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We get most of our glucose from digesting the sugar and starch in carbohydrates. Foods like rice, pasta, grain, potatoes, fruits, a few vegetables, and processed sweets qualify as carbohydrates. Our digestive system, usingbile and enzymes, breaks down the starch and sugar in these foods into glucose. This functional form of energy then gets absorbed through the small intestine into the bloodstream. There, a chemical known asinsulin, excreted by thepancreas, meets the glucose. Together, they can enter cells in muscles and the brain, allowing glucose to power activities like lifting a book or remembering a phone number.
Since it is such a vital form of energy, and interacts with both the digestive and endocrine system, keeping glucose within a normal range is extremely important to health. Our body has adapted to maintain this ideal level by storing extra glucose in the liver asglycogen, so it can be reabsorbed when our levels drop. We can also speed or slow the release ofinsulin. However, at any step in the process, problems can arise in keeping the right amount of glucose circulating in the blood........
Activated carriers are a form of cellular currency. If a cell needs to have a reaction take place, however they do not have enough energy, they utilize an activated carrier. The most prevalent activated carrier in cells is adenosine 5'-triphosphate (ATP). Many different cellular metabolic processes have a net gain of ATP, such as: the citric acid cycle, and glycolysis. Although the production of ATP is an energetically unfavorable one, it is traditionally coupled to a necessary and favorable reaction, such as the above listed cellular metabolic ones.
The synthesis of ATP is a phosphorylation reaction in which a phosphate group (PO4) is added to adenosine 5'-diphosphate (ADP). It is important to note however, that the synthesis and use of ATP is a circular process. When ATP is needed in order to power an energetically unfavorable reaction, it delivers it's extra phosphate group, which is very energetic. Afterwards, it is once again ADP, and can be used as a substrate in cellular metabolic reactions.When a reaction, such as a synthesis of two molecules, is necessary, ATP facilitates it. The hydrolysis of ATP provides energy which allows the typically energetically unfavorable reaction to proceed. The phosphates of ATP are linked by phosphoanhydride bonds. When an inorganic phosphate is needed as energy packet, the terminal phosphate is typically the one used.
How is ATP produced? ATP is produced by the breakdown of sugars and fats. However, the catch to the entire process is that in order to produce ATP, two molecules must be invested, or provided. In order to even commence glycolysis, two molecules of ATP must be supplied. Later on in the process, four molecules are created, thus having a net gain of two ATP.
It is important to note that in the citric acid cycle, ATP is not produced, however a close relative, GTP (guanosine triphosphate) is created. In the third stage of cellularmetabolism, an ATP pump is used to transport substances throughout the cell.
There are many other activated carriers in organisms, such as: NADH, NADPH, FADH2, Acetyl CoA, Carboxylated biotin, S-Adenosylmethionine, and Uridine diphosphateglucose. The high energy groups which they carry are respectively: electrons, hydrogen, electrons, acetyl group, carboxyl group, methyl group, and glucose.
How exactly does a reaction use these activated carriers? Through coupling, as mentioned above, however how does a reaction become coupled to another? When a reaction has a negative delta G, or free energy, it is spontaneous, and does not need an activated carrier. However, when a reaction has a positive delta G, it needs the activated carriers which have thus far been named. In such a case, for example in ATP, the metamorphous of a phosphoanhydride bond into a phosphoester bond, which is by in itself a spontaneous reaction, donates it's energy to the positive delta G reaction.
However, it is crucial to understand that the ATP is not simply being charitable. It is imperative that the ATP be converted back into it's ADP form in order to continue allowing cellular metabolic processes. This is the theory behind activated carriers, specifically ATP and ADP.
What else can I help you with?
One molecule of glucose makes how many molecules of ATP?
The total ATP produced from one glucose is --------* (36/38) ATP
What is created by a reaction of ATP and glucose?
A process that involves the usage of ATP and glucose is glycolysis, which produces 2 pyruvates, 2 net ATP and 2 NADH molecules.
After one glucose molecule goes through glycolysis how many net ATP are produced?
Two, net.
How much of the available energy stored in glucose is converted to ATP?
About 67& of the energy in glucose is converted to ATP. The rest is lost as heat.
What is the ATP yield when glucose is substrate vs glycogen?
When glucose is metabolized, it yields a net of 30-32 ATP molecules through glycolysis and oxidative phosphorylation. In contrast, glycogen, which is a polymer of glucose, can yield approximately 33-36 ATP molecules due to the fact that its breakdown bypasses one ATP investment step in glycolysis. This difference arises because glycogen is converted to glucose-1-phosphate, which is then converted to glucose-6-phosphate, allowing for a more efficient ATP production. Overall, glycogen metabolism provides a higher ATP yield compared to free glucose.
Energy flows through photosynthesis in the form of a molecule of?
Answer: ATP glucose
In glycolysis what is the ratio of glucose molecules to the net number ATP molecules at the end of the process?
In glycolysis, one glucose molecule produces a net yield of two ATP molecules at the end of the process.
One molecule of glucose makes how many molecules of ATP?
The total ATP produced from one glucose is --------* (36/38) ATP
How many ATP are produced by the fermentation of one molecule of glucose?
2 ATP are produced in anaerobic respiration(fermentation)
How many ATP's are needed to activate glucose?
Two ATP molecules are needed to activate glucose during the initial steps of glycolysis, where glucose is converted to glucose-6-phosphate. This process requires the input of energy in the form of ATP to initiate the breakdown of glucose.
Is ATP made of glucose?
No.
One molecule of glucose makes 30 molecules of ATP. How many molecules of glucose are needed to make 600 molecules of ATP in aerobic respiration?
200
What produces ATP and glucose?
Glucose = C6 h12 o6
What is invested to energize glucose molecules at the start of a process?
To energize glucose molecules at the start of a process, ATP (adenosine triphosphate) is invested. This ATP is used to phosphorylate the glucose molecule, providing the initial energy needed to start the process of glycolysis or aerobic respiration.
What is created by a reaction of ATP and glucose?
A process that involves the usage of ATP and glucose is glycolysis, which produces 2 pyruvates, 2 net ATP and 2 NADH molecules.
Mitochondria produce ATP by?
Mitochondria produce ATP through a process called oxidative phosphorylation, which involves the electron transport chain and ATP synthase enzyme. This process generates energy from the breakdown of nutrients, such as glucose, to produce adenosine triphosphate (ATP) as the cell's main energy source.
ATP and glucose different?
Yes. Glucose is a sugar, and it is a 6 carbon ring (C6H12O6). ATP is adenosine triphosphate, which is composed of adenosine and 3 phosphates (PO4). ATP is a direct source of energy for the body. When you ingest glucose, it is converted to ATP before it is used.
