32-38
Normally, no. ATP is composed of adenosine, a ribose sugar, and three phosphate groups. However, when ATP is used for DNA synthesis, the ribose sugar is converted to deoxyribose.
approx. 12 ATP can be made from 1 Acetyl Co-A molecule... 3 NADH are reduced, making a total of 9 ATP One FADH is reduced to FADH2, yielding another 2 ATP One ATP is made from substrate level Phosphorylation 9+2+1=12
100g sugar = 1619KJ of energy (according to Wikipedia)--> 1g sugar = 16.19KJ[1ATP]/[50KJ] * [16.19KJ]/[1 g sugar] = .3238[ATP]/[g sugar]-->3.08[g sugar]/[ATP]3.08[g sugar]/[ATP] * 38ATP = 117g sugar for 38 ATP
38 gross production is made.But in many cells two ATP's are used to transport pyruvate into mitochondria.
Sugar has more potential energy than ATP because it contains more chemical bonds that can be broken during cellular respiration to produce ATP. ATP is a molecule that carries energy within cells to power various biological processes.
Normally, no. ATP is composed of adenosine, a ribose sugar, and three phosphate groups. However, when ATP is used for DNA synthesis, the ribose sugar is converted to deoxyribose.
It is a ribose sugar.
It is a ribose sugar.
approx. 12 ATP can be made from 1 Acetyl Co-A molecule... 3 NADH are reduced, making a total of 9 ATP One FADH is reduced to FADH2, yielding another 2 ATP One ATP is made from substrate level Phosphorylation 9+2+1=12
The sugar componant of ATP is known as Ribose. This sugar is the same one that makes up the sugar component of RNA.
100g sugar = 1619KJ of energy (according to Wikipedia)--> 1g sugar = 16.19KJ[1ATP]/[50KJ] * [16.19KJ]/[1 g sugar] = .3238[ATP]/[g sugar]-->3.08[g sugar]/[ATP]3.08[g sugar]/[ATP] * 38ATP = 117g sugar for 38 ATP
glucose
An ATP molecule is made up of three components: a sugar molecule called ribose, a nitrogenous base called adenine, and three phosphate groups. The structure of an ATP molecule is a chain of these components linked together. The phosphate groups are attached to the ribose sugar, with the adenine base at one end. This structure allows ATP to store and release energy for cellular processes.
No, ATP (adenosine triphosphate) is not a type of sugar. It is a molecule that serves as the primary energy carrier in cells.
38 gross production is made.But in many cells two ATP's are used to transport pyruvate into mitochondria.
38
Adenosine triphosphate (ATP) is the nucleotide subunit made from ribose sugar and adenine, with three phosphate groups that store and transport energy within cells. It is a critical molecule for various cellular processes, providing the necessary energy for metabolic reactions.