Mechanism of Enzymes Action
Last Updated : 09 Oct, 2022
Different types of cells, tissue, and other complex organs together form the human body. Our body releases some chemicals for the effective functioning of the body and to improve biological processes such as respiration, digestion, excretion, and a few other metabolic activities to maintain a healthy life. Hence, enzymes are essential for biological processes in all living organisms.
Enzymes can be defined as biological polymers produced by living organism that catalyze the biochemical reactions.
They are basically proteins that are produced by living organisms inside the body that help in facilitating certain metabolic and biochemical reactions. These are the biological catalysts that speed up the metabolic reaction inside the body. Enzymes are crucial for metabolic processes and other chemical reactions in the cell. They are necessary for sustaining the life of organisms. Enzymes are catalysts, so they do not involve directly in biological reactions but they help with their efficient occurrence. The metabolic processes depend on the enzymes which react with the molecule and are called the substrate. Enzymes convert the substrates into other distinct molecules known as products. Mostly they are found in all tissues and fluids of the body. The essential and critical life processes are exhibited based on the function of enzymes. The enzymes in the plasma membrane control the catalysis in the cells due to the response of cellular signals and enzymes in circulatory systems regulate the clotting of blood.
Structure of Enzymes
Enzymes are mostly proteins. They have a primary structure i.e. linear chain of amino acids, which eventually form a three-dimensional shape. An enzyme like any protein has secondary and tertiary structures. In tertiary structure, the protein chains fold upon themselves, and the chain crisscrosses upon itself which creates many pockets or crevices. One such pocket is known as the 'active site' or the substrate-binding site. The substrate fits into a pocket or crevice which is the active site of an enzyme. Thus, the active site of an enzyme catalyzes the biochemical reactions at a high rate. The enzymes are able to break the bigger molecule into simpler molecules or vice versa. Enzymes get damaged at high temperatures (above 40oc) and high pressure, resulting in loss of enzyme activity. Thermal stability is thus an important factor of such enzymes.
Enzymes are eventually larger with varying sizes, as compared to their substrate, ranging from 62 amino acid residues to 2500 residues found in fatty acid synthase. These amino acids are liked in a specific way to form different types of enzymes. Only a small part of the entire enzyme structure is used for catalysis and is situated next to binding sites. The enzyme's active site consists of both the catalytic site and binding site together. The enzymes also have a site called the inhibitor site. This site is functional when the enzyme is in the inactivated state. The enzymes also have a model of lock and key structure. The active site of an enzyme is flexible and can be modified, and thus can be reshaped based on the interactions with corresponding substrates.
What do enzymes do?
Enzymes are not living organisms and are a particular type of protein that helps in speeding up the biochemical reaction in our body. Each cell in the human body contains thousands of enzymes. Enzymes provide help with facilitating chemical reactions within each cell. As they are not destroyed during the process, a cell can reuse each enzyme repeatedly. The presence of these enzymes helps in many reactions inside the body that keep a person alive and well. They are important for digestion, oxidation, hydrolysis, respiration, muscle and nerve function, liver function, and much more. Enzymes in our blood assist with healthcare and check for injuries and diseases. Enzymes in our body catalyze all kinds of chemical reactions that include growth, blood clotting, diseases, breathing, etc.
Mechanism of Enzyme
These enzymes are low-blood protein bodies that are used to catalyze several chemical and biochemical reactions occurring in animal and plant bodies. Without enzymes, the living process will be too slow to sustain life. For example, in the absence of enzymes in our digestive tract, it would take us about 50 years to digest a single meal. Thus enzymes are necessary for life processes.
- Enzymes have varying sizes of cavities.
- These cavities are present on the surface of colloidal particles of enzymes.
- These cavities are of a particular characteristic shape and they process active groups such as -NH2, -COOH, -SH, -OH, etc.
- The cavities present on the surface of the enzyme are also the active site for biochemical reactions.
- The reactant molecule or substrate has a complementary shape to the active site or the cavity of the enzyme. They fit together like a key fit into a lock.
- An activated complex is formed on active groups (-NH2, -COOH, -SH, -OH, etc) these groups decompose to obtain final products. Thus, the enzyme-catalyzed reactions may be considered to proceed in two steps:
- Binding reactant to the enzyme to form an activated complex (ES*).
- Decomposition of the activated complex to form the product (P).
