Regulation of sulfur metabolism in • plants: First molecular approaches
Brunold C, Rennenberg H: Regulation of sulfur metabolism in • plants: first molecular approaches. Prog Bot 1997, 58:164-186. An excellent recent review on the topic of plant sulfur metabolism.
Edited by Cram WJ, De Kok LJ, Stulen I, Brunold C, Rennenberg H. Leiden: Backhuys Publishers
Schwenn J: Assimilatory reduction of inorganic sulphate. In • Sulphur Metabolism in Higher Plants: Molecular, Ecophysiological and Nutritional Aspects. Edited by Cram WJ, De Kok LJ, Stulen I, Brunold C, Rennenberg H. Leiden: Backhuys Publishers; 1997:3958. See annotation [1*].
The enzyme •• involved in sulfation of the turgorin, gallic acid 4-O-(β-D-glucopyranosyl-6′-sulfate) is pulvini-localized in Mimosa pudica
Varin L, Chamberland H, Lafontaine JG, Richard M: The enzyme •• involved in sulfation of the turgorin, gallic acid 4-O-(β-D-glucopyranosyl-6′-sulfate) is pulvini-localized in Mimosa pudica. Plant J 1997, 12:831-838. An important contribution to the field of sulfation in plants, a poorly understood area of sulfate metabolism.
Biochemistry and •• molecular biology of plant sulfotransferases
Varin L, Marsolais F, Richard M, Rouleau M: Biochemistry and •• molecular biology of plant sulfotransferases. FASEB J 1997, 11:517-525. See annotation [4**].
Cysteine synthesis in plants: Protein-•• protein interactions of serine acetyltransferase from Arabidopsis thaliana
Bogdanova N, Hell R: Cysteine synthesis in plants: protein-•• protein interactions of serine acetyltransferase from Arabidopsis thaliana. Plant J 1997, 11:251-262. Not discussed in our review is the topic of complex formation between Oacetylserine (thiol) lyase and serine acetyltransferase, which together form cysteine synthetase. The function of this complex is not understood. This is the first attempt to define the complex at the molecular level.
