Your search keyword '"Zeeman, Samuel C."' showing total 597 results

1. SAGA1 and MITH1 produce matrix-traversing membranes in the CO2-fixing pyrenoid

Author

Hennacy, Jessica H., Atkinson, Nicky, Kayser-Browne, Angelo, Ergun, Sabrina L., Franklin, Eric, Wang, Lianyong, Eicke, Simona, Kazachkova, Yana, Kafri, Moshe, Fauser, Friedrich, Vilarrasa-Blasi, Josep, Jinkerson, Robert E., Zeeman, Samuel C., McCormick, Alistair J., and Jonikas, Martin C.

Published

2024

2. Detecting variation in starch granule size and morphology by high-throughput microscopy and flow cytometry

Author

Thieme, Mercedes, Hochmuth, Anton, Ilse, Theresa Elisabeth, Cuesta-Seijo, Jose A., Stoma, Szymon, Meier, Roger, Nørrelykke, Simon Flyvbjerg, Pedas, Pai Rosager, Braumann, Ilka, and Zeeman, Samuel C.

Published

2023

3. Determining Protein-Protein Interaction with GFP-Trap Beads

Author

Yilmazer, Irem, primary, Abt, Melanie R., additional, Liang, Yuanyuan, additional, Seung, David, additional, Zeeman, Samuel C., additional, and Sharma, Mayank, additional

Published

2022

4. ACA pumps maintain leaf excitability during herbivore onslaught

Author

Fotouhi, Nikou, Fischer-Stettler, Michaela, Lenzoni, Gioia, Stolz, Stéphanie, Glauser, Gaëtan, Zeeman, Samuel C., and Farmer, Edward E.

Published

2022

5. SAGA1 and MITH1 produce matrix-traversing membranes in the CO2-fixing pyrenoid.

Author

Hennacy, Jessica H., Atkinson, Nicky, Kayser-Browne, Angelo, Ergun, Sabrina L., Franklin, Eric, Wang, Lianyong, Eicke, Simona, Kazachkova, Yana, Kafri, Moshe, Fauser, Friedrich, Vilarrasa-Blasi, Josep, Jinkerson, Robert E., Zeeman, Samuel C., McCormick, Alistair J., and Jonikas, Martin C.

Published

2024

6. Tuning heterologous glucan biosynthesis in yeast to understand and exploit plant starch diversity

Author

Pfister, Barbara, Shields, Jessica M., Kockmann, Tobias, Grossmann, Jonas, Abt, Melanie R., Stadler, Martha, and Zeeman, Samuel C.

Published

2022

7. Evolutionary innovations in starch metabolism

Author

Abt, Melanie R and Zeeman, Samuel C

Published

2020

8. Bacteroides thetaiotaomicron metabolic activity decreases with polysaccharide molecular weight

Author

Wong, Jeremy P. H., primary, Chillier, Noémie, additional, Fischer-Stettler, Michaela, additional, Zeeman, Samuel C., additional, Battin, Tom J., additional, and Persat, Alexandre, additional

Published

2024

9. LIKE SEX4 1 Acts as a β-Amylase-Binding Scaffold on Starch Granules during Starch Degradation

Author

Schreier, Tina B., Umhang, Martin, Lee, Sang-Kyu, Lue, Wei-Ling, Shen, Zhouxin, Silver, Dylan, Graf, Alexander, Müller, Antonia, Eicke, Simona, Stadler-Waibel, Martha, Seung, David, Bischof, Sylvain, Briggs, Steven P., Kötting, Oliver, Moorhead, Greg B.G., Chen, Jychian, and Zeeman, Samuel C.

Published

2019

10. Theoretical and experimental approaches to understand the biosynthesis of starch granules in a physiological context

Author

Pfister, Barbara, Zeeman, Samuel C., Rugen, Michael D., Field, Robert A., Ebenhöh, Oliver, and Raguin, Adélaïde

Published

2020

11. Morphological bases of phytoplankton energy management and physiological responses unveiled by 3D subcellular imaging

Author

Uwizeye, Clarisse, Decelle, Johan, Jouneau, Pierre-Henri, Flori, Serena, Gallet, Benoit, Keck, Jean-Baptiste, Bo, Davide Dal, Moriscot, Christine, Seydoux, Claire, Chevalier, Fabien, Schieber, Nicole L., Templin, Rachel, Allorent, Guillaume, Courtois, Florence, Curien, Gilles, Schwab, Yannick, Schoehn, Guy, Zeeman, Samuel C., Falconet, Denis, and Finazzi, Giovanni

Published

2021

12. Coalescence and directed anisotropic growth of starch granule initials in subdomains of Arabidopsis thaliana chloroplasts

Author

Bürgy, Léo, Eicke, Simona, Kopp, Christophe, Jenny, Camilla, Lu, Kuan Jen, Escrig, Stephane, Meibom, Anders, and Zeeman, Samuel C.

Published

2021

13. MFP1 defines the subchloroplast location of starch granule initiation

Author

Sharma, Mayank, primary, Abt, Melanie R., additional, Eicke, Simona, additional, Ilse, Theresa E., additional, Liu, Chun, additional, Lucas, Miriam S., additional, Pfister, Barbara, additional, and Zeeman, Samuel C., additional

Published

2024

14. LIKE EARLY STARVATION 1 interacts with amylopectin during starch biosynthesis.

Author

Osman, Rayan, Bossu, Mélanie, Dauvillée, David, Spriet, Corentin, Liu, Chun, Zeeman, Samuel C, D'Hulst, Christophe, and Bompard, Coralie

Published

2024

15. Changes in resource partitioning between and within organs support growth adjustment to neighbor proximity in Brassicaceae seedlings

Author

de Wit, Mieke, George, Gavin M., Ince, Yetkin Çaka, Dankwa-Egli, Barbara, Hersch, Micha, Zeeman, Samuel C., and Fankhauser, Christian

Published

2018

16. Plastidial NAD-Dependent Malate Dehydrogenase : A Moonlighting Protein Involved in Early Chloroplast Development through Its Interaction with an FtsH12-FtsHi Protease Complex

Author

Schreier, Tina B., Cléry, Antoine, Schläfli, Michael, Galbier, Florian, Stadler, Martha, Demarsy, Emilie, Albertini, Daniele, Maier, Benjamin A., Kessler, Felix, Hörtensteiner, Stefan, Zeeman, Samuel C., and Kötting, Oliver

Published

2018

17. Two Plastidial Coiled-Coil Proteins Are Essential for Normal Starch Granule Initiation in Arabidopsis

Author

Seung, David, Schreier, Tina B., Bürgy, Léo, Eicke, Simona, and Zeeman, Samuel C.

Published

2018

18. Distinct Functions of STARCH SYNTHASE 4 Domains in Starch Granule Formation

Author

Lu, Kuan-Jen, Pfister, Barbara, Jenny, Camilla, Eicke, Simona, and Zeeman, Samuel C.

Published

2018

19. Diurnal Changes in the Transcriptome Encoding Enzymes of Starch Metabolism Provide Evidence for Both Transcriptional and Posttranscriptional Regulation of Starch Metabolism in Arabidopsis Leaves

Author

Smith, Steven M., Hylton, Christopher, Zeeman, Samuel C., and Smith, Alison M.

Published

2004

20. The Breakdown of Starch in Leaves

Author

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

Published

2004

21. Plastidial α-Glucan Phosphorylase Is Not Required for Starch Degradation in Arabidopsis Leaves but Has a Role in the Tolerance of Abiotic Stress

Author

Zeeman, Samuel C., Bechtold, Nicole, Smith, Alison M., and Smith, Steven M.

Published

2004

22. Leaf Starch Turnover Occurs in Long Days and in Falling Light at the End of the Day

Author

Fernandez, Olivier, Ishihara, Hirofumi, George, Gavin M., Mengin, Virginie, Flis, Anna, Sumner, Dean, Arrivault, Stéphanie, Feil, Regina, Lunn, John E., Zeeman, Samuel C., Smith, Alison M., and Stitt, Mark

Published

2017

23. Homologs of PROTEIN TARGETING TO STARCH Control Starch Granule Initiation in Arabidopsis Leaves

Author

Seung, David, Boudet, Julien, Monroe, Jonathan, Schreier, Tina B., David, Laure C., Abt, Melanie, Lu, Kuan-Jen, Zanella, Martina, and Zeeman, Samuel C.

