Cysteine metabolism in cultured tobacco cells

Transported L-[35S]cysteine was rapidly metabolized by cultured tobacco cells when supplied to the cells at 0.02 millimolar or 0.5 millimolar. The internal cysteine pool was expandable to approximately 2400 nmoles per gram fresh weight. The 35S label derived from cysteine was found in several metabo...

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Bibliographic Details
Published in:Plant physiology (Bethesda) 1980-01, Vol.65 (1), p.151-155
Main Authors: Harrington, H.M, Smith, I.K
Format: Article
Language:English
Subjects:
Amino acids
Cell culture techniques
Cell growth
Cellular metabolism
Cultured cells
Enzymes
Salmonella
Sulfates
Sulfides
Sulfur
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Summary:Transported L-[35S]cysteine was rapidly metabolized by cultured tobacco cells when supplied to the cells at 0.02 millimolar or 0.5 millimolar. The internal cysteine pool was expandable to approximately 2400 nmoles per gram fresh weight. The 35S label derived from cysteine was found in several metabolites. The amount of label in glutathione and sulfate was directly proportional to the internal L-[35S]cysteine, while the levels of labeled methionine and protein were apparently independent of internal labeled cysteine. Cysteine was more rapidly metabolized when the external cysteine concentration was low (0.02 millimolar) with up to 90% of the 35S label present as compounds other than cysteine. The initial step in cysteine degradation yielded pyruvate, sulfide, and presumably NH4+. Stoichiometry studies using extracts prepared from acetone powders of tobacco cells indicated that pyruvate and sulfide were produced in a 1:1 ratio. The catabolic reaction was linear with respect to time and amount of protein and had a pH optimum of 8 in crude extracts. Preliminary kinetic data indicated the Km to be approximately 0.2 millimolar. The extractable degradative activity was enhanced 15- to 20-fold by preincubating the cells for 24 hours in 0.5 millimolar cysteine. The extractable specific enzyme activity roughly reflected the growth curve of the cells in culture. Maximal cysteine degradation was observed in extracts prepared from late log phase cultures that were preincubated in cysteine, while little activity was found in similar extracts from stationary phase cultures. These results are consistent with an inducible catabolic enzyme similar to the cysