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pro vyhledávání: '"Simon Matthé Erstad"'
Autor:
Christian Have Lund, Anne Stenbæk, Melani A. Atmodjo, Randi Engelberth Rasmussen, Isabel E. Moller, Simon Matthé Erstad, Ajaya Kumar Biswal, Debra Mohnen, Jozef Mravec, Yumiko Sakuragi
Publikováno v:
Frontiers in Plant Science, Vol 11 (2020)
The major cell wall pectic glycan homogalacturonan (HG) is crucial for plant growth, development, and reproduction. HG synthesis occurs in the Golgi and is catalyzed by members of the galacturonosyltransferase (GAUT) family with GAUT1 being the arche
Externí odkaz:
https://doaj.org/article/8923aac8186b4d8c902e795678b1234a
Autor:
Randi Engelberth Rasmussen, Isabel Moller, Melani A. Atmodjo, Anne Stenbaek, Christian Lund, Ajaya K. Biswal, Debra Mohnen, Yumiko Sakuragi, Jozef Mravec, Simon Matthé Erstad
Publikováno v:
Frontiers in Plant Science
Lund, C H, Stenbaek, A, Atmodjo, M A, Rasmussen, R E, Moller, I E, Erstad, S M, Biswal, A K, Mohnen, D, Mravec, J & Sakuragi, Y 2020, ' Pectin Synthesis and Pollen Tube Growth in Arabidopsis Involves Three GAUT1 Golgi-Anchoring Proteins : GAUT5, GAUT6, and GAUT7 ', Frontiers in Plant Science, vol. 11, 585774 . https://doi.org/10.3389/fpls.2020.585774
Frontiers in Plant Science, Vol 11 (2020)
Lund, C H, Stenbaek, A, Atmodjo, M A, Rasmussen, R E, Moller, I E, Erstad, S M, Biswal, A K, Mohnen, D, Mravec, J & Sakuragi, Y 2020, ' Pectin Synthesis and Pollen Tube Growth in Arabidopsis Involves Three GAUT1 Golgi-Anchoring Proteins : GAUT5, GAUT6, and GAUT7 ', Frontiers in Plant Science, vol. 11, 585774 . https://doi.org/10.3389/fpls.2020.585774
Frontiers in Plant Science, Vol 11 (2020)
The major cell wall pectic glycan homogalacturonan (HG) is crucial for plant growth, development, and reproduction. HG synthesis occurs in the Golgi and is catalyzed by members of the galacturonosyltransferase (GAUT) family with GAUT1 being the arche
Autor:
Yumiko Sakuragi, Simon Matthé Erstad
Publikováno v:
Bio Protoc
Cyanobacteria are photosynthetic bacteria that thrive in diverse ecosystems and play major roles in the global carbon cycle. The abilities of cyanobacteria to fix atmospheric CO(2) and to allocate the fixed carbons to chemicals and biofuels have attr
Autor:
Laura Maria Furelos Brey, Patrik R. Jones, Joshua L. Heazlewood, Alice Jara De Porcellinis, Hanne Nørgaard, Yumiko Sakuragi, Simon Matthé Erstad
Publikováno v:
Metabolic engineering. 47
Cyanobacteria fix atmospheric CO2 to biomass and through metabolic engineering can also act as photosynthetic factories for sustainable productions of fuels and chemicals. The Calvin Benson cycle is the primary pathway for CO2 fixation in cyanobacter
Autor:
Simon Matthé Erstad, Lorenzo Fimognari, Erick Miguel Ramos-Martinez, Randi Engelberth Rasmussen, Yumiko Sakuragi, Alice Jara De Porcellinis
Publikováno v:
Microbial Cell Factories
Rasmussen, R E, Erstad, S M, Ramos Martinez, E M, Fimognari, L, de Porcellinis, A J & Sakuragi, Y 2016, ' An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria ', Microbial Cell Factories, vol. 15, 186 . https://doi.org/10.1186/s12934-016-0587-3
Rasmussen, R E, Erstad, S M, Ramos Martinez, E M, Fimognari, L, de Porcellinis, A J & Sakuragi, Y 2016, ' An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria ', Microbial Cell Factories, vol. 15, 186 . https://doi.org/10.1186/s12934-016-0587-3
Background: Cyanobacteria are photosynthetic bacteria that thrive in diverse ecosystems and play major roles in the global carbon cycle. The abilities of cyanobacteria to fix atmospheric CO2 and to allocate the fixed carbons to chemicals and biofuels