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593 results on '"Saiardi, Adolfo"'

57. Inositol pyrophosphate profiling reveals regulatory roles of IP6K2-dependent enhanced IP7 metabolism in enteric nervous system

Author

Ito, Masatoshi, primary, Fujii, Natsuko, additional, Kohara, Saori, additional, Hori, Shuho, additional, Tanaka, Masayuki, additional, Wittwer, Christopher, additional, Kikuchi, Kenta, additional, Iijima, Takatoshi, additional, Kakimoto, Yu, additional, Hirabayashi, Kenichi, additional, Kurotaki, Daisuke, additional, Jessen, Henning J., additional, Saiardi, Adolfo, additional, and Nagata, Eiichiro, additional

Published
2022
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58. INOSITOL (1,3,4) TRIPHOSPHATE 5/6 KINASE1-dependent inositol polyphosphates regulate auxin responses in Arabidopsis

Author

Laha, Nargis Parvin, primary, Giehl, Ricardo F H, additional, Riemer, Esther, additional, Qiu, Danye, additional, Pullagurla, Naga Jyothi, additional, Schneider, Robin, additional, Dhir, Yashika Walia, additional, Yadav, Ranjana, additional, Mihiret, Yeshambel Emewodih, additional, Gaugler, Philipp, additional, Gaugler, Verena, additional, Mao, Haibin, additional, Zheng, Ning, additional, von Wirén, Nicolaus, additional, Saiardi, Adolfo, additional, Bhattacharjee, Saikat, additional, Jessen, Henning J, additional, Laha, Debabrata, additional, and Schaaf, Gabriel, additional

Published
2022
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62. Inositol Pyrophosphate-Controlled Kinetochore Architecture and Mitotic Entry in S. pombe

Author

Künzel, Natascha Andrea, Alcázar-Román, Abel R., Saiardi, Adolfo, Bartsch, Simon Maria, Daunaraviciute, Sarune, Fiedler, Dorothea, Fleig, Ursula, Künzel, Natascha Andrea, Alcázar-Román, Abel R., Saiardi, Adolfo, Bartsch, Simon Maria, Daunaraviciute, Sarune, Fiedler, Dorothea, and Fleig, Ursula

Abstract

Inositol pyrophosphates (IPPs) comprise a specific class of signaling molecules that regulate central biological processes in eukaryotes. The conserved Vip1/PPIP5K family controls intracellular IP8 levels, the highest phosphorylated form of IPPs present in yeasts, as it has both inositol kinase and pyrophosphatase activities. Previous studies have shown that the fission yeast S. pombe Vip1/PPIP5K family member Asp1 impacts chromosome transmission fidelity via the modulation of spindle function. We now demonstrate that an IP8 analogue is targeted by endogenous Asp1 and that cellular IP8 is subject to cell cycle control. Mitotic entry requires Asp1 kinase function and IP8 levels are increased at the G2/M transition. In addition, the kinetochore, the conductor of chromosome segregation that is assembled on chromosomes is modulated by IP8. Members of the yeast CCAN kinetochore-subcomplex such as Mal2/CENP-O localize to the kinetochore depending on the intracellular IP8-level: higher than wild-type IP8 levels reduce Mal2 kinetochore targeting, while a reduction in IP8 has the opposite effect. As our perturbations of the inositol polyphosphate and IPP pathways demonstrate that kinetochore architecture depends solely on IP8 and not on other IPPs, we conclude that chromosome transmission fidelity is controlled by IP8 via an interplay between entry into mitosis, kinetochore architecture, and spindle dynamics., Deutsche Forschungsgemeinschaft (DFG, German Research Foundation), Medical Research Council (MRC), Peer Reviewed

Published
2022

74. Inside Cover: Stable Isotope Phosphate Labelling of Diverse Metabolites is Enabled by a Family of 18O‐Phosphoramidites (Angew. Chem. Int. Ed. 5/2022)

Author

Haas, Thomas M., primary, Mundinger, Stephan, additional, Qiu, Danye, additional, Jork, Nikolaus, additional, Ritter, Kevin, additional, Dürr‐Mayer, Tobias, additional, Ripp, Alexander, additional, Saiardi, Adolfo, additional, Schaaf, Gabriel, additional, and Jessen, Henning J., additional

Published
2022
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79. Harnessing 13C-labeled myo-inositol to interrogate inositol phosphate messengers by NMR† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c9sc00151d

Author

Harmel, Robert K., Puschmann, Robert, Nguyen Trung, Minh, Saiardi, Adolfo, Schmieder, Peter, and Fiedler, Dorothea

