Your search keyword '"Niittylä, Totte"' showing total 169 results

1. Sucrose synthases are not involved in starch synthesis in Arabidopsis leaves

Author

Fünfgeld, Maximilian M. F. F., Wang, Wei, Ishihara, Hirofumi, Arrivault, Stéphanie, Feil, Regina, Smith, Alison M., Stitt, Mark, Lunn, John E., and Niittylä, Totte

Published

2022

2. A metabolite roadmap of the wood-forming tissue in Populus tremula

Author

Abreu, Ilka N., Johansson, Annika I., Sokołowska, Katarzyna, Niittylä, Totte, Sundberg, Björn, Hvidsten, Torgeir R., Street, Nathaniel R., and Moritz, Thomas

Published

2020

3. New insights into the mechanisms of post-rubisco isotope fractionation from combined analysis of intramolecular13C and deuterium abundances inPinus nigratree-ring glucose

Author

Wieloch, Thomas, primary, Holloway-Phillips, Meisha, additional, Yu, Jun, additional, and Niittylä, Totte, additional

Published

2024

4. Diurnal in vivo xylem sap glucose and sucrose monitoring using implantable organic electrochemical transistor sensors

Author

Diacci, Chiara, Abedi, Tayebeh, Lee, Jee Woong, Gabrielsson, Erik O., Berggren, Magnus, Simon, Daniel T., Niittylä, Totte, and Stavrinidou, Eleni

Published

2021

5. Comparison of tension wood and normal wood for oxidative nanofibrillation and network characteristics

Author

Jonasson, Simon, Bünder, Anne, Das, Oisik, Niittylä, Totte, and Oksman, Kristiina

Published

2021

6. Preparation and Characterization of Softwood and Hardwood Nanofibril Hydrogels: Toward Wound Dressing Applications

Author

Baş, Yağmur, primary, Berglund, Linn, additional, Niittylä, Totte, additional, Zattarin, Elisa, additional, Aili, Daniel, additional, Sotra, Zeljana, additional, Rinklake, Ivana, additional, Junker, Johan, additional, Rakar, Jonathan, additional, and Oksman, Kristiina, additional

Published

2023

7. Isolation and characterization of cellulose nanofibers from aspen wood using derivatizing and non-derivatizing pretreatments

Author

Jonasson, Simon, Bünder, Anne, Niittylä, Totte, and Oksman, Kristiina

Published

2020

8. Development of flexible Organic Electronic Ion Pump for bioelectronic petiole feeding

Author

Bernacka-Wojcik, Iwona, primary, Stavrinidou, Eleni, additional, Abdel Aziz, Ilaria, additional, Simura, Jan, additional, Oikonomou, Vasileios K., additional, Rossi, Stefano, additional, Mohammadi, Mohsen, additional, Dar, Abdul Manan, additional, Talide, Loïc, additional, Berggren, Magnus, additional, Simon, Daniel T., additional, Tybrandt, Klas, additional, Jonsson, Magnus P., additional, Ljung, Karin, additional, Niittylä, Totte, additional, and Seitanidou, Maria, additional

Published

2023

9. Corrigendum : Spatially resolved metabolic analysis reveals a central role for transcriptional control in carbon allocation to wood

Author

Roach, Melissa, Arrivault, Stéphanie, Mahboubi, Amir, Krohn, Nicole, Sulpice, Ronan, Stitt, Mark, and Niittylä, Totte

Published

2018

10. Cellulose Synthase Stoichiometry in Aspen Differs from Arabidopsis and Norway Spruce

Author

Zhang, Xueyang, Dominguez, Pia Guadalupe, Kumar, Manoj, Bygdell, Joakim, Miroshnichenko, Sergey, Sundberg, Björn, Wingsle, Gunnar, and Niittylä, Totte

Published

2018

11. AspWood : High-Spatial-Resolution Transcriptome Profiles Reveal Uncharacterized Modularity of Wood Formation in Populus tremula

Author

Sundell, David, Street, Nathaniel R., Kumar, Manoj, Mellerowicz, Ewa J., Kucukoglu, Melis, Johnsson, Christoffer, Kumar, Vikash, Mannapperuma, Chanaka, Delhomme, Nicolas, Nilsson, Ove, Tuominen, Hannele, Pesquet, Edouard, Fischer, Urs, Niittylä, Totte, Sundberg, Björn, and Hvidsten, Torgeir R.

