M
Margret Sauter
Researcher at University of Kiel
Publications - 95
Citations - 6046
Margret Sauter is an academic researcher from University of Kiel. The author has contributed to research in topics: Phytosulfokine & Meristem. The author has an hindex of 43, co-authored 89 publications receiving 5169 citations. Previous affiliations of Margret Sauter include University of Hamburg & Michigan State University.
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Journal ArticleDOI
Arabidopsis RAP2.2: An ethylene response transcription factor that is important for hypoxia survival
Manuela Hinz,Iain W. Wilson,Jun Yang,Katharina Buerstenbinder,Danny J. Llewellyn,Elizabeth S. Dennis,Margret Sauter,Rudy Dolferus +7 more
TL;DR: The results provide a new insight on the regulation of gene expression under low-oxygen conditions and show that lighting plays an important regulatory role and is intertwined with hypoxia conditions; both stimuli may act collaboratively to regulate the hypoxic response.
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Methionine salvage and S-adenosylmethionine: essential links between sulfur, ethylene and polyamine biosynthesis
TL;DR: The subcellular compartmentalization of Met fluxes will be discussed in the present review with respect to regulation and communication with the sulfur assimilation pathway, the network of the aspartate-derived amino acids and the demand for production of SAM.
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Plant cyclins: a unified nomenclature for plant A-, B- and D-type cyclins based on sequence organization.
Jean Pierre Renaudin,John H. Doonan,Donna Freeman,Junji Hashimoto,Heribert Hirt,Dirk Inzé,Thomas Jacobs,Hiroshi Kouchi,Pierre Rouzé,Margret Sauter,Arnould Savouré,David A. Sorrell,Venkatesan Sundaresan,James A. H. Murray +13 more
TL;DR: The most important results obtained in this study are presented, and are extended to the case of plant D-type cyclins, in which three groups are identified.
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Adventitious Root Growth and Cell-Cycle Induction in Deepwater Rice
René Lorbiecke,Margret Sauter +1 more
TL;DR: Deepwater rice (Oryza sativa) is adapted to survive conditions of severe flooding over extended periods of time, suggesting that ethylene acts systemically and that root primordia respond to ethylene at an early developmental stage.
Journal ArticleDOI
Root responses to flooding.
TL;DR: This review summarizes current findings on root development and de novo root genesis in response to flooding and indicates that flood-resistant plants possess a number of adaptations that help maintain oxygen supply to the root.