extremely high temperatures can decrease the rate of enzyme action very quickly ,the enzyme becomes deactivated (enzyme does not work)
It can lower the rate of enzyme activity or stop the whole thing completely
Enzymes are the globular proteins which are responsible for altering the rate of reactions inside all organisms - i.e. they are biological catalysts.
Enzymes act as catalysts.They catalyze within cells. Our bodies would not work without these enzymes.
Biological catalysts in organisms are called enzymes.
In humans at least, enzymes are called bio-catalysts.
No, biological species concept is NOT useful for extinct organisms at all, nor organisms that reproduce asexually; it is only useful for organisms that produce sexually.
It can lower the rate of enzyme activity or stop the whole thing completely
These catalysts are called enzymes and exist in living organisms.
Enzymes are the globular proteins which are responsible for altering the rate of reactions inside all organisms - i.e. they are biological catalysts.
Enzymes act as catalysts.They catalyze within cells. Our bodies would not work without these enzymes.
Biological catalysts in organisms are called enzymes.
In humans at least, enzymes are called bio-catalysts.
the organisms in a biological community live and interact with other organisms. they are dependent on one another and their environment.
The main function of enzymes in catabolic and anabolic reactions is to speed up the reactions and are therefore regarded as catalysts. Catabolic refers to break down of molecules while anabolic refers to build up of molecules.
No, biological species concept is NOT useful for extinct organisms at all, nor organisms that reproduce asexually; it is only useful for organisms that produce sexually.
anthrax and botulin toxin.
Biological interactions:Β the effects that the organisms in a community have on one another
Extremophiles are organisms that survive in extremely high temperatures. This type of microbe is extremely adaptable to even the most adverse conditions and manage to thrive wherever they are. The Extremophiles' most common domain is Archaea, but they are also found in numerous other bacteria.