Published

2017

12. Spatially resolved metabolic analysis reveals a central role for transcriptional control in carbon allocation to wood

Author

Roach, Melissa, Arrivault, Stéphanie, Mahboubi, Amir, Krohn, Nicole, Sulpice, Ronan, Stitt, Mark, and Niittylä, Totte

Published

2017

13. Two-step derivatization for determination of sugar phosphates in plants by combined reversed phase chromatography/tandem mass spectrometry

Author

Rende, Umut, Niittylä, Totte, and Moritz, Thomas

Published

2019

14. Flexible Organic Electronic Ion Pump for Flow‐Free Phytohormone Delivery into Vasculature of Intact Plants

Author

Bernacka‐Wojcik, Iwona, primary, Talide, Loïc, additional, Abdel Aziz, Ilaria, additional, Simura, Jan, additional, Oikonomou, Vasileios K., additional, Rossi, Stefano, additional, Mohammadi, Mohsen, additional, Dar, Abdul Manan, additional, Seitanidou, Maria, additional, Berggren, Magnus, additional, Simon, Daniel T., additional, Tybrandt, Klas, additional, Jonsson, Magnus P., additional, Ljung, Karin, additional, Niittylä, Totte, additional, and Stavrinidou, Eleni, additional

Published

2023

15. Characteristics of Cellulose Nanofibrils from Transgenic Trees with Reduced Expression of Cellulose Synthase Interacting 1

Author

Jonasson, Simon, primary, Bünder, Anne, additional, Berglund, Linn, additional, Niittylä, Totte, additional, and Oksman, Kristiina, additional

Published

2022

16. ¹³C Tracking after ¹³CO₂ Supply Revealed Diurnal Patterns of Wood Formation in Aspen

Author

Mahboubi, Amir, Linden, Pernilla, Hedenström, Mattias, Moritz, Thomas, and Niittylä, Totte

Published

2015

17. 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

18. Intramolecular Isotope Analysis enables Multivariate Climate Reconstructions

Author

Wieloch, Thomas, primary, Yu, Jun, additional, Schleucher, Jürgen, additional, and Niittylä, Totte, additional

Published

2022

19. Aspen growth is not limited by starch reserves

Author

Wang, Wei, primary, Talide, Loic, additional, Viljamaa, Sonja, additional, and Niittylä, Totte, additional

Published

2022

20. Aspen SUCROSE TRANSPORTER3 Allocates Carbon into Wood Fibers

Author

Mahboubi, Amir, Ratke, Christine, Gorzsás, András, Kumar, Manoj, Mellerowicz, Ewa J., and Niittylä, Totte

Published

2013

21. Sucrose synthase activity is not required for cellulose biosynthesis in Arabidopsis

Author

Wang, Wei, primary, Viljamaa, Sonja, additional, Hodek, Ondrej, additional, Moritz, Thomas, additional, and Niittylä, Totte, additional

Published

2022

22. Characteristics of Cellulose Nanofibrils from Transgenic Trees with Reduced Expression of Cellulose Synthase Interacting 1

Author

Jonasson, Simon, Bünder, Anne, Berglund, Linn, Niittylä, Totte, and Oksman, Kristiina

