Temperature above 50 degrees Celsius will denature most human enzymes.
When an active site enters the substrate, the activation level decreases. Allowing the molecules to move rapidly.
photosystem II
the water-splitting enzyme
An enzyme is a protein with a pocket on its surface called an active site. This is where the binding of substrate molecules take place and where chemical reaction happens.
No it is not a hormone or an enzyme. It is a type of molecules
Starch is an enzyme that converts the glucose into bigger molecules. Starch is proteins and fat.
It has 2 ATP molecules.
Enzyme activity is affected by other molecules, temperature, chemical environment (e.g., pH), and the concentration of substrate and enzyme. Activators are molecules that encourage enzyme activity, and inhibitors are enzymes that decrease enzyme activity. Sometimes a cofactor is necessary for the enzyme to work.
an e
ATPynthetatse is an enzyme that rejoins phosphates back to the adenosine in ATP molecules.
The enzyme is RNA polymerase.
A single enzyme molecule can act on about 1000 substrate molecules per second.
Increasing enzyme concentration increases the number of collisions between the enzyme molecules and the substrate molecules. This increases the number of successful collisions and the number of enzyme-substrate complexes. Therefore the reaction rate is increased as well and enzyme activity is promoted.