ATP synthase
A phosphate group, found in the cell as a phosphate ion (Pi): ADP + Pi --> ATP In addition, a significant quantity of energy is needed to form the bond linking the third phosphate to the ADP.
Phosphates and energy
Energy from food.
ATP synthase
Energy is needed to add a third phosphate group to ADP to make ATP. What is a cell's source of this energy?
To make ATP you must add ADP to a reaction. In the reaction ADP will be reduced and the other molecule will be oxidized by breaking the bond between the phosphate group and the oxygen. Your products will be a phosphate group, another molecule, and ATP.
In a nucleotide the 5-carbon sugar is bonded to the phosphate group, which is bonded to the nitrogenous base. In a chain of nucleotides (a strand of DNA), the nucleotides are connected by covalent bonds between the sugar of one nucleotide, and the phosphate group of the next nucleotide.
Partially false. Energy is released when phosphate group in ATP is broken apart. This is because there is high energy stored in the bonds as the attached phosphate groups both have a negative charge.
Phosphate is the correct answer.
Energy is needed to add a third phosphate group to ADP to make ATP. What is a cell's source of this energy?
You would place a phosphate group in parentheses if more than one group is needed to make the compound. For example, magnesium phosphate has the formula Mg3(PO4)2.
Out of these options: cytidine, phosphate group, ribose Guanine, phosphate group, ribose adenine, phosphate group, ribose cytosine, phosphate group, ribose deoxyribose, phosphate group, thymine deoxyribose, phosphate group, uracil The answer is: deoxyribose, phosphate group, thymine
It is based on a repeated pattern of a sugar group and a phosphate group.
To make ATP you must add ADP to a reaction. In the reaction ADP will be reduced and the other molecule will be oxidized by breaking the bond between the phosphate group and the oxygen. Your products will be a phosphate group, another molecule, and ATP.
The terminal phosphate group is broken off. The negative charge on the phosphate groups make them willing to separate.
Phosphate is an important substrate and is needed for the production of ATP. It helps make amino acids, which build proteins.
ATP synthase
pentose, nitrogenous base, and a phosphate group
One molecule of sugar glucose can store 90x or more energy than is needed to add a phosphate group to ADP to make it ATP.
its high energy phosphate bondsDue to the large amount of electrorepulsive force between the highly negatively charged phosphate groups, the third phosphate group is a prime leaving group. It is highly nucleophilic and can readily be donated to a large number of other molecules.
Ribose sugar, Phosphate and Nitrogen bases