Your search keyword '"Zeeman, Samuel C."' showing total 20 results

1. Plasmodesmal connectivity in C4Gynandropsis gynandra is induced by light and dependent on photosynthesis

Author

Schreier, Tina B., primary, Müller, Karin H., additional, Eicke, Simona, additional, Faulkner, Christine, additional, Zeeman, Samuel C., additional, and Hibberd, Julian M., additional

Published

2023

2. Effective root responses to salinity stress include maintained cell expansion and carbon allocation

Author

Li, Hongfei, primary, Duijts, Kilian, additional, Pasini, Carlo, additional, van Santen, Joyce E., additional, Lamers, Jasper, additional, de Zeeuw, Thijs, additional, Verstappen, Francel, additional, Wang, Nan, additional, Zeeman, Samuel C., additional, Santelia, Diana, additional, Zhang, Yanxia, additional, and Testerink, Christa, additional

Published

2023

3. Set up from the beginning: The origin and early development of cassava storage roots

Author

Carluccio, Anna Vittoria, primary, David, Laure C., additional, Claußen, Joelle, additional, Sulley, Marco, additional, Adeoti, Seun Raheemat, additional, Abdulsalam, Toyin, additional, Gerth, Stefan, additional, Zeeman, Samuel C., additional, Gisel, Andreas, additional, and Stavolone, Livia, additional

Published

2022

4. Metabolic profiles of six African cultivars of cassava (Manihot esculenta Crantz) highlight bottlenecks of root yield

Author

Obata, Toshihiro, primary, Klemens, Patrick A.W., additional, Rosado‐Souza, Laise, additional, Schlereth, Armin, additional, Gisel, Andreas, additional, Stavolone, Livia, additional, Zierer, Wolfgang, additional, Morales, Nicolas, additional, Mueller, Lukas A., additional, Zeeman, Samuel C., additional, Ludewig, Frank, additional, Stitt, Mark, additional, Sonnewald, Uwe, additional, Neuhaus, H. Ekkehard, additional, and Fernie, Alisdair R., additional

Published

2020

5. Cassava Metabolomics and Starch Quality

Author

Rosado‐Souza, Laise, primary, David, Laure C., additional, Drapal, Margit, additional, Fraser, Paul D., additional, Hofmann, Jörg, additional, Klemens, Patrick A. W., additional, Ludewig, Frank, additional, Neuhaus, H. Ekkehard, additional, Obata, Toshihiro, additional, Perez‐Fons, Laura, additional, Schlereth, Armin, additional, Sonnewald, Uwe, additional, Stitt, Mark, additional, Zeeman, Samuel C., additional, Zierer, Wolfgang, additional, and Fernie, Alisdair R., additional

Published

2019

6. OCTOPUS‐LIKE 2, a novel player in Arabidopsis root and vascular development, reveals a key role for OCTOPUS family genes in root metaphloem sieve tube differentiation

Author

Ruiz Sola, M. Aguila, primary, Coiro, Mario, additional, Crivelli, Simona, additional, Zeeman, Samuel C., additional, Schmidt Kjølner Hansen, Signe, additional, and Truernit, Elisabeth, additional

Published

2017

7. Trehalose 6-phosphate coordinates organic and amino acid metabolism with carbon availability

Author

Figueroa, Carlos M., primary, Feil, Regina, additional, Ishihara, Hirofumi, additional, Watanabe, Mutsumi, additional, Kölling, Katharina, additional, Krause, Ursula, additional, Höhne, Melanie, additional, Encke, Beatrice, additional, Plaxton, William C., additional, Zeeman, Samuel C., additional, Li, Zhi, additional, Schulze, Waltraud X., additional, Hoefgen, Rainer, additional, Stitt, Mark, additional, and Lunn, John E., additional

Published

2016

8. Carbon partitioning inArabidopsis thaliana is a dynamic process controlled by the plants metabolic status and its circadian clock

Author

Kölling, Katharina, primary, Thalmann, Matthias, additional, Müller, Antonia, additional, Jenny, Camilla, additional, and Zeeman, Samuel C., additional

Published

2015

9. Arabidopsis mutants Atisa1 and Atisa2 have identical phenotypes and lack the same multimeric isoamylase, which influences the branch point distribution of amylopectin during starch synthesis

Author

Delatte, Tierry, Trevisan, Martine, Parker, Mary L., and Zeeman, Samuel C.

