The enzyme 'denatures'
The iron in Earth's inner core is in a solid state and is commonly referred to as "solid iron." It is under extreme pressure and temperature conditions, which keep it in a solid form despite its high temperature.
controlled variables
The layer that insulates the body from extreme temperature changes in the external environment is the subcutaneous fat layer. It acts as a thermal insulator by helping to regulate body temperature and protect against heat loss in cold conditions.
Proteins that act as biological catalyst are called enzymes.
In general, increased temperature will increase the activity of an enzyme. However, this is a general trend. For one thing, eventually, if you increase temperature enough you will reach a point at which the protein which makes up the enzyme will begin to denature (unfold). When this happens, the enzyme can no longer be active. Almost all enzymes have an "optimal" temperature. For example, most human derived enzymes will function best at around 37C (body temperature) but this is not always true. Temperature can have other effects as well. Enzymes perform their work on what is called a substrate. The substrate may also be affected by temperature. For example, there is an enzyme commonly used in molecular biology called ligase. Ligase joins to pieces of DNA together. Obviously the natural temperature for ligase to operate in humans is 37C, but in the lab, when we use ligase we often perform the reaction at a much lower temperature (14-16C). The reason for this is that at higher temperatures, the double stranded DNA starts to melt (separate into single strands) which makes it more difficult for ligase to work. At lower temperatures, the DNA stays double stranded making it easier for ligase to work.
Danze16
It is called a exteremophile.
Danze16
The iron in Earth's inner core is in a solid state and is commonly referred to as "solid iron." It is under extreme pressure and temperature conditions, which keep it in a solid form despite its high temperature.
controlled variables
The layer that insulates the body from extreme temperature changes in the external environment is the subcutaneous fat layer. It acts as a thermal insulator by helping to regulate body temperature and protect against heat loss in cold conditions.
Practically everywhere on Earth, even certain hot springs that reach over 80 degrees Celsius in temperature as they have specially adapted enzymes (e.g. Taq Polymerase) that do not denature at this temperature.
the high or low temperature at a very high range is called extreme climate
Temperature can affect peroxidase enzymes by influencing their activity level. Generally, increasing temperature can initially enhance enzyme activity up to a point, called the optimal temperature. Beyond the optimal temperature, the enzyme may denature and lose its functionality.
Diamonds are made through a process called high pressure high temperature (HPHT) or chemical vapor deposition (CVD) where carbon atoms are arranged in a specific crystal structure under extreme conditions.
It's called Denaturing. This results in unfolding and inactivated their three dimensional structure is altered, but their primary structure remains intact. Proteins vary greatly especially under high temperatures.
Proteins that act as biological catalyst are called enzymes.