This domain is the catalytic domain of ATP-sulfurylase or sulfate adenylyltransferase EC:2.7.7.4 some of which are part of a bifunctional polypeptide chain associated with adenosyl phosphosulphate (APS) kinase Pfam:PF01583. Both enzymes are required ...
This domain is the catalytic domain of ATP-sulfurylase or sulfate adenylyltransferase EC:2.7.7.4 some of which are part of a bifunctional polypeptide chain associated with adenosyl phosphosulphate (APS) kinase Pfam:PF01583. Both enzymes are required for PAPS (phosphoadenosine-phosphosulfate) synthesis from inorganic sulphate [2]. ATP sulfurylase catalyses the synthesis of adenosine-phosphosulfate APS from ATP and inorganic sulphate [1].
ATP sulphurylase from Saccharomyces cerevisiae is able to catalyse the formation of adenosine-5-phosphosulphate. This functions as the first step in the incorporation of sulphate into biological molecules because it activates the sulphate towards nucleophilic attack by adding a good leaving group. The enzyme is part of a family of ATP sulphurylases (alpha/beta phosphodiesterase superfamily) which include those from the sulphur reducing bacteria, and proteins with dual kinase and sulphurylase activity found in mammals. The enzyme thus plays a vital role for cysteine and methionine biosynthetic pathways. While bacterial forms of ATPS form tetrameric hetero-dimer complexes which contain a GTPase subunit responsible for GTP hydrolysis and resulting activation of the catalytic reaction, homologues of ATPS from organisms such as yeast and plants exist as monomers or homo-oligomeric complexes and do not require GTP for activation.
Defined by 5 residues: THR:A-196ARG:A-197HIS:A-201HIS:A-204ARG:A-290