Published

2017

24. 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

25. A conserved ESCRT-II-like protein participates in the biogenesis and maintenance of thylakoid membranes

Author

Yilmazer, Irem, primary, Vetrano, Pamela, additional, Eicke, Simona, additional, Abt, Melanie R., additional, Traverso, Eleonora, additional, Morosinotto, Tomas, additional, Zeeman, Samuel C., additional, Ramundo, Silvia, additional, and Sharma, Mayank, additional

Published

2023

26. Bacteroides thetaiotaomicronmetabolic activity decreases with polysaccharide molecular weight

Author

Wong, Jeremy P. H., primary, Chillier, Noémie, additional, Fischer-Stettler, Michaela, additional, Zeeman, Samuel C., additional, Battin, Tom J., additional, and Persat, Alexandre, additional

Published

2023

27. Starch Synthesis in Arabidopsis. Granule Synthesis, Composition, and Structure

Author

Zeeman, Samuel C., Tiessen, Axel, Pilling, Emma, Donald, Athene M., and Smith, Alison M.

Published

2002

28. The Priming of Amylose Synthesis in Arabidopsis Leaves

Author

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

Published

2002

29. The Arabidopsis sex1 Mutant Is Defective in the R1 Protein, a General Regulator of Starch Degradation in Plants, and Not in the Chloroplast Hexose Transporter

Author

Yu, Tien-Shin, Kofler, Heike, Häusler, Rainer E., Hille, Diana, Flügge, Ulf-Ingo, Zeeman, Samuel C., Smith, Alison M., Kossmann, Jens, Lloyd, James, Ritte, Gerhard, Steup, Martin, Lue, Wei-Ling, Chen, Jychian, and Weber, Andreas

Published

2001

30. A Mutant of Arabidopsis Lacking a Chloroplastic Isoamylase Accumulates Both Starch and Phytoglycogen

Author

Zeeman, Samuel C., Umemoto, Takayuki, Lue, Wei-Ling, Au-Yeung, Pui, Martin, Cathie, Smith, Alison M., and Chen, Jychian

Published

1998

31. Soluble and insoluble α-glucan synthesis in yeast by enzyme suites derived exclusively from maize endosperm

Author

Boehlein, Susan K, primary, Pfister, Barbara, additional, Hennen-Bierwagen, Tracie A, additional, Liu, Chun, additional, Ritter, Maximilian, additional, Hannah, L Curtis, additional, Zeeman, Samuel C, additional, Resende, Marcio F R, additional, and Myers, Alan M, additional

Published

2023

32. Fluid flow structures gut microbiota biofilm communities by distributing public goods

Author

Wong, Jeremy P. H., primary, Fischer-Stettler, Michaela, additional, Zeeman, Samuel C., additional, Battin, Tom J., additional, and Persat, Alexandre, additional

Published

2023

33. Degradation of Glucan Primers in the Absence of Starch Synthase 4 Disrupts Starch Granule Initiation in Arabidopsis

Author

Seung, David, Lu, Kuan-Jen, Stettler, Michaela, Streb, Sebastian, and Zeeman, Samuel C.

Published

2016

34. Regulation of Leaf Starch Degradation by Abscisic Acid Is Important for Osmotic Stress Tolerance in Plants

Author

Thalmann, Matthias, Pazmino, Diana, Seung, David, Horrer, Daniel, Nigro, Arianna, Meier, Tiago, Kölling, Katharina, Pfeifhofer, Hartwig W., Zeeman, Samuel C., and Santelia, Diana

Published

2016

35. The Starch Granule-Associated Protein EARLY STARVATION1 Is Required for the Control of Starch Degradation in Arabidopsis thaliana Leaves

Author

Feike, Doreen, Seung, David, Graf, Alexander, Bischof, Sylvain, Ellick, Tamaryn, Coiro, Mario, Soyk, Sebastian, Eicke, Simona, Mettler-Altmann, Tabea, Lu, Kuan Jen, Trick, Martin, Zeeman, Samuel C., and Smith, Alison M.