Subjects

Wood Science

Abstract

Cellulose nanofibrils can be derived from the native load-bearing cellulose microfibrils in wood. These microfibrils are synthesized by a cellulose synthase enzyme complex that resides in the plasma membrane of developing wood cells. It was previously shown that transgenic hybrid aspen trees with reduced expression of CSI1 have different wood mechanics and cellulose microfibril properties. We hypothesized that these changes in the native cellulose may affect the quality of the corresponding nanofibrils. To test this hypothesis, wood from wild-type and transgenic trees with reduced expression of CSI1 was subjected to oxidative nanofibril isolation. The transgenic wood-extracted nanofibrils exhibited a significantly lower suspension viscosity and estimated surface area than the wild-type nanofibrils. Furthermore, the nanofibril networks manufactured from the transgenics exhibited high stiffness, as well as reduced water uptake, tensile strength, strain-to-break, and degree of polymerization. Presumably, the difference in wood properties caused by the decreased expression of CSI1 resulted in nanofibrils with distinctive qualities. The observed changes in the physicochemical properties suggest that the differences were caused by changes in the apparent nanofibril aspect ratio and surface accessibility. This study demonstrates the possibility of influencing wood-derived nanofibril quality through the genetic engineering of trees.

Published

2022

23. CAGEs are Golgi‐localized GT31 enzymes involved in cellulose biosynthesis in Arabidopsis

Author

Nibbering, Pieter, primary, Castilleux, Romain, additional, Wingsle, Gunnar, additional, and Niittylä, Totte, additional

Published

2022

24. Production potential of cellulose nanofibrils from transgenic trees with reduced expression of cellulose synthase interacting 1

Author

Jonasson, Simon, primary, Bünder, Anne, additional, Berglund, Linn, additional, Niittylä, Totte, additional, and Oksman, Kristiina, additional

Published

2022

25. Fluorescence Lifetime Imaging as an In Situ and Label-Free Readout for the Chemical Composition of Lignin

Author

Escamez, Sacha, primary, Terryn, Christine, additional, Gandla, Madhavi Latha, additional, Yassin, Zakiya, additional, Scheepers, Gerhard, additional, Näsholm, Torgny, additional, Sundman, Ola, additional, Jönsson, Leif J., additional, Lundberg-Felten, Judith, additional, Tuominen, Hannele, additional, Niittylä, Totte, additional, and Paës, Gabriel, additional

Published

2021

26. Mobile forms of carbon in trees: metabolism and transport

Author

Dominguez, Pia Guadalupe, primary and Niittylä, Totte, additional

Published

2021

27. The Effect of High Lignin Content on Oxidative Nanofibrillation of Wood Cell Wall

Author

Jonasson, Simon, primary, Bünder, Anne, additional, Berglund, Linn, additional, Hertzberg, Magnus, additional, Niittylä, Totte, additional, and Oksman, Kristiina, additional

Published

2021

28. Golgi-localized GALT7 and GALT8 participate in cellulose biosynthesis

Author

Nibbering, Pieter, primary, Castilleux, Romain, additional, Wingsle, Gunnar, additional, and Niittylä, Totte, additional

Published

2021

29. Sucrose synthase activity is not required for cellulose biosynthesis in Arabidopsis

Author

Wang, Wei, primary, Viljamaa, Sonja, additional, Hodek, Ondrej, additional, Moritz, Thomas, additional, and Niittylä, Totte, additional

Published

2021

30. The pathway of starch synthesis in Arabidopsis thaliana leaves

Author

Fünfgeld, Maximilian M.F.F., primary, Wang, Wei, additional, Ishihara, Hirofumi, additional, Arrivault, Stéphanie, additional, Feil, Regina, additional, Smith, Alison M., additional, Stitt, Mark, additional, Lunn, John E., additional, and Niittylä, Totte, additional

Published

2021

31. The Spatio-Temporal Distribution of Cell Wall-Associated Glycoproteins During Wood Formation in Populus

Author

Abedi, Tayebeh, primary, Castilleux, Romain, additional, Nibbering, Pieter, additional, and Niittylä, Totte, additional

Published

2020

32. Comparison of tension wood and normal wood for oxidative nanofibrillation and network characteristics

Author

Jonasson, Simon, primary, Bünder, Anne, additional, Das, Oisik, additional, Niittylä, Totte, additional, and Oksman, Kristiina, additional

