In accordance with previous reports, the sequences related to phosporylated protein segments occur in conserved variable domains of immunoglobulins including first of all certain N-terminally located segments. Consequ...In accordance with previous reports, the sequences related to phosporylated protein segments occur in conserved variable domains of immunoglobulins including first of all certain N-terminally located segments. Consequently, we look here for the sequences 1) composing human and mouse proteins different from antigen receptors, 2) identical with or highly similar to nucleotide sequence representatives of conserved variable immunoglobulin segments and 3) identical with or closely related to phosphorylation sites. More precisely, we searched for the corresponding actual pairs of DNA and protein sequence segments using five-step bilingual approach employing among others a) different types of BLAST searches, b) two in-principle-different machine-learning methods predicting phosphorylated sites and c) two large databases recording existing phosphorylation sites. The approach identified seven existing phosphorylation sites and thirty-seven related human and mouse segments achieving limits for several predictions or phylogenic parameters. Mostly serines phosporylated with ataxia-telangiectasia-related kinase (involved in regulation of DNA-double-strand-break repair) were indicated or predicted in this study. Hypermutation motifs, located in effective positions of the selected sequence segments, occurred significantly less frequently in transcribed than non-transcribed DNA strands suggesting thus the incidence of mutation events. In addition, marked differences between the numbers and proportions of human and mouse cancer-related sequence items were found in different steps of selection process. The possible role of hypermutation changes within the selected segments and the observed structural relationships are discussed here with respect to DNA damage, carcinogenesis, cancer vaccination, ageing and evolution. Taken together, our data represent additional and sometimes perhaps complementary information to the existing databases of empirically proven phosphorylation sites or pathogenically important spots.展开更多
Protein phosphorylation is a well-established post-translational mechanism that regulates protein functions and metabolic pathways.It is known that several plant mitochondrial proteins are phosphorylated in a reversib...Protein phosphorylation is a well-established post-translational mechanism that regulates protein functions and metabolic pathways.It is known that several plant mitochondrial proteins are phosphorylated in a reversible manner.However,the identities of the protein kinases/phosphatases involved in this mech-anism and their roles in the regulation of the tricarboxylic acid(TCA)cycle remain unclear.In this study,we isolated and characterized plants lacking two mitochondrially targeted phosphatases(Sal2 and PP2c63)along with pyruvate dehydrogenase kinase(PDK),Protein-protein interaction analysis,quantitative phos-phoproteomics,and enzymatic analyses revealed that PDK specifically regulates pyruvate dehydrogenase complex(PDC),while PP2c63 nonspecifically regulates PDC.When recombinant PP2c63 and Sal2 proteins were added to mitochondria isolated from mutant plants,protein-protein interaction and enzymatic analyses showed that PP2c63 directly phosphorylates and modulates the activity of PDC,while Sal2 only indirectly affects TCA cycle enzymes.Characterization of steady-state metabolite levels and fluxes in the mutant lines further revealed that these phosphatases regulate flux through the TCA cycle,and that altered metabolism in the sa/2 pp2c63 double mutant compromises plant growth.These results are discussed in the context of current models of the control of respiration in plants.展开更多
文摘In accordance with previous reports, the sequences related to phosporylated protein segments occur in conserved variable domains of immunoglobulins including first of all certain N-terminally located segments. Consequently, we look here for the sequences 1) composing human and mouse proteins different from antigen receptors, 2) identical with or highly similar to nucleotide sequence representatives of conserved variable immunoglobulin segments and 3) identical with or closely related to phosphorylation sites. More precisely, we searched for the corresponding actual pairs of DNA and protein sequence segments using five-step bilingual approach employing among others a) different types of BLAST searches, b) two in-principle-different machine-learning methods predicting phosphorylated sites and c) two large databases recording existing phosphorylation sites. The approach identified seven existing phosphorylation sites and thirty-seven related human and mouse segments achieving limits for several predictions or phylogenic parameters. Mostly serines phosporylated with ataxia-telangiectasia-related kinase (involved in regulation of DNA-double-strand-break repair) were indicated or predicted in this study. Hypermutation motifs, located in effective positions of the selected sequence segments, occurred significantly less frequently in transcribed than non-transcribed DNA strands suggesting thus the incidence of mutation events. In addition, marked differences between the numbers and proportions of human and mouse cancer-related sequence items were found in different steps of selection process. The possible role of hypermutation changes within the selected segments and the observed structural relationships are discussed here with respect to DNA damage, carcinogenesis, cancer vaccination, ageing and evolution. Taken together, our data represent additional and sometimes perhaps complementary information to the existing databases of empirically proven phosphorylation sites or pathogenically important spots.
基金the Max Planck Society(A.R.F.and Y.Z)and the European Union's Horizon 2020 Research and Innovation program,project PlantaSYST(A.R.F.and Y.Z.)Deutsche For-schungsgemeinschaft(FI 1655/3-1 and INST 211/744-1 FUGG for I.F).
文摘Protein phosphorylation is a well-established post-translational mechanism that regulates protein functions and metabolic pathways.It is known that several plant mitochondrial proteins are phosphorylated in a reversible manner.However,the identities of the protein kinases/phosphatases involved in this mech-anism and their roles in the regulation of the tricarboxylic acid(TCA)cycle remain unclear.In this study,we isolated and characterized plants lacking two mitochondrially targeted phosphatases(Sal2 and PP2c63)along with pyruvate dehydrogenase kinase(PDK),Protein-protein interaction analysis,quantitative phos-phoproteomics,and enzymatic analyses revealed that PDK specifically regulates pyruvate dehydrogenase complex(PDC),while PP2c63 nonspecifically regulates PDC.When recombinant PP2c63 and Sal2 proteins were added to mitochondria isolated from mutant plants,protein-protein interaction and enzymatic analyses showed that PP2c63 directly phosphorylates and modulates the activity of PDC,while Sal2 only indirectly affects TCA cycle enzymes.Characterization of steady-state metabolite levels and fluxes in the mutant lines further revealed that these phosphatases regulate flux through the TCA cycle,and that altered metabolism in the sa/2 pp2c63 double mutant compromises plant growth.These results are discussed in the context of current models of the control of respiration in plants.
