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  • Title: Evidence that the recently discovered high-energy nucleotide derivative, oligo(phosphoglyceroyl-ATP) forms the end chains of purinogen, a complex polymeric major storage form of adenine nucleotide and phosphate in heart.
    Author: Patel B, Sarcina M, Mowbray J.
    Journal: Eur J Biochem; 1994 Mar 15; 220(3):663-9. PubMed ID: 8143721.
    Abstract:
    Previous work in our laboratory has shown that free adenine nucleotides in heart, liver and kidney exchange rapidly with a major acid-insoluble species which we have characterised as oligo[3-phospho-glyceroyl-gamma- triphospho(5')adenosine(3')], abbreviated to (PG-ATP)n. This has been found in liver and in heart to be complexed to a specific 3'-phosphodiesterase which releases PG-ATP monomers and is located in mitochondrial inter-membrane space. In [14C]adenosine-perfused hearts, (PG-ATP)n has been shown to reach specific radioactivity equilibrium with free ATP within 30 min. Attempts to estimate the quantities of nucleotide in (PG-ATP)n and free nucleotides in response to a variety of stimuli using previously labelled hearts showed by contrast that the free and sequestered nucleotide pools were not at equilibrium. Re-examination of the rapidly labelled acid-insoluble species led to the recognition of radioactive inhomogeneity and of three additional nucleotide components. Perfusion of hearts with phosphate-free medium increased the proportion of 14C incorporated into the sequestered from by 70% and caused the net transfer of 0.9 mumol.g-1 of purine from free adenine nucleotides to the sequestered form. The findings point to the existence of a more complex polymer whose rapidly exchanging end chains we had previously isolated and characterised as (PG-ATP)n; we suggest the name purinogen for this polymer and show that it can contain between 25% and 55% of the tissue nucleotide pool in rat heart.
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