Published

2020

33. The Norway spruce genome sequence and conifer genome evolution

Author

Nystedt, Björn, Street, Nathaniel R., Wetterbom, Anna, Zuccolo, Andrea, Lin, Yao-Cheng, Scofield, Douglas G., Vezzi, Francesco, Delhomme, Nicolas, Giacomello, Stefania, Alexeyenko, Andrey, Vicedomini, Riccardo, Sahlin, Kristoffer, Sherwood, Ellen, Elfstrand, Malin, Gramzow, Lydia, Holmberg, Kristina, Hällman, Jimmie, Keech, Olivier, Klasson, Lisa, Koriabine, Maxim, Kucukoglu, Melis, Käller, Max, Luthman, Johannes, Lysholm, Fredrik, Niittylä, Totte, Olson, Åke, Rilakovic, Nemanja, Ritland, Carol, Rosselló, Josep A., Sena, Juliana, Svensson, Thomas, Talavera-López, Carlos, Theien, Günter, Tuominen, Hannele, Vanneste, Kevin, Wu, Zhi-Qiang, Zhang, Bo, Zerbe, Philipp, Arvestad, Lars, Bhalerao, Rishikesh, Bohlmann, Joerg, Bousquet, Jean, Gil, Rosario Garcia, Hvidsten, Torgeir R., de Jong, Pieter, MacKay, John, Morgante, Michele, Ritland, Kermit, Sundberg, Björn, Lee Thompson, Stacey, Van de Peer, Yves, Andersson, Björn, Nilsson, Ove, Ingvarsson, Pär K., Lundeberg, Joakim, and Jansson, Stefan

Published

2013

34. Mobile forms of carbon in trees: metabolism and transport.

Author

Dominguez, Pia Guadalupe and Niittylä, Totte

Subjects

*CARBON metabolism, *XYLEM, *WOOD, *CARDIOVASCULAR system, *RAFFINOSE, *PHYSIOLOGY

Abstract

Plants constitute 80% of the biomass on earth, and almost two-thirds of this biomass is found in wood. Wood formation is a carbon (C)-demanding process and relies on C transport from photosynthetic tissues. Thus, understanding the transport process is of major interest for understanding terrestrial biomass formation. Here, we review the molecules and mechanisms used to transport and allocate C in trees. Sucrose is the major form in which C is transported in plants, and it is found in the phloem sap of all tree species investigated so far. However, in several tree species, sucrose is accompanied by other molecules, notably polyols and the raffinose family of oligosaccharides. We describe the molecules that constitute each of these transport groups, and their distribution across different tree species. Furthermore, we detail the metabolic reactions for their synthesis, the mechanisms by which trees load and unload these compounds in and out of the vascular system, and how they are radially transported in the trunk and finally catabolized during wood formation. We also address a particular C recirculation process between phloem and xylem that occurs in trees during the annual cycle of growth and dormancy. A search of possible evolutionary drivers behind the diversity of C-carrying molecules in trees reveals no consistent differences in C transport mechanisms between angiosperm and gymnosperm trees. Furthermore, the distribution of C forms across species suggests that climate-related environmental factors will not explain the diversity of C transport forms. However, the consideration of C-transport mechanisms in relation to tree–rhizosphere coevolution deserves further attention. To conclude the review, we identify possible future lines of research in this field. [ABSTRACT FROM AUTHOR]

Published

2022

35. Fructokinase is required for carbon partitioning to cellulose in aspen wood

Author

Roach, Melissa, Gerber, Lorenz, Sandquist, David, Gorzsás, András, Hedenström, Mattias, Kumar, Manoj, Steinhauser, Marie Caroline, Feil, Regina, Daniel, Geoffrey, Stitt, Mark, Sundberg, Björn, and Niittylä, Totte

Published

2012

36. CELLULOSE SYNTHASE INTERACTING 1 is required for wood mechanics and leaf morphology in aspen

Author

Bünder, Anne, primary, Sundman, Ola, additional, Mahboubi, Amir, additional, Persson, Staffan, additional, Mansfield, Shawn D., additional, Rüggeberg, Markus, additional, and Niittylä, Totte, additional

Published

2020

37. Sucrose synthase determines carbon allocation in developing wood and alters carbon flow at the whole tree level in aspen