Published

2016

36. Soluble and insoluble & alpha;-glucan synthesis in yeast by enzyme suites derived exclusively from maize endosperm

Author

Boehlein, Susan K., Pfister, Barbara, Hennen-Bierwagen, Tracie A., Liu, Chun, Ritter, Maximilian, Hannah, L. Curtis, Zeeman, Samuel C., Resende, Marcio F.R., and Myers, Alan M.

Abstract

Molecular mechanisms that distinguish the synthesis of semi-crystalline & alpha;-glucan polymers found in plant starch granules from the synthesis of water-soluble polymers by nonplant species are not well understood. To address this, starch biosynthetic enzymes from maize (Zea mays L.) endosperm were isolated in a reconstituted environment using yeast (Saccharomyces cerevisiae) as a test bed. Ninety strains were constructed containing unique combinations of 11 synthetic transcription units specifying maize starch synthase (SS), starch phosphorylase (PHO), starch branching enzyme (SBE), or isoamylase-type starch debranching enzyme (ISA). Soluble and insoluble branched & alpha;-glucans accumulated in varying proportions depending on the enzyme suite, with ISA function stimulating distribution into the insoluble form. Among the SS isoforms, SSIIa, SSIII, and SSIV individually supported the accumulation of glucan polymer. Neither SSI nor SSV alone produced polymers; however, synergistic effects demonstrated that both isoforms can stimulate & alpha;-glucan accumulation. PHO did not support & alpha;-glucan production by itself, but it had either positive or negative effects on polymer content depending on which SS or a combination thereof was present. The complete suite of maize enzymes generated insoluble particles resembling native starch granules in size, shape, and crystallinity. Ultrastructural analysis revealed a hierarchical assembly starting with subparticles of approximately 50 nm diameter that coalesce into discrete structures of approximately 200 nm diameter. These are assembled into semi-crystalline & alpha;-glucan superstructures up to 4 & mu;m in length filling most of the yeast cytosol. ISA was not essential for the formation of such particles, but their abundance was increased dramatically by ISA presence., Plant Physiology, ISSN:0032-0889, ISSN:1532-2548

Published

2023

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

Author

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

Abstract

Acclimation of root growth is vital for plants to survive salt stress. Halophytes are great examples of plants that thrive even under severe salinity, but their salt tolerance mechanisms, especially those mediated by root responses, are still largely unknown. We compared root growth responses of the halophyte Schrenkiella parvula with its glycophytic relative species Arabidopsis thaliana under salt stress and performed transcriptomic analysis of S. parvula roots to identify possible gene regulatory networks underlying their physiological responses. Schrenkiella parvula roots do not avoid salt and experience less growth inhibition under salt stress. Salt-induced abscisic acid levels were higher in S. parvula roots compared with Arabidopsis. Root transcriptomic analysis of S. parvula revealed the induction of sugar transporters and genes regulating cell expansion and suberization under salt stress. 14C-labeled carbon partitioning analyses showed that S. parvula continued allocating carbon to roots from shoots under salt stress while carbon barely allocated to Arabidopsis roots. Further physiological investigation revealed that S. parvula roots maintained root cell expansion and enhanced suberization under severe salt stress. In summary, roots of S. parvula deploy multiple physiological and developmental adjustments under salt stress to maintain growth, providing new avenues to improve salt tolerance of plants using root-specific strategies.

Published

2023

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

Author

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

Subjects

CARBON 4 photosynthesis, PLASMODESMATA, PHOTOSYNTHESIS, DICOTYLEDONS, INHIBITORY postsynaptic potential, FOLIAGE plants, DECARBOXYLATION

Abstract

Summary: In leaves of C4 plants, the reactions of photosynthesis become restricted between two compartments. Typically, this allows accumulation of C4 acids in mesophyll (M) cells and subsequent decarboxylation in the bundle sheath (BS). In C4 grasses, proliferation of plasmodesmata between these cell types is thought to increase cell‐to‐cell connectivity to allow efficient metabolite movement. However, it is not known whether C4 dicotyledons also show this enhanced plasmodesmal connectivity and so whether this is a general requirement for C4 photosynthesis is not clear. How M and BS cells in C4 leaves become highly connected is also not known.We investigated these questions using 3D‐ and 2D‐electron microscopy on the C4 dicotyledon Gynandropsis gynandra as well as phylogenetically close C3 relatives.The M–BS interface of C4G. gynandra showed higher plasmodesmal frequency compared with closely related C3 species. Formation of these plasmodesmata was induced by light. Pharmacological agents that perturbed photosynthesis reduced the number of plasmodesmata, but this inhibitory effect could be reversed by the provision of exogenous sucrose.We conclude that enhanced formation of plasmodesmata between M and BS cells is wired to the induction of photosynthesis in C4G. gynandra. [ABSTRACT FROM AUTHOR]