Subjects
Chemistry
Abstract

The analysis of inositol poly- and pyrophosphates, an important group of eukaryotic messengers, is enabled by applying 13C-labeled inositol., Inositol poly- and pyrophosphates (InsPs and PP-InsPs) are an important group of metabolites and mediate a wide range of processes in eukaryotic cells. To elucidate the functions of these molecules, robust techniques for the characterization of inositol phosphate metabolism are required, both at the biochemical and the cellular level. Here, a new tool-set is reported, which employs uniformly 13C-labeled compounds ([13C6]myo-inositol, [13C6]InsP5, [13C6]InsP6, and [13C6]5PP-InsP5), in combination with commonly accessible NMR technology. This approach permitted the detection and quantification of InsPs and PP-InsPs within complex mixtures and at physiological concentrations. Specifically, the enzymatic activity of IP6K1 could be monitored in vitro in real time. Metabolic labeling of mammalian cells with [13C6]myo-inositol enabled the analysis of cellular pools of InsPs and PP-InsPs, and uncovered high concentrations of 5PP-InsP5 in HCT116 cells, especially in response to genetic and pharmacological perturbation. The reported method greatly facilitates the analysis of this otherwise spectroscopically silent group of molecules, and holds great promise to comprehensively analyze inositol-based signaling molecules under normal and pathological conditions.

Published
2019

86. Requirement of inositol pyrophosphates for full exocytotic capacity in pancreatic [beta] cells

Author

Illies, Christopher, Gromada, Jesper, Fiume, Roberta, Leibiger, Barbara, Yu, Jia, Juhl, Kirstine, Yang, Shao-Nian, Barma, Deb K., Falck, John R., Saiardi, Adolfo, Barker, Christopher J., and Berggren, Per-Olof

Subjects
Inositol -- Physiological aspects, Pancreatic beta cells -- Properties, Pancreatic beta cells -- Genetic aspects, Exocytosis -- Genetic aspects
Published
2007

88. A stable immature lattice packages IP 6 for HIV capsid maturation

Author

Mallery, Donna L., primary, Kleinpeter, Alex B., additional, Renner, Nadine, additional, Faysal, K. M. Rifat, additional, Novikova, Mariia, additional, Kiss, Leo, additional, Wilson, Miranda S. C., additional, Ahsan, Bilal, additional, Ke, Zunlong, additional, Briggs, John A. G., additional, Saiardi, Adolfo, additional, Böcking, Till, additional, Freed, Eric O., additional, and James, Leo C., additional

Published
2021
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89. Phytocannabinoid‐dependent mTORC1 regulation is dependent upon inositol polyphosphate multikinase activity

Author

Damstra‐Oddy, Joseph L., primary, Warren, Eleanor C., additional, Perry, Christopher J., additional, Desfougères, Yann, additional, Fitzpatrick, John‐Mark K., additional, Schaf, Judith, additional, Costelloe, Lisa, additional, Hind, William, additional, Downer, Eric J., additional, Saiardi, Adolfo, additional, and Williams, Robin S.B., additional

Published
2021
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92. Inositol pyrophosphates are required for DNA hyperrecombination in protein kinase C1 mutant yeast

Author

Luo, Hongbo R., Saiardi, Adolfo, Yu, Hongbo, Nagata, Eiichiro, Ye, Keqiang, and Snyder, Solomon H.

Subjects
Biochemistry -- Research, Inositol -- Physiological aspects, Pyrophosphates -- Physiological aspects, DNA -- Genetic aspects, Protein kinases -- Genetic aspects, Brewer's yeast -- Genetic aspects, Biological sciences, Chemistry
Abstract

Research has been conducted on the inositol pyrophosphates. Results indicate that these pyrophosphates mediate homologous DNA recombination in Saccharomyces cerevisae.

Published
2002

93. IP7-SPX Domain Interaction Controls Fungal Virulence by Stabilizing Phosphate Signaling Machinery

Author

Desmarini, Desmarini, primary, Lev, Sophie, additional, Furkert, David, additional, Crossett, Ben, additional, Saiardi, Adolfo, additional, Kaufman-Francis, Keren, additional, Li, Cecilia, additional, Sorrell, Tania C., additional, Wilkinson-White, Lorna, additional, Matthews, Jacqueline, additional, Fiedler, Dorothea, additional, and Djordjevic, Julianne Teresa, additional

Published
2020
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94. Analysis of Inositol Phosphate Metabolism by Capillary Electrophoresis Electrospray Ionization Mass Spectrometry (CE-ESI-MS)