Author

Dominguez, Pia Guadalupe, primary, Donev, Evgeniy, additional, Derba‐Maceluch, Marta, additional, Bünder, Anne, additional, Hedenström, Mattias, additional, Tomášková, Ivana, additional, Mellerowicz, Ewa J., additional, and Niittylä, Totte, additional

Published

2020

38. Golgi-localized exo-β1,3-galactosidases involved in cell expansion and root growth in Arabidopsis

Author

Nibbering, Pieter, primary, Petersen, Bent L., additional, Motawia, Mohammed Saddik, additional, Jørgensen, Bodil, additional, Ulvskov, Peter, additional, and Niittylä, Totte, additional

Published

2020

39. Golgi-localized exo-β1,3-galactosidases involved in AGP modification and root cell expansion in Arabidopsis

Author

Nibbering, Pieter, primary, Petersen, Bent L., additional, Motawia, Mohammed Saddik, additional, Jørgensen, Bodil, additional, Ulvskov, Peter, additional, and Niittylä, Totte, additional

Published

2020

40. Diurnal In Vivo Xylem Sap Glucose and Sucrose Monitoring Using Implantable Organic Electrochemical Transistor Sensors

Author

Diacci, Chiara, primary, Abedi, Tayebeh, additional, Lee, Jeewoong, additional, Gabrielsson, Erik O., additional, Berggren, Magnus, additional, Simon, Daniel T., additional, Niittylä, Totte, additional, and Stavrinidou, Eleni, additional

Published

2020

41. Isolation and characterization of cellulose nanofibers from aspen wood using derivatizing and non-derivatizing pretreatments

Author

Jonasson, Simon, primary, Bünder, Anne, additional, Niittylä, Totte, additional, and Oksman, Kristiina, additional

Published

2019

42. Genome‐wide association study identified novel candidate loci affecting wood formation in Norway spruce

Author

Baison, John, Vidalis, Amaryllis, Zhou, Linghua, Chen, Zhi‐Qiang, Li, Zitong, Sillanpää, Mikko J., Bernhardsson, Carolina, Scofield, Douglas, Forsberg, Nils, Grahn, Thomas, Olsson, Lars, Karlsson, Bo, Wu, Harry, Ingvarsson, Pär K., Lundqvist, Sven‐Olof, Niittylä, Totte, and García‐Gil, M Rosario

Subjects

ddc

Published

2018

43. Association mapping identified novel candidate loci affecting wood formation in Norway spruce

Author

Baison, John, Vidalis, Amarylis, Zhou, Linghua, Chen, Zhi-Qiang, Li, Zitong, Sillanpää, Mikko J, Bernahrdsson, Carolina, Scofield, Douglas G, Forsberg, Nils, Olsson, Lars, Karlsson, Bo, Wu, Harry, Ingvarsson, Pär K, Lundqvist, Sven-Olof, Niittylä, Totte, and Garcia Gil, Rosario M

Subjects

fungi

Abstract

Norway spruce (Picea abies) is an important boreal forest tree species of significant ecological and economic importance. Hence there is a strong imperative to dissect the genetics controlling important wood quality traits in Norway spruce. We performed a functional genome-wide association mapping of 17 wood quality traits in Norway spruce using 178101 single-nucleotide polymorphisms (SNPs) generated from exome genotyping of 517 mother trees. The wood quality traits were defined using functional modelling of wood properties across annual growth rings. Association mapping was performed using a multilocus LASSO penalized regression method and we detected a total of 51 significant SNPs from 39 candidate genes that are involved in wood formation. Our study represents the first functional multi-locus genome-wide association mapping (AM) in Norway spruce. The results advance our understanding of the genetics influencing wood traits, identify novel candidate genes for further functional studies and support current Norway spruce breeding efforts.

