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The molecule that controls all the reactions in respiration is adenosine triphosphate (ATP). ATP serves as the primary energy currency of the cell, providing the necessary energy for various biochemical processes, including those involved in cellular respiration. Through its hydrolysis, ATP releases energy used to fuel metabolic activities, including the synthesis of molecules and muscle contraction. Additionally, regulatory enzymes and pathways ensure that ATP production and consumption are balanced according to the cell's energy needs.
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How did Dalton know how many atoms were in a molecule?
Dalton determined the relative atomic masses of elements based on their chemical reactions. By analyzing the mass ratios involved in reactions, he was able to propose that all matter is made up of indivisible atoms, and he deduced the number of atoms in a molecule based on these atomic ratios and consistent patterns in reactions.
What type of reaction results in the formation of all macromolecules?
Condensation reactions result in the formation of all macromolecules. In condensation reactions, two molecules combine to form a larger molecule, with the elimination of a smaller molecule such as water. This process is commonly observed in the polymerization of macromolecules like proteins, nucleic acids, and carbohydrates.
What is the energy molecule created in cellular respiration?
During cellular respiration, the energy rich molelcule ATP (adenosine triphosphate) is produced.Cells undergoing aerobic respiration produce 6 molecules of carbon dioxide, 6 molecules of water, and up to 30 molecules of ATP (adenosine triphosphate), which is directly used to produce energy, from each molecule of glucose in the presence of surplus oxygen.
Out of photosynthesis and respiration in plants which process occurs 1 all the time 2 only at daytime?
Photosynthesis requires light, so it will only occur during daylight hours. Respiration is a process necessary for the production of ATP, which is the molecule that carries energy to reactions in the cell that require it. These reactions occur both at night and during daylight hours, so respiration must take place all the time.
What does the Calvin cycle produce?
well there are many products of the Calvin cycle. 12 ADP, 12 NADP+, and 2 GP3 (which then go to form the glucose molecule) are all formed
What is the nucleus of the cell and what does it do?
it controls all chemical reactions in the cells and contains chromosomes
Into which molecule are all the carbon atoms in glucose ultimately incorporated during cellular respiration?
All the carbon atoms in glucose are ultimately incorporated into carbon dioxide during cellular respiration. This process occurs through a series of metabolic reactions that break down glucose to produce energy, with carbon dioxide being a byproduct that is released as waste.
The most common molecule used in cellular respiration of all organisms as a source of energy is?
Sugar
Which part of the animal cell controls all the chemical reactions within the cell?
Genetic Cell
What energy molecule used by all cells is?
Adenosine triphosphate (ATP) is the energy molecule used by all cells to fuel various cellular processes and functions. It is produced during cellular respiration in the mitochondria and is essential for activities such as muscle contraction, enzyme reactions, and active transport across cell membranes.
What energy containing molecule is produced by cellular respiration?
NADH,FADH,ATP are produced.Finally all are used to generate ATP.
What cellular metabolic processes occurs in all living things?
There cellular metabolic processes that occur in all living things refers to all chemical reactions in the cells. Cellular respiration is one such process.
How did Dalton know how many atoms were in a molecule?
Dalton determined the relative atomic masses of elements based on their chemical reactions. By analyzing the mass ratios involved in reactions, he was able to propose that all matter is made up of indivisible atoms, and he deduced the number of atoms in a molecule based on these atomic ratios and consistent patterns in reactions.
What type of reaction results in the formation of all macromolecules?
Condensation reactions result in the formation of all macromolecules. In condensation reactions, two molecules combine to form a larger molecule, with the elimination of a smaller molecule such as water. This process is commonly observed in the polymerization of macromolecules like proteins, nucleic acids, and carbohydrates.
What is the energy molecule created in cellular respiration?
During cellular respiration, the energy rich molelcule ATP (adenosine triphosphate) is produced.Cells undergoing aerobic respiration produce 6 molecules of carbon dioxide, 6 molecules of water, and up to 30 molecules of ATP (adenosine triphosphate), which is directly used to produce energy, from each molecule of glucose in the presence of surplus oxygen.
What compound starts all three versions of Cellular Respiration?
The compound that starts all three versions of cellular respiration is glucose. It is broken down through a series of enzymatic reactions to produce energy in the form of ATP.
What type of organisms have enzymes and what is the purpose of enzymes in living things?
All living organisms (bacteria, archaebacteria, protists, plants, fungi and animals) have enzymes. That is, they synthesise enzymes/produce enzymes, which are essential physiological components. An enzyme is a protein that catalyses an essential physiological chemical reaction. The temperatures at which living organisms live are not high enough for essential chemical reactions to occur fast enough to sustain life. Thus an enzyme is required as the first step to speed a reaction on its way. That is what catalyse means: not just supervise, but facilitate. An enzyme is to be imagined as a 3-D folded protein, which has a slot called an active site into which a compound or macromolecule can temporarily fit. Within the active site, the forces between the constituent chemical groups of the enzyme and its active-site-fitted molecule (substrate) alter the shape of the active-site-fitting molecule in such a way as to facilitate a reaction of that molecule (which can either be the break down of that molecule or the addition of another molecule to that molecule). Once the reaction has been catalysed, enzyme and products of the reaction detach from one another. Almost all reactions are catalysed by enzymes. These reactions can build molecules up (anabolic reactions) or break them down (catabolic reactions). For example, the enzyme amylase breaks down starch into maltose. The enzyme maltase breaks down maltose (a sugar) into a simpler sugar called glucose. The enzyme phosphofructokinase adds a phosphate to a molecule called fructose 6-phosphate which produces fructose 1,6 - bisphosphate, a reaction of glycolysis which is the first stage of cellular respiration. In the Krebs Cycle, also part of cellular respiration, citrate synthetase combines a molecule called oxaloacetate with acetyl-Coenzyme A, which produces citrate. ATP synthase produces ATP, the essential energy-carrying molecule, from ADP. Indeed there are thousands of different enzymes for the thousands of different reactions in a cell! Enzymes are thoroughly essential to all life. All enzymes end in ASE!