Author

Qiu, Danye, primary, Wilson, Miranda S., additional, Eisenbeis, Verena B., additional, Harmel, Robert K., additional, Riemer, Esther, additional, Haas, Thomas M., additional, Wittwer, Christopher, additional, Jork, Nikolaus, additional, Gu, Chunfang, additional, Shears, Stephen B., additional, Schaaf, Gabriel, additional, Kammerer, Bernd, additional, Fiedler, Dorothea, additional, Saiardi, Adolfo, additional, and Jessen, Henning J., additional

Published
2020
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95. ITPK1 is an InsP6/ADP phosphotransferase that controls systemic phosphate homeostasis in Arabidopsis

Author

Riemer, Esther, primary, Laha, Debabrata, additional, Harmel, Robert K., additional, Gaugler, Philipp, additional, Pries, Verena, additional, Frei, Michael, additional, Hajirezaei, Mohammad-Reza, additional, Laha, Nargis P., additional, Krusenbaum, Lukas, additional, Schneider, Robin, additional, Jessen, Henning J., additional, Saiardi, Adolfo, additional, Fiedler, Dorothea, additional, Schaaf, Gabriel, additional, and Giehl, Ricardo F.H., additional

Published
2020
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96. MINPP1prevents intracellular accumulation of the cation chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia

Author

Ucuncu, Ekin, primary, Rajamani, Karthyayani, additional, Wilson, Miranda S.C., additional, Medina-Cano, Daniel, additional, Altin, Nami, additional, David, Pierre, additional, Barcia, Giulia, additional, Lefort, Nathalie, additional, Vasilache-Dangles, Marie-Thérèse, additional, Pitelet, Gaële, additional, Lorino, Elsa, additional, Rabasse, Nathalie, additional, Bieth, Eric, additional, Zaki, Maha S., additional, Topcu, Meral, additional, Sonmez, Fatma Mujgan, additional, Musaev, Damir, additional, Stanley, Valentina, additional, Bole-Feysot, Christine, additional, Nitschké, Patrick, additional, Munnich, Arnold, additional, Bahi-Buisson, Nadia, additional, Fossoud, Catherine, additional, Giuliano, Fabienne, additional, Colleaux, Laurence, additional, Burglen, Lydie, additional, Gleeson, Joseph G., additional, Boddaert, Nathalie, additional, Saiardi, Adolfo, additional, and Cantagrel, Vincent, additional

Published
2020
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97. ITPK1-Dependent Inositol Polyphosphates Regulate Auxin Responses inArabidopsis thaliana

Author

Laha, Nargis Parvin, primary, Dhir, Yashika Walia, additional, Giehl, Ricardo F.H., additional, Schäfer, Eva Maria, additional, Gaugler, Philipp, additional, Shishavan, Zhaleh Haghighat, additional, Gulabani, Hitika, additional, Mao, Haibin, additional, Zheng, Ning, additional, von Wirén, Nicolaus, additional, Jessen, Henning J., additional, Saiardi, Adolfo, additional, Bhattacharjee, Saikat, additional, Laha, Debabrata, additional, and Schaaf, Gabriel, additional

Published
2020
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100. Stable Isotope Phosphate Labelling of Diverse Metabolites is Enabled by a Family of 18O‐Phosphoramidites**.

Author

Haas, Thomas M., Mundinger, Stephan, Qiu, Danye, Jork, Nikolaus, Ritter, Kevin, Dürr‐Mayer, Tobias, Ripp, Alexander, Saiardi, Adolfo, Schaaf, Gabriel, and Jessen, Henning J.

Subjects
RADIOLABELING, STABLE isotopes, INOSITOL phosphates, METABOLITES, CAPILLARY electrophoresis, POLYPHOSPHATES
Abstract

Stable isotope labelling is state‐of‐the‐art in quantitative mass spectrometry, yet often accessing the required standards is cumbersome and very expensive. Here, a unifying synthetic concept for 18O‐labelled phosphates is presented, based on a family of modified 18O2‐phosphoramidite reagents. This toolbox offers access to major classes of biologically highly relevant phosphorylated metabolites as their isotopologues including nucleotides, inositol phosphates, ‐pyrophosphates, and inorganic polyphosphates. 18O‐enrichment ratios >95 % and good yields are obtained consistently in gram‐scale reactions, while enabling late‐stage labelling. We demonstrate the utility of the 18O‐labelled inositol phosphates and pyrophosphates by assignment of these metabolites from different biological matrices. We demonstrate that phosphate neutral loss is negligible in an analytical setup employing capillary electrophoresis electrospray ionisation triple quadrupole mass spectrometry. [ABSTRACT FROM AUTHOR]

Published
2022
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