Published

2024

39. LIKE EARLY STARVATION 1 and EARLY STARVATION 1 promote and stabilize amylopectin phase transition in starch biosynthesis

Author

Liu, Chun, primary, Pfister, Barbara, additional, Osman, Rayan, additional, Ritter, Maximilian, additional, Heutinck, Arvid, additional, Sharma, Mayank, additional, Eicke, Simona, additional, Fischer-Stettler, Michaela, additional, Seung, David, additional, Bompard, Coralie, additional, Abt, Melanie R., additional, and Zeeman, Samuel C., additional

Published

2023

40. 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

41. Molecular Genetic Analysis of Glucan Branching Enzymes from Plants and Bacteria in Arabidopsis Reveals Marked Differences in Their Functions and Capacity to Mediate Starch Granule Formation

Author

Lu, Kuan-Jen, Streb, Sebastian, Meier, Florence, Pfister, Barbara, and Zeeman, Samuel C.

Published

2015

42. A Previously Unknown Maltose Transporter Essential for Starch Degradation in Leaves

Author

Niittylä, Totte, Messerli, Gaëlle, Trevisan, Martine, Chen, Jychian, Smith, Alison M., and Zeeman, Samuel C.

Published

2004

43. Plasmodesmal connectivity in C4Gynandropsis gynandrais 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

2022

44. The PRK/Rubisco shunt strongly influences Arabidopsis seed metabolism and oil accumulation, affecting more than carbon recycling

Author

Deslandes-Hérold, Gabriel, primary, Zanella, Martina, additional, Solhaug, Erik, additional, Fischer-Stettler, Michaela, additional, Sharma, Mayank, additional, Buergy, Léo, additional, Herrfurth, Cornelia, additional, Colinas, Maite, additional, Feussner, Ivo, additional, Abt, Melanie R, additional, and Zeeman, Samuel C, additional

Published

2022

45. Design and Use of a Digitally Controlled Device for Accurate, Multiplexed Gas Exchange Measurements of the Complete Foliar Parts of Plants

Author

George, Gavin M., primary, Kölling, Katharina, additional, Kuenzli, Roland, additional, Hirsch-Hoffmann, Matthias, additional, Flütsch, Patrick, additional, and Zeeman, Samuel C., additional

Published

2018

46. Genetic Evidence That Chain Length and Branch Point Distributions Are Linked Determinants of Starch Granule Formation in Arabidopsis

Author

Pfister, Barbara, Lu, Kuan-Jen, Eicke, Simona, Feil, Regina, Lunn, John E., Streb, Sebastian, and Zeeman, Samuel C.

Published

2014

47. The Enzyme-Like Domain of Arabidopsis Nuclear β-Amylases Is Critical for DNA Sequence Recognition and Transcriptional Activation

Author

Soyk, Sebastian, Šimková, Klára, Zürcher, Evelyne, Luginbühl, Leonie, Brand, Luise H., Vaughan, Cara K., Wanke, Dierk, and Zeeman, Samuel C.

Published

2014

48. Plastidial NAD-Dependent Malate Dehydrogenase Is Critical for Embryo Development and Heterotrophic Metabolism in Arabidopsis

Author

Beeler, Seraina, Liu, Hung-Chi, Stadler, Martha, Schreier, Tina, Eicke, Simona, Lue, Wei-Ling, Truernit, Elisabeth, Zeeman, Samuel C., Chen, Jychian, and Kötting, Oliver

Published

2014

49. The evolution of functional complexity within the β-amylase gene family in land plants

Author

Thalmann, Matthias, Coiro, Mario, Meier, Tiago, Wicker, Thomas, Zeeman, Samuel C., and Santelia, Diana

Published

2019

50. Formation of starch in plant cells

Author

Pfister, Barbara and Zeeman, Samuel C.

Published

2016