Published

2018

44. Genome‐wide association study identified novel candidate loci affecting wood formation in Norway spruce

Author

Baison, John, primary, Vidalis, Amaryllis, additional, Zhou, Linghua, additional, Chen, Zhi‐Qiang, additional, Li, Zitong, additional, Sillanpää, Mikko J., additional, Bernhardsson, Carolina, additional, Scofield, Douglas, additional, Forsberg, Nils, additional, Grahn, Thomas, additional, Olsson, Lars, additional, Karlsson, Bo, additional, Wu, Harry, additional, Ingvarsson, Pär K., additional, Lundqvist, Sven‐Olof, additional, Niittylä, Totte, additional, and García‐Gil, M Rosario, additional

Published

2019

45. OPENER Is a Nuclear Envelope and Mitochondria Localized Protein Required for Cell Cycle Progression in Arabidopsis

Author

Wang, Wei, primary, Zhang, Xueyang, additional, and Niittylä, Totte, additional

Published

2019

46. High Spatial Resolution Profiling in Tree Species

Author

Giacomello, Stefania, primary, Delhomme, Nicolas, additional, Niittylä, Totte, additional, Tuominen, Hannele, additional, and Street, Nathaniel R., additional

Published

2019

47. Sucrose synthase determines carbon allocation in developing wood and alters carbon flow at the whole tree level in aspen.

Author

Dominguez, Pia Guadalupe, Donev, Evgeniy, Derba‐Maceluch, Marta, Bünder, Anne, Hedenström, Mattias, Tomášková, Ivana, Mellerowicz, Ewa J., and Niittylä, Totte

Subjects

ASPEN (Trees), EUROPEAN aspen, SUCROSE, BIOMASS, CARBON

Abstract

Summary: Despite the ecological and industrial importance of biomass accumulation in wood, the control of carbon (C) allocation to this tissue and to other tree tissues remain poorly understood.We studied sucrose synthase (SUS) to clarify its role in biomass formation and C metabolism at the whole tree level in hybrid aspen (Populus tremula × tremuloides). To this end, we analysed source leaves, phloem, developing wood, and roots of SUSRNAi trees using a combination of metabolite profiling, 13CO2 pulse labelling experiments, and long‐term field experiments.The glasshouse grown SUSRNAi trees exhibited a mild stem phenotype together with a reduction in wood total C. The 13CO2 pulse labelling experiments showed an alteration in the C flow in all the analysed tissues, indicating that SUS affects C metabolism at the whole tree level. This was confirmed when the SUSRNAi trees were grown in the field over a 5‐yr period; their stem height, diameter and biomass were substantially reduced.These results establish that SUS influences C allocation to developing wood, and that it affects C metabolism at the whole tree level. See also the Commentary on this article by Gessler, 229: 8–10. [ABSTRACT FROM AUTHOR]

Published

2021

48. Sucrose transport and carbon fluxes during wood formation

Author

Mahboubi, Amir, primary and Niittylä, Totte, additional

Published

2018

49. Association mapping identified novel candidate loci affecting wood formation in Norway spruce

Author

Baison, John, primary, Vidalis, Amarylis, additional, Zhou, Linghua, additional, Chen, Zhi-Qiang, additional, Li, Zitong, additional, Sillanpää, Mikko J, additional, Bernahrdsson, Carolina, additional, Scofield, Douglas G, additional, Forsberg, Nils, additional, Olsson, Lars, additional, Karlsson, Bo, additional, Wu, Harry, additional, Ingvarsson, Pär K, additional, Lundqvist, Sven-Olof, additional, Niittylä, Totte, additional, and Garcia Gil, Rosario M, additional

Published

2018

50. Framtidens skogsbruk

Author

Johnsson, Christoffer, Immerzeel, Peter, Fischer, Urs, and Niittylä, Totte

Subjects

Chemical Process Engineering, Plant Biotechnology, Polymer Technologies

Abstract

Skogsbruket och skogsindustrin står inför stora utmaningar de kommande åren. Genom stora forskningsprojekt hoppas akademi och industri kunna ta fram nya produkter från ved och träd bättre lämpade för förändrat klimat. Vid Umeå Plant Science Centre bedrivs flera sådana projekt där forskare bland annat försöker ändra både hur veden byggs upp och dessutom utveckla nya, mer miljövänliga sätt att bryta ner den. De utmaningar samhället ställs inför i form av global uppvärmning och allt större population innebär möjligheter för skogsindustrin att etablera sig på nya marknader och vara en viktig del av lösningen till dessa problem.

Published

2016