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Enzymes are regulated with the use of Competitive Inhibitors and Noncompetitive Inhibitors. Basicly every enzyme has an active site where the substrate binds to and what an the first kind of inhibtor does is that it blocks the substrate from joining with the enzyme by attaching to the enzyme's active site. The other kind of inhibitor joins with the enzyme at another place not the active site. This makes the enzyme change shape so it cannot fit the substrate or it somehow makes the enzyme unable to catalize the reaction.
~Draco
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What is the importance of enzymes to biological systems?
Enzymes play a critical role in biological systems by speeding up chemical reactions essential for life processes such as metabolism and growth. They enable processes to occur at a faster rate and under milder conditions than would otherwise be possible. Enzymes also help to regulate and control cellular functions, ensuring that biochemical reactions occur in a precise and coordinated manner.
Are enzymes bacterial?
Enzymes are not bacteria themselves, but they are proteins produced by bacteria and other living organisms that act as biological catalysts to accelerate chemical reactions. Enzymes play a crucial role in various biological processes, including metabolism and digestion.
Proteins that act as biological catalysts are called?
Proteins that act as biological catalyst are called enzymes.
What are Molecules that act as catalysts in biological systems?
Enzymes are molecules that act as catalysts in biological systems by speeding up chemical reactions without being consumed in the process. They are essential for various cellular functions such as metabolism, signaling, and DNA replication. Enzymes have specific shapes that allow them to interact with specific substrates and facilitate their conversion into products.
Why are all enzymes are catalysts but not all catalysts are enzymes?
Enzymes are biological catalysts that are specific to their substrates, while catalysts in general can be either biological or chemical and are not necessarily specific. Enzymes are typically proteins that have specific active sites for their substrates, allowing for precise control over chemical reactions in biological systems. Non-enzymatic catalysts can also speed up reactions, but they may not exhibit the specificity or efficiency of enzymes.
What breaks down enzymes in biological systems?
Enzymes in biological systems are broken down by other enzymes called proteases. These proteases help regulate the activity of enzymes by breaking them down when they are no longer needed.
What is the importance of enzymes to biological systems?
Enzymes play a critical role in biological systems by speeding up chemical reactions essential for life processes such as metabolism and growth. They enable processes to occur at a faster rate and under milder conditions than would otherwise be possible. Enzymes also help to regulate and control cellular functions, ensuring that biochemical reactions occur in a precise and coordinated manner.
Where do proteases originate from in biological systems?
Proteases originate from cells in biological systems. They are enzymes that help break down proteins into smaller molecules.
Are enzymes proteins that play a crucial role in biological processes?
Yes, enzymes are proteins that are essential for carrying out various biological processes in living organisms.
Enzymes play an important role in biological chemistry because they?
Enzymes play an important role in biological chemistry because they lower the amount of energy required for a reaction to take place. Co-enzymes are small non protein molecules that help the enzymatic reaction.
How are enzymes created and what is their role in biological processes?
Enzymes are created through a process called protein synthesis in cells. They act as biological catalysts, speeding up chemical reactions in living organisms without being consumed in the process. Enzymes play a crucial role in various biological processes such as digestion, metabolism, and cellular signaling.
Are enzymes bacterial?
Enzymes are not bacteria themselves, but they are proteins produced by bacteria and other living organisms that act as biological catalysts to accelerate chemical reactions. Enzymes play a crucial role in various biological processes, including metabolism and digestion.
Proteins that act as biological catalysts are called?
Proteins that act as biological catalyst are called enzymes.
What are Molecules that act as catalysts in biological systems?
Enzymes are molecules that act as catalysts in biological systems by speeding up chemical reactions without being consumed in the process. They are essential for various cellular functions such as metabolism, signaling, and DNA replication. Enzymes have specific shapes that allow them to interact with specific substrates and facilitate their conversion into products.
What is the chemical structure of imidazole HCl and how does it interact with other compounds in biological systems?
Imidazole HCl is a chemical compound with a ring structure containing nitrogen atoms. In biological systems, imidazole HCl can act as a buffer, helping to maintain the pH balance. It can also interact with proteins and enzymes, playing a role in various biochemical processes.
Why are all enzymes are catalysts but not all catalysts are enzymes?
Enzymes are biological catalysts that are specific to their substrates, while catalysts in general can be either biological or chemical and are not necessarily specific. Enzymes are typically proteins that have specific active sites for their substrates, allowing for precise control over chemical reactions in biological systems. Non-enzymatic catalysts can also speed up reactions, but they may not exhibit the specificity or efficiency of enzymes.
What substance plays in major role in most chemical reactions in living system?
Enzymes are the substances that play a major role in most chemical reactions in living systems. Enzymes are biological catalysts that speed up chemical reactions by lowering the activation energy needed for the reaction to occur. They are crucial for maintaining the processes necessary for life.
