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∙ 14y agoThe bacteria that live in the hot spring are of a different kind. They can survive in extreme conditions. There are also other type of bacterias that can live in salty and some which can live in acidic conditions.
Also because their proteins are in their correct form when at extreme temperatures, and in fact when put at temperatures that are normal for us, their proteins would deform and they could die.
Wiki User
∙ 14y agoBacteria that can live in extreme environments like Yellowstone's hot springs have adapted to withstand high temperatures. These bacteria have specialized enzymes and cellular structures that function optimally at high temperatures, allowing them to survive and thrive in these extreme conditions. They have evolved mechanisms to stabilize their enzymes and cellular components to prevent denaturation or damage at high temperatures.
DEPC (diethylpyrocarbonate) is often used in RNA isolation to inactivate RNases, which are enzymes that can degrade RNA. DEPC is commonly added to water used in RNA isolation procedures to ensure that RNases are deactivated, thus helping to preserve the integrity of the RNA being isolated.
Yes, mutations that inactivate the CCR5 receptor can make an individual more susceptible to AIDS because HIV primarily infects cells through the CCR5 co-receptor. Individuals with these mutations are less able to prevent HIV infection, as the virus cannot enter cells as easily.
Enzymes operate best under a tight, optimal range of pH values. Extreme pH can seriously affect enzyme activity, so it is little wonder that big changes in pH can slow down enzyme activity. Extreme changes can often irreversibly inactivate and denature an enzyme.
UV light is often used in hospital settings for disinfection purposes, such as in operating rooms, patient rooms, and other high-touch surfaces. It is also used in water treatment facilities to disinfect water supplies, as well as in food processing industries to eliminate pathogens on food surfaces.
Hydroxyl radicals have been shown to degrade and inactivate prions by breaking down their protein structure. This process can help reduce the infectivity of prions in the environment.
it dependsnupon the antibiotic, the temperature intensity and duration.
Cooking to safe temperatures will inactivate any bacterial contamination that was present.
As with most protein enzymes change the temperature or change the pH significantly.
Cooking to safe temperatures will inactivate any bacterial contamination that was present.
High pressure pasteurization is not effective in inactivating bacterial endospores, as they are highly resistant structures that can withstand extreme conditions. To inactivate endospores, thermal processing methods such as autoclaving are more commonly used.
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.
Here is how... Under the number of members click that then scroll down and press inactivate club..thnx so much
Disconnect it (that's what a switch normally does).
Liver inactivate the hormones.Smooth ER is involved.
Liver inactivate the hormones.Smooth ER is involved.
UV radiation cannot inactivate antibiotics. However, many industrial processes use UV radiation to sterilize antibiotic powders before they are pressed into tablets.
Concentrated ammonia or sodium bisulfite