Enzyme Mechanism to Reduce Activation Energy
Activation energy is needed to break down chemical bonds allowing the reaction to occur. The activation energy describes how quickly a reaction takes place to be spontaneous. Enzymes reduce the activation energy of the reaction by lowering the bond energy of the bond that cannot be broken. By making the bond that cannot be broken higher in energy, it becomes easier to break the bond. When an enzyme binds to a substrate, it lowers the substrate molecules' energy to react to form products. Enzymes reduce the size of the reactants and the size of the product, thus lowering the activation energy.
They are also used for reducing the activation energy of a reaction in the real world in medicine, food manufacturing, and other industrial processes. They are also used in a wide range of technical processes. Enzymes are very versatile and efficient in nature which results in their application in different fields, they lower the activation energy, but also increase the possibility of the reaction. If the reaction were to happen spontaneously, an enzyme's role is to lower the activation energy needed to start a reaction to proceed fastly without a temperature change.
Functions of Enzymes
- The enzyme kinase is commonly used in signal transducing in human bodies. This enzyme catalyzes the phosphorylation of proteins. the enzyme breaks down the large complex molecules into a simpler substances so that the body can absorb them easily.
- Enzymes are used in the synthesis of energy in our body, ATP synthase is the enzyme commonly used in this process. They carry out the transfer of ions across the plasma membrane.
- Enzymes perform a number of functions and reactions like oxidation, reduction, and hydrolysis. They are essential for digestion liver function and other bodily functions.
- Enzymes catalyze all the reactions involved in growth, blood coagulation, healing, breathing, reproduction, etc. They reorganize internal cellular structures for better cellular activities.
Lock and Key fit Hypothesis
For any reaction to occur there should be interaction or collision among the two molecules in the right direction and sufficient energy. The energy between the molecules should be more than the barrier in the reaction. This energy is called activation energy. Enzymes are said to be the active site which is a part of the molecule with a definite shape and the functional group for the binding of reactant molecules. When a molecule binds to the enzyme it is termed a substrate molecule. The enzyme and substrate together form the intermediate reaction with low activation energy without any catalysts. Enzymes help to reduce the activation energy of the molecules in the reaction. The enzyme-substrate reaction can be better explained with the lock and key structure mechanism. The enzyme is represented by the lock whereas the substrate represents the key. Each substrate belongs to a particular enzyme.
Lock and Key fit Model The enzyme-substrate reaction can be expressed with this common equation. i.e. Substrate + Enzyme = (Substrate - Enzyme) > (Product - Enzyme or the intermediate) = Product + Enzyme. The main function of enzyme action is to catalyze chemical reactions. The binding of the substrate with the active site of the enzyme results in enzyme reactions, the active site is a specific area that combines with the substrate.
Induced fit Hypothesis
The substrate gets attached to the enzyme which has a specific structure that can only be fitted in a particular enzyme. In Induced fit, the active site is not exactly complementary to the substrate but changes shape in the presence of a specific substrate to become complementary and initiate the reaction. When a substrate molecule interacts with an enzyme, if its composition is specifically correct, the shape of the enzyme's Active site will change so that the substrate fits into it and an Enzyme - Substrate complex can be formed. After the reaction, an Enzyme-Product Complex is formed. The enzyme slows down the activation energy of the reaction by providing a surface to the substrate. The intermediate state where the substrate binds with the enzyme is called the transition state. The enzyme and substrate form bonds and then breaks them, which results in a product and later they split into product and enzyme. The enzymes then bind to other substrates the cycle continues till the reaction is completed. When the substrate (S) binds to its active site with the enzyme (E), a complex (intermediate ES) is developed which produces the product (P) and the enzyme.
The steps included in enzyme actions are:
- Step 1: The enzyme and substrate combine and result in an intermediate substrate.
- Step 2: The detachment of complex molecules gives the product and enzyme.
The entire catalyst reaction of enzymes can be expressed as:
E + S ---> (ES) ---> E + P
Induced-fit Model Question 1: Explain the enzyme Ribozymes.
Answer:
Ribozymes are basically molecules of ribonucleic acid, which catalyze the biochemical reaction in one of their own bonds or among other RNAs. They belong to the class RNA catalyst.
Question 2: How do enzymes work?
Answer:
For any reaction to occur energy is required. Enzymes act as catalysts and help reduce the activation energy of the complex molecules and carry forward the reaction. The following steps simplify the working of the enzyme.
- Step 1: Each molecule has an active site where one of the substrate molecules can bind to and form an enzyme-substrate complex is formed.
- Step 2: This enzyme-substrate molecule form an end product from the substrate and the enzyme is liberated to react with another substrate molecule.
