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Two structures of the catalytic domain of phosphorylase kinase: an active protein kinase complexed with substrate analogue and product

Background: Control of intracellular events by protein phosphorylation is promoted by specific protein kinases. All the known protein kinases possess a common structure that defines a catalytically competent entity termed the ‘kinase catalytic core’. Within this common structural framework each kina...

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Bibliographic Details
Published in:Structure (London) 1995-05, Vol.3 (5), p.467-482
Main Authors: Owen, DJ, Noble, MEM, Garman, EF, Papageorigiou, AC, Johnson, LN
Format: Article
Language:English
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Summary:Background: Control of intracellular events by protein phosphorylation is promoted by specific protein kinases. All the known protein kinases possess a common structure that defines a catalytically competent entity termed the ‘kinase catalytic core’. Within this common structural framework each kinase displays its own unique substrate specificity, and a regulatory mechanism that may be modulated by association with other proteins. Structural studies of phosphorylase kinase (Phk), the major substrate of which is glycogen phosphorylase, may be expected to shed light on its regulation. Results We report two crystal structures of the catalytic core (residues 1–298; Phk γtrnc) of the γ-subunit of rabbit muscle phosphorylase kinase: the binary complex with Mn 2+/ β- γ-imidoadenosine 5′-triphosphate (AMPPNP) to a resolution of 2.6 å and the binary complex with Mg 2+/ADP to a resolution of 3.0 å. The structures were solved by molecular replacement using the cAMP-dependent protein kinase (cAPK) as a model. Conclusion The overall structure of Phk γtrnc is similar to that of the catalytic core of other protein kinases. It consists of two domains joined on one edge by a ‘hinge’, with the catalytic site located in the cleft between the domains. Phk γtrnc is constitutively active, and lacks the need for an activatory phosphorylation event that is essential for many kinases. The structure exhibits an essentially ‘closed’ conformation of the domains which is similar to that of cAPK complexed with substrates. The phosphorylated residue that is located at the domain interface in many protein kinases and that is believed to stabilize an active conformation is substituted by a glutamate in Phk γtrnc. The glutamate, in a similar manner to the phosphorylated residue in other protein kinases, interacts with an arginine adjacent to the catalytic aspartate but does not participate in interdomain contacts. The interactions between the enzyme and the nucleotide product of its activity, Mg 2+/ADP, explain the inhibitory properties of the nucleotides that are observed in kinetic studies.
ISSN:0969-2126
1878-4186
DOI:10.1016/S0969-2126(01)00180-0