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ATP is often called a high energy compound and its phosphoanhydride bonds are referred to as high-energy bonds. There is nothing special about the bonds themselves. They are high-energy bonds in the sense that free energy is released when they are hydrolyzed, for the reasons given above. Lipmann’s term "high-energy bond" and his symbol ~P ...
The pyrophosphate bond is also sometimes referred to as a phosphoanhydride bond, a naming convention which emphasizes the loss of water that occurs when two phosphates form a new P−O−P bond, and which mirrors the nomenclature for anhydrides of carboxylic acids.
Structure of ATP Structure of ADP Four possible resonance structures for inorganic phosphate. ATP hydrolysis is the catabolic reaction process by which chemical energy that has been stored in the high-energy phosphoanhydride bonds in adenosine triphosphate (ATP) is released after splitting these bonds, for example in muscles, by producing work in the form of mechanical energy.
Polyphosphate is a linear chain of phosphates linked together by phosphoanhydride bonds. Polyphosphate is found in all living organisms and plays an essential role in the organisms survival. In bacteria, polyphosphate is used to store energy to replace adenosine triphosphate. It has also been shown to be involved with cell membrane formation ...
These compounds are linear polymers containing a few to several hundred residues of orthophosphate linked by energy-rich phosphoanhydride bonds. Previously, it was considered either as “ molecular fossil ” or as only a phosphorus and energy source providing the survival of microorganisms under extreme conditions.
GTPgammaS (GTPγS, guanosine 5'-O-[gamma-thio]triphosphate) is a non-hydrolyzable or slowly hydrolyzable G-protein-activating analog of guanosine triphosphate (GTP). Many GTP binding proteins demonstrate activity when bound to GTP, and are inactivated via the hydrolysis of the phosphoanhydride bond that links the γ-phosphate to the remainder of the nucleotide, leaving a bound guanosine ...
The triphosphate group contains high-energy phosphoanhydride bonds, which liberate energy when hydrolized. DNA polymerase enzymes use this energy to incorporate deoxycytidine into a newly synthesized strand of DNA. A chemical equation can be written that represents the process: (DNA) n + dCTP ↔ (DNA) n-C + PP i
The enzyme adenylosuccinate synthase carries out the reaction of IMP to S-AMP in a 2 step mechanism, [1] requiring the input of energy from a phosphoanhydride bond from the hydrolysis of guanosine triphosphate (GTP) [2] first, followed by the addition of aspartate.