Question 3: Describe the important properties of enzymes.
Answer:
- Enzymes act as biological catalysts and speed up the rate of reaction.
- They convert one form of energy into a more useful form of energy required for the reaction.
- Cofactors are the molecules that help the enzymes to carry forward the reaction.
- Enzymes are highly specific, a particular enzyme binds to a particular substrate and catalyzes a single reaction.
- They are mostly chains of amino acids or proteins, but some RNA molecules (ribozymes) can also act as catalysts.
Question 4: State the uses of enzymes.
Answer:
- Alcoholic Beverages are prepared by different enzyme actions. The use of various enzymes on different plant products creates a variety of fermented product
- Daily consumable food products are created with the help of enzymes. The finest example of fermentation is Bread. It occupies its texture due to the use of enzymes during the fermentation process.
- Enzyme action can be promoted by the use of drugs that tend to work around the active sites of enzymes.
Question 5: How enzyme works?
Answer:
Enzyme accelerates the time of the reaction and changes the substrate into the product. The working of enzymes is explained by 2 hypothesis:
- Lock and Key Hypothesis
- Induced Fit Hypothesis
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Describe the Internal Structure of a Dorsiventral LeafFlowering plants are also known as angiosperms. The anatomy of flowering plants includes the organization of cells and tissues within the bodies of a flowering plant. Tissues are formed by a group of cells to perform a function. Flowers are known as the reproductive part of the plant since they play
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Isobilateral (Monocotyledonous) Leaf - Definition, Features, Structure, ExamplesOn account of the isobilateral leaf, the mesophyll tissue in the leaves isn't separated. It consists of either just springy or palisade parenchyma cells. These sorts of leaves are comparative in an appearance on both sides and, subsequently, are called isobilateral kinds of leaves. On account of the
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Secondary GrowthTerm tissue ( French word meaning woven ) was used by N.Grew (1682) the father of plant anatomy. Nageli is regarded as the father of Modern Anatomy. A cell is the functional and structural unit of life. A tissue is a group of cells having a common origin, the same method of development, and function
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Cork CambiumThe study of an organism's internal structure is called anatomy. Histology, or the study of tissue organization and structure, is a component of plant anatomy research. Anatomy reveals the structural adaptation to various settings and reveals the structural differences of various groups of plants. T
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Chapter 7: Structural Organization In Animals
NCERT Notes of Class 11 Biology Chapter 7 Structural Organisation in AnimalsNotes on NCERT for Class 11 Biology Chapter 7 Structural Organisation in Animals: Structural organization in animals refers to the arrangement of cells, tissues, organs, and organ systems that work together through the division of labour and ensure the survival of the whole body. In this article, yo
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Structural Organization in AnimalsEvery living organism is made up of cells. The basic structural organization of any multicellular living organism is as follows: Cells-Tissue-Organ-Organ System Structural Organization in Animals For a living thing to be called living, it must have a cell. Every organism starts with the fundamental
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Epithelial Tissue - Introduction, Characteristics, Types, ImportanceEpithelial tissue is what makes up this part of the animal's anatomy, and it may be found on both the outside and the inside of the body. The body structure of multicellular organisms is more complicated than that of unicellular organisms, in which every important cellular function, such as nutritio
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Connective Tissue - Definition, Functions, Types, ExamplesThe connective tissue is a type of tissue that supports, binds, or separates other tissues and organs in the body. Understanding the connective tissue type and function helps in learning about the tissue system in organisms. Connective tissue with a fluid matrix such as blood, circulates throughout
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Organ SystemThe cell is the smallest fundamental unit in animals. It is where the structural organization begins. Additionally, tissues are made up of a collection of cells with comparable functions. Organs are created when tissues group together to carry out particular tasks. Cells⇢Tissues⇢Organs⇢Organ system.
