Yes And no It Can come naturally But If You Tried Mannly No
Chemical reactions in cells are speeded up by enzymes, which act as biological catalysts. Enzymes lower the activation energy needed for a reaction to occur, allowing it to happen more quickly. Factors such as temperature, pH, and substrate concentration can also influence the speed of chemical reactions in cells.
ATP is a most common substance that participate in chemical reactions of a living cell. They supply the energy needed for the reaction. They are made of adenosine base,3 phosphate groups and a nitrogenous base.
enzymes are needed to control chemical reactions within cells because the enzymes acts like catalysts. They basically speed up the reactions within the body, and within the cells, so there fore they help the body maintain its internal environment (homeostasis).-Grade 12 Bio student(exact question came on a handout :P)
Energy-releasing chemical reactions inside cells require nutrients like glucose and oxygen, which are used in cellular respiration to produce ATP. Enzymes are also needed to catalyze these reactions and facilitate energy release from molecules. Lastly, proper functioning mitochondria are essential for carrying out the processes of cellular respiration to generate energy.
Enzymes are molecules that speed up chemical reactions in cells by lowering the activation energy needed for the reaction to occur. They are biological catalysts that play a vital role in maintaining cellular functions.
it acts as a catalyst
The Mitochondria.
Chemical reactions in cells are faster than the same reactions outside cells.
ENZYMES! its in my text book.
In cells, synthesis and decomposition reactions are coupled through metabolic pathways. Synthesis reactions build complex molecules by combining simpler ones, while decomposition reactions break down complex molecules into simpler components. These reactions are interconnected in metabolic pathways, where the products of one reaction serve as substrates for another, allowing cells to efficiently produce and break down molecules as needed.
Chemical reactions in cells are speeded up by enzymes, which act as biological catalysts. Enzymes lower the activation energy needed for a reaction to occur, allowing it to happen more quickly. Factors such as temperature, pH, and substrate concentration can also influence the speed of chemical reactions in cells.
Cells require enzymes, energy in the form of adenosine triphosphate (ATP), and specific substrates in order for chemical reactions to take place. Enzymes act as catalysts that speed up chemical reactions, while ATP provides the energy needed for these reactions to occur. Substrates are the molecules that enzymes act upon to initiate and facilitate the reactions.
Enzymes play a critical role in allowing cells to build structures and speed up chemical reactions. Enzymes are biological catalysts that lower the activation energy required for chemical reactions to occur, making them essential for various cellular processes. Without enzymes, many of these reactions would be too slow to sustain life.
Enzymes are catalysts. They help lower the activation energy of reactions and increase the rate of the reaction. Without the help of enzymes, the biochemical reactions in the body would take so long that it would kill the person.
ATP is a most common substance that participate in chemical reactions of a living cell. They supply the energy needed for the reaction. They are made of adenosine base,3 phosphate groups and a nitrogenous base.
Chemical reactions in cells are facilitated by enzymes, which are biological catalysts that lower the activation energy needed for reactions to occur. Enzymes provide an environment that promotes chemical reactions at lower temperatures, known as physiological conditions. This allows cells to efficiently carry out metabolic processes despite the low temperatures inside the cell.
enzymes are needed to control chemical reactions within cells because the enzymes acts like catalysts. They basically speed up the reactions within the body, and within the cells, so there fore they help the body maintain its internal environment (homeostasis).-Grade 12 Bio student(exact question came on a handout :P)