Sarah G. Mugford   Naoko Yoshimoto   Michael Reichelt   Markus Wirtz   Lionel Hill   Sam T. Mugford   Yoshimi Nakazato   Masaaki Noji   Hideki Takahashi   Robert Kramell   Tamara Gigolashvili   Ulf-Ingo Fluegge   Claus Wasternack   Jonathan Gershenzon   Ruediger Hell   Kazuki Saito   Stanislav Kopriva   
PLANT CELL 21(3) 910-927 Mar 2009 [Refereed]
Plants can metabolize sulfate by two pathways, which branch at the level of adenosine 5'-phosphosulfate (APS). APS can be reduced to sulfide and incorporated into Cys in the primary sulfate assimilation pathway or phosphorylated by APS kinase to 3...
Plants play an important role in the global sulphur cycle because they assimilate sulphur from the environment and build it into methionine and cysteine. Several genes of the sulphur assimilation pathway are regulated by microRNA-395 (miR395) that...
Ser acetyltransferase (SERAT), which catalyzes O-acetyl-Ser (OAS) formation, plays a key role in sulfur assimilation and Cys synthesis. Despite several studies on SERATs from various plant species, the in vivo function of multiple SERAT genes in p...
Naoko Yoshimoto, Kazuki Saito(Part:Joint author, Identification of genes potentially encoding S-oxygenation enzymes for the biosynthesis of S-alk(en)yl-L-cysteine sulfoxides in onion. (pp 201–204))
Naoko Yoshimoto, Eri Inoue, Akiko Watanabe-Takahashi, Kazuki Saito, Hideki Takahashi(Part:Joint author, Post-transcriptional control of high-affinity sulfate transporters for uptake of sulfate in roots of Arabidopsis thaliana. (pp 179–183))