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Morphology of EarthwormThe morphology of earthworms can be described as a cylindrical, segmented body covered by a moist cuticle that facilitates respiration through their skin. Understanding the external and internal morphology of earthworms along with other characteristics helps in analyzing their role in soil health, n
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Earthworm AnatomyEarthworms, otherwise called rancher's companion (farmer's friend) comes under the Annelida phylum. Their home is soil and feeds upon the organic matter. Varieties of the organic entity found in India are Pheretima and Lumbricus. They're rosy brown in variety and their body is in a state of an exten
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Morphology of CockroachThe primary association in creatures begins from the littlest key unit—the cell. Furthermore, a gathering of cells that carry out a comparable role structures tissues. At the point when tissues assemble to carry out unambiguous roles, they structure organs. Cells → Tissues → Organs → Organ system. W
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Anatomy of CockroachThe basic association in creatures begins from the littlest, critical unit—the cell. The cell is the basic unit of any living organism. Furthermore, a gathering of cells that carry out a comparable role structures tissues. At the point when tissues assemble to carry out unambiguous roles, they struc
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Morphology and Anatomy of FrogsAnimals' structural organization begins with their smallest basic unit, the cell. Additionally, tissues are made up of a collection of cells with comparable functions. Organs are created when tissues come together to carry out particular tasks. Frog Frogs are tailed, carnivorous amphibians that are
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Chapter 8: Cell-The Unit of Life
Cell the Unit of Life Class 11 Notes CBSE Biology Chapter 8Class 11 Biology NCERT Notes for Chapter 8 Cell The Unit of Life: Cells are the basic units of life and serve as the building blocks of all living organisms. They differ in structure, composition, and function, but have similarities. The human body is made up of more than trillions of cells. They gi
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Prokaryotic CellsProkaryotic cells are single-celled organisms that lack a true nucleus and membrane-bound organelles. Their genetic material is present in a nucleoid region. They are normally smaller than eukaryotic cells, with a size range of 0.1 to 5 μm in diameter. Prokaryotic cells for example bacteria and arch
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Cell Envelope - Definition, Classification, Types, FunctionsAll living things are produced using at least one cell. A cell is the most straightforward unit of life and they are liable for keeping a living being alive and working. This prologue to cells is the beginning stage for the area of science that concentrates on the different sorts of cells and how th
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Ribosomes and Inclusion BodiesThe cell is the structural and functional unit of life. The prokaryotic cells constitute bacteria, blue-green algae, mycoplasma, and PPLO( Pleuro Pneumonia Like Organisms). The size of prokaryotic cells is usually small ( 0.1- 5.0 μm ). It has one envelope organization. In prokaryotes, DNA is naked,
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Eukaryotic CellsEukaryotic cells include all the protists, plants, animals, and fungi. It forms the domain Eukaryota and possesses an organized nucleus with a nuclear envelope. Their genetic material is organized into chromosomes. Eukaryotes contain membrane-bound organelles like Golgi apparatus, mitochondria, endo
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Cell MembraneThe cell membrane, also known as the plasma membrane, bounds the cell. The cell membrane is composed of proteins and lipids. It is a selectively permeable membrane that binds the cell and separates the cell from the outside environment. In this article, we will study cell membrane structure, functio
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Endomembrane System - Overview, Structure, and FunctionsCell is the fundamental and structural unit of all living entity. It is the biological, structural, and functional unit of all plants and animals. cells are the ‘Building Blocks of Life’ or the ‘Basic units of Life’. Organisms made up of a single cell are ‘unicellular’ whereas organisms made up of m
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MitochondriaMitochondria is a double membrane organelle present in the cytoplasm of all eukaryotic cells. Mitochondria generates energy in the form of ATP because of which mitochondria is known as the "powerhouse of the cell". In 1857 Albert von Kolliker first discovered the organelle and Carl Benda in 1898 gav
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Golgi ApparatusGolgi apparatus is an organelle found in most of the eukaryotes. It consists of a series of flattened membrane sacs called cisternae. These cisternae are present one over the other to form the Golgi complex. It is responsible for packaging proteins into vesicles before secretion and therefore plays
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Plastids - Definition, Classification, Structure, FunctionsPlastids are cell organelles that are found in green plants and algae. Plastids are responsible for containing photosynthetic pigments, other coloring pigments, starch, proteins, fats, etc. substances. The credit for the discovery of plastid goes to Ernst Haeckel, however, the proper definition of p
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RibosomesRibosomes are cellular structures responsible for translating genetic information from mRNA into functional proteins. Ribosomes are made up of ribosomal RNA (rRNA) and proteins. They are the site of protein synthesis. The ribosome structure consists of two subunits, a small subunit and a large subun
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Cytoskeleton - Definition, Structure, Components, FunctionsThe cytoskeleton is an elaborate network of associated protein filaments present in the cytoplasm of all cells. In 1903 Nikolai K.Koltsov coined the term cytoskeleton. It is situated between the membrane of the cell and the cell nucleus. What is Cytoskeleton?The cytoskeleton is a complex structure t