Subjects

580 Plants (Botany)

Abstract

The aim of this work was to evaluate the function of isoamylase in starch granule biosynthesis in Arabidopsis leaves. A reverse-genetic approach was used to knockout AtISA1, one of three genes in Arabidopsis encoding isoamylase-type debranching enzymes. The mutant (Atisa1-1) lacks functional AtISA1 transcript and the major isoamylase activity (detected by native gels) in crude extracts of leaves. The same activity is abolished by mutation at the DBE1 locus, which encodes a second isoamylase-type protein, AtISA2. This is consistent with the idea that ISA1 and ISA2 proteins are subunits of the same enzyme in vivo. Atisa1-1, Atisa2-1 (dbe1), and the Atisa1-1/Atisa2-1 double mutant all have identical phenotypes. Starch content is reduced compared with the wild type but substantial quantities of the soluble glucan phytoglycogen are produced. The amylopectin of the remaining starch and the phytoglycogen in the mutants are structurally related to each other and differ from wild-type amylopectin. Electron micrographs reveal that the phytoglycogen-accumulating phenotype is highly tissue-specific. Phytoglycogen accumulates primarily in the plastids of the palisade and spongy mesophyll cells. Remarkably, other cell types appear to accumulate only starch, which is normal in appearance but is altered in structure. As phytoglycogen accumulates during the day, its rate of accumulation decreases, its structure changes and intermediates of glucan breakdown accumulate, suggesting that degradation occurs simultaneously with synthesis. We conclude that the AtISA1/AtISA2 isoamylase influences glucan branching pattern, but that this may not be the primary determinant of partitioning between crystalline starch and soluble phytoglycogen.

Published

2005

10. ABC1K1/PGR6 kinase: a regulatory link between photosynthetic activity and chloroplast metabolism

Author

Martinis, Jacopo, primary, Glauser, Gaétan, additional, Valimareanu, Sergiu, additional, Stettler, Michaela, additional, Zeeman, Samuel C., additional, Yamamoto, Hiroshi, additional, Shikanai, Toshiharu, additional, and Kessler, Felix, additional

Published

2013

11. Starch synthase 4 is essential for coordination of starch granule formation with chloroplast division during Arabidopsis leaf expansion

Author

Crumpton‐Taylor, Matilda, primary, Pike, Marilyn, additional, Lu, Kuan‐Jen, additional, Hylton, Christopher M., additional, Feil, Regina, additional, Eicke, Simona, additional, Lunn, John E., additional, Zeeman, Samuel C., additional, and Smith, Alison M., additional

Published

2013

12. Discovery, characterization, and structural analyses of glucan phosphatases from plants to humans

Author

Gentry, Matthew S., primary, Meekins, David A., additional, Taylor, Adam O., additional, Santelia, Diana, additional, Kotting, Oliver, additional, Zeeman, Samuel C., additional, and Vander Kooi, Craig W., additional

Published

2012

13. Mutagenesis of cysteine 81 prevents dimerization of the APS1 subunit of ADP-glucose pyrophosphorylase and alters diurnal starch turnover in Arabidopsis thaliana leaves

Author

Hädrich, Nadja, primary, Hendriks, Janneke H.M., additional, Kötting, Oliver, additional, Arrivault, Stéphanie, additional, Feil, Regina, additional, Zeeman, Samuel C., additional, Gibon, Yves, additional, Schulze, Waltraud X., additional, Stitt, Mark, additional, and Lunn, John E., additional

Published

2011

14. Starch-binding domains in the CBM45 family - low-affinity domains from glucan, water dikinase and α-amylase involved in plastidial starch metabolism

Author

Glaring, Mikkel A., primary, Baumann, Martin J., additional, Hachem, Maher Abou, additional, Nakai, Hiroyuki, additional, Nakai, Natsuko, additional, Santelia, Diana, additional, Sigurskjold, Bent W., additional, Zeeman, Samuel C., additional, Blennow, Andreas, additional, and Svensson, Birte, additional

Published

2011

15. Drought tolerance of two black poplar (Populus nigra L.) clones: contribution of carbohydrates and oxidative stress defence

Author

REGIER, NICOLE, primary, STREB, SEBASTIAN, additional, COCOZZA, CLAUDIA, additional, SCHAUB, MARCUS, additional, CHERUBINI, PAOLO, additional, ZEEMAN, SAMUEL C., additional, and FREY, BEAT, additional

Published

2009

16. Arabidopsis mutants Atisa1 and Atisa2 have identical phenotypes and lack the same multimeric isoamylase, which influences the branch point distribution of amylopectin during starch synthesis

Author

Delatte, Thierry, primary, Trevisan, Martine, additional, Parker, Mary L., additional, and Zeeman, Samuel C., additional

Published

2005

17. The breakdown of starch in leaves

Author

Zeeman, Samuel C., primary, Smith, Steven M., additional, and Smith, Alison M., additional

Published

2004

18. A cytosolic glucosyltransferase is required for conversion of starch to sucrose in Arabidopsis leaves at night

Author

Chia, Tansy, primary, Thorneycroft, David, additional, Chapple, Andrew, additional, Messerli, Gaëlle, additional, Chen, Jychian, additional, Zeeman, Samuel C., additional, Smith, Steven M., additional, and Smith, Alison M., additional

Published

2004

19. A critical role for disproportionating enzyme in starch breakdown is revealed by a knock-out mutation in Arabidopsis

Author

Critchley, Joanna H., primary, Zeeman, Samuel C., additional, Takaha, Takeshi, additional, Smith, Alison M., additional, and Smith, Steven M., additional

Published

2001

20. A starch‐accumulating mutant ofArabidopsis thalianadeficient in a chloroplastic starch‐hydrolysing enzyme

Author

Zeeman, Samuel C., primary, Northrop, Fred, additional, Smith, Alison M., additional, and Rees, Tom ap, additional

Published

1998