We are analyzing https://link.springer.com/article/10.1007/s10930-004-0600-2.

Title:
Involvement of Porin N,N-dicyclohexylcarbodiimide-Reactive Domain in Hexokinase Binding to the Outer Mitochondrial Membrane | The Protein Journal
Description:
The proportion of hexokinase that is bound to the outer mitochondrial membrane is tissue specific and metabolically regulated. This study examined the role of the N,N-dicyclohexylcarbodiimide-binding domain of mitochondrial porin in binding to hexokinase I. Selective proteolytic cleavage of porin protein was performed and peptides were assayed for their, effect on hexokinase I binding to isolated mitochondria. Specificity of DCCD-reactive domain binding to hexokinase I was demonstrated by competition of the peptides for porin binding sites on hexokinase as well as by blockage hexokinase binding by N,N-dicyclohexylcarbodiimide. One of the peptides, designated as 5 kDa (the smallest of the porin peptides, which contains a DCCD-reactive site), totally blocked binding of the enzyme to the mitochondrial membrane, and significantly enhanced the release of the mitochondrially bound enzyme. These experiments demonstrate that there exists a direct and specific interaction between the DCCD-reactive domain of VDAC and hexokinase I. The peptides were further characterized with respect to their effects on certain functional properties of hexokinase I. None had any detectable effect on catalytic properties, including inhibition by glucose 6-phosphate. To evaluate further the outer mitochondrial membrane’s role in the hexokinase binding, insertion of VDAC was examined using isolated rat mitochondria. Pre-incubation of mitochondria with purified porin strongly increases hexokinase I binding to rat liver mitochondria. Collectively, the results imply that the high hexokinase-binding capability of porin-enriched mitochondria was due to a quantitative difference in binding sites.
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Keywords {🔍}

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Topics {✒️}

month download article/chapter dccd-reactive domain binding n-2-hydroxy ethyl piperazine dimethyldodecylamine-n-oxide pvdf n-dicyclohexylcarbodiimide-reactive domain charged membrane-buried glutamate n-dicyclohexylcarbodiimide-binding domain high hexokinase-binding capability dccd-reactive domain n-dicyclohexylcarbodiimide vdac outer mitochondrial membrane outer mitochondrial membrane privacy choices/manage cookies protein journal aims dccd-reactive site selective proteolytic cleavage full article pdf porin-enriched mitochondria rat liver mitochondria european economic area totally blocked binding cardiolipin enables elimination related subjects isolated rat mitochondria porin binding sites conditions privacy policy blockage hexokinase binding porin protein accepting optional cookies n-dicyclohexylcarbodiimide mitochondrial membrane mitochondrial porin check access instant access journal finder publish mitochondrial vdac1 main content log mitochondrially bound enzyme january 2005 volume 24 author correspondence isolated mitochondria article log privacy policy hexokinase binding personal data binding sites books a depolarized mitochondria al jamal protein

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         headline:Involvement of Porin N,N-dicyclohexylcarbodiimide-Reactive Domain in Hexokinase Binding to the Outer Mitochondrial Membrane
         description:The proportion of hexokinase that is bound to the outer mitochondrial membrane is tissue specific and metabolically regulated. This study examined the role of the N,N-dicyclohexylcarbodiimide-binding domain of mitochondrial porin in binding to hexokinase I. Selective proteolytic cleavage of porin protein was performed and peptides were assayed for their, effect on hexokinase I binding to isolated mitochondria. Specificity of DCCD-reactive domain binding to hexokinase I was demonstrated by competition of the peptides for porin binding sites on hexokinase as well as by blockage hexokinase binding by N,N-dicyclohexylcarbodiimide. One of the peptides, designated as 5 kDa (the smallest of the porin peptides, which contains a DCCD-reactive site), totally blocked binding of the enzyme to the mitochondrial membrane, and significantly enhanced the release of the mitochondrially bound enzyme. These experiments demonstrate that there exists a direct and specific interaction between the DCCD-reactive domain of VDAC and hexokinase I. The peptides were further characterized with respect to their effects on certain functional properties of hexokinase I. None had any detectable effect on catalytic properties, including inhibition by glucose 6-phosphate. To evaluate further the outer mitochondrial membrane’s role in the hexokinase binding, insertion of VDAC was examined using isolated rat mitochondria. Pre-incubation of mitochondria with purified porin strongly increases hexokinase I binding to rat liver mitochondria. Collectively, the results imply that the high hexokinase-binding capability of porin-enriched mitochondria was due to a quantitative difference in binding sites.
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      headline:Involvement of Porin N,N-dicyclohexylcarbodiimide-Reactive Domain in Hexokinase Binding to the Outer Mitochondrial Membrane
      description:The proportion of hexokinase that is bound to the outer mitochondrial membrane is tissue specific and metabolically regulated. This study examined the role of the N,N-dicyclohexylcarbodiimide-binding domain of mitochondrial porin in binding to hexokinase I. Selective proteolytic cleavage of porin protein was performed and peptides were assayed for their, effect on hexokinase I binding to isolated mitochondria. Specificity of DCCD-reactive domain binding to hexokinase I was demonstrated by competition of the peptides for porin binding sites on hexokinase as well as by blockage hexokinase binding by N,N-dicyclohexylcarbodiimide. One of the peptides, designated as 5 kDa (the smallest of the porin peptides, which contains a DCCD-reactive site), totally blocked binding of the enzyme to the mitochondrial membrane, and significantly enhanced the release of the mitochondrially bound enzyme. These experiments demonstrate that there exists a direct and specific interaction between the DCCD-reactive domain of VDAC and hexokinase I. The peptides were further characterized with respect to their effects on certain functional properties of hexokinase I. None had any detectable effect on catalytic properties, including inhibition by glucose 6-phosphate. To evaluate further the outer mitochondrial membrane’s role in the hexokinase binding, insertion of VDAC was examined using isolated rat mitochondria. Pre-incubation of mitochondria with purified porin strongly increases hexokinase I binding to rat liver mitochondria. Collectively, the results imply that the high hexokinase-binding capability of porin-enriched mitochondria was due to a quantitative difference in binding sites.
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