Amino acids.
when a phosphate group is removed from ATP energy is released and the molecule ADP is formed.
"DNA is essentially made up of a sequence of nucleotides, each of which are associated with one molecule of phosphate." This is true, however not completely. Let's look at an example. Say we have a DNA molecule that is 10 base pairs long ( double stranded, so actually has 20 bases). The statement suggests we would have 20 phosphates in this molecule of DNA. However, we actually have 24. This is because the nucleotides situated at the 5' terminals of each strand have 3 phosphates rather than one. Since we have 2 5' terminals we have an excess of 4 phosphates which we did not account earlier, so instead of 20, we are now at 24 phosphates.
The chemical formula for Sodium Phosphate is Na3PO4.Therefor there are 8 atoms in one molecule of Sodium Phosphate; Three Sodium atoms, One Phosphorus atom, and Four Oxygen atoms. Sodium Phosphate is also known as Trisodium phosphate or TSP.
Fatty acids and glycerol may combine to form monoglycerides, diglycerides and triglycerides (normal fats and oils). Addition of a phosphate group to a diglyceride will give a membrane lipid (phospholipid).
One molecule of O2
There are two phosphate groups in one molecule of ADP.
All molecules contain chemical energy in their chemical bonds. The molecule that stores chemical energy in living things is ATP, adenosine triphosphate. It is composed of one molecule of adenosine, and three phosphate molecules. When a cell needs energy, one of the phosphate molecules is released from the ATP. When that bond is broken, the chemical energy that was stored in the bond is used by the cell to do work.
when a phosphate group is removed from ATP energy is released and the molecule ADP is formed.
There is one major difference regarding the structure of a phospholipid, and a triglyceride. The triglyceride is made of a glyceride molecule. Three lipids, called fatty acids, are bound to this molecule. Phospholipids also contain glyceride and fatty acids. However, instead of three fatty acids, they only have two. The third bound molecule is a phosphate.
A nucleic acid always contains sugar molecules, phosphate groups, and nitrogen bases. A single nucleotide contains one sugar molecule, one phosphate group, and one nitrogen base. A DNA nucleotide contains one deoxyribose sugar molecule, one phosphate group, and one nitrogen base, which could be any of the following: adenine, thymine, guanine, or cytosine. An RNA nucleotide contains one ribose sugar molecule, one phosphate group, and one nitrogen base, which could be any of the following: adenine, uracil, guanine, or cytosine.
Yes.
ATP contains three phosphate groups. The third phosphate group (the outermost one) is called the alpha phosphate. The breaking of this phosphate bond is accompanied by the release of a large amount of energy which can be used to drive key steps in metabolic reactions. With the removal of alpha phosphate, the remainder molecule is ADP
Adenosine triphosphate (ATP) is a high energy molecule with 3 phosphate groups that a cell uses to extract and store energy from other molecules such as carbohydrates.Adenosine diphosphate (ADP) is a low-energy molecule that is one phosphate group less of an ATP molecule. ADP chemically bonds with a phosphate group to form ATP to function as such.Adenosine monophosphate (AMP) is simply the adenosine molecule bonded to only one phosphate group.
The major molecule involved in energy release and storage is ADENOSINE TRIPHOSPHATE. It contains a large ADENOSINE molecule connected to three PHOSPHATE groups via PHOSPHATE bond. When the bond that connects one of the three PHOSPHATE groups to the ADENOSINE molecule is broken down, energy is released. The resulting molecule would be ADENOSINE DIPHOSPHATE, one free PHOSPHATE group and energy.
ATP is, on its own, a rather unstable molecule. Because of this, the conversion to a more stable molecule releases energy that can be used by other parts of the cell.
There are three phosphate groups in an ATP molecule. Go on to Google images and type in ATP or adenosine triphosphate. Look for a picture that contains chemical symbols and lines. Now, commonly on the right hand side you will see the bulk of the picture. On the left should be a line with P's and O's in the middle of it. The P's of course are the phosphates. The P closest to the bulk is called the alpha phosphate. then working out you have the beta phosphate and then the gamma phosphate. The symbols for these phosphates are the Greek letters for Alpha, Beta, and Gamma.
Glucose is converted into Glucose 6 phosphate. One ATP molecule is used.