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Cilia And Flagella - Definition, Structure, Functions and FAQsCilia and Flagella are cell organelles that enable cells to move or protect themselves from their surroundings. The human eye is unable to see these. The prokaryotic flagella are structurally distinct from the eukaryotic flagella. Cilia and Flagella are extensions that help to move substances around
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What is Nucleus? | Class 11 BiologyThe cell is the basic structural and functional unit of living organisms. In biology, the cell has the same central position as that of an atom in the physical sciences. The bodies of living organisms are made up of microscopic units called cells. Cells have evolved a variety of different lifestyles
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Chapter 9: Biomolecules
Biomolecules - Definition, Structure, Classification, ExamplesBiomolecules is a chemical compound found in living organisms. They are the building blocks of life, essential for the functioning of living organisms. Biomolecules include protein, carbohydrates, lipids, enzymes, and nucleic acids. They vary in size and structure. Biomolecules are crucial for life
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How To Analyze Chemical Composition?Biomolecules can be defined as the carbon-containing intensifies which are available in both living and non-living things. They are engaged with the support and metabolic cycles of living creatures. Every one of the components intensifies, which are available to make up every living animal. Biomolec
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What are Metabolites - Primary and Secondary MetabolitesMetabolites are the intermediate molecules produced during various metabolic processes. Metabolites produced by plants are of two types - primary and secondary metabolites. The metabolites examples are antibiotics, glucose, amino acids, etc. Metabolite functions include signalling molecules, defence
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Biomacromolecules - Definition, Types, Functions, SignificanceBiomolecule, also called biological molecules, is any of various substances that are created by cells and living creatures. Biomolecules have many sizes and designs and play out a huge range of capabilities. The four significant kinds of biomolecules are carbs, lipids, nucleic acids, and proteins. A
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Proteins - Definition, Structure, Significance, ExamplesBiomolecules seem to be the most important kind of organic molecules since they play a role in the upkeep and metabolic activities of living creatures. These non-living molecules are the true footsoldiers fighting for the sustenance of life, and they play an essential role to lead a healthy life in
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PolysaccharidesPolysaccharides are complex carbohydrates made up of multiple sugar (monosaccharide) units linked together. They are essential macromolecules in biology and serve various functions in living organisms. Polysaccharides play a crucial role in energy storage, structural support, and cellular recognitio
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Nucleic Acid - Definition, Function, Structure, and TypesThe nucleic acid is an important molecule in living organisms. Nucleic acid functions as the blueprint for genetic information. Understanding the nucleic acid structure and functions helps in deciphering the genetic code, which contains instructions for building and maintaining living organisms. In
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Protein Structure - Primary, Secondary, Tertiary, QuaternaryBiomolecules, additionally called natural particles, are any of various substances that are created by cells and living creatures. Biomolecules have many sizes and designs and play out an immense range of capabilities. The four significant sorts of biomolecules are fat, lipids, nucleic acids, and pr
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Metabolic Basis For Living | CBSE Class 11 Biology Chapter 9Biomolecules are the fundamental building blocks of all living things. They work together to promote various biological processes that are required for life. They differ in structure and size. Hydrogen and oxygen are the two most abundant elements in biomolecules. Within the body, living systems syn
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Enzymes - Definition, Structure, Classification, ExamplesEnzymes are biological molecules that act as catalysts, speeding up chemical responses in living organisms. They work by lowering the activation energy needed for a response to do, therefore adding the rate of the response without being consumed themselves. Enzymes play pivotal places in colorful na
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Nature of Enzyme ActionAll the carbon-based compounds that are seen in or produced by living organisms and are necessary to a biological cycle are called biomolecules. Examples of biomolecules include proteins, lipids, carbohydrates, and nucleic acids. Even molecules such as metabolites are considered biomolecules. Enzyme
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Mechanism of Enzymes ActionDifferent types of cells, tissue, and other complex organs together form the human body. Our body releases some chemicals for the effective functioning of the body and to improve biological processes such as respiration, digestion, excretion, and a few other metabolic activities to maintain a health
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Factors Affecting Enzyme ActivityThe factors affecting enzyme activity include temperature, pH, substrate concentration, enzyme concentration, and the presence of inhibitors or activators. Enzymes are biological catalysts that accelerate chemical reactions in living organisms. Enzymes are made up of proteins that are highly specifi
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CofactorsCofactors are non-protein chemical compounds or metallic ions that are essential for an enzyme's biological activity. They can be organic molecules, called coenzymes, or inorganic ions. The cofactor's function is to assist enzymes in catalyzing reactions by stabilizing transition states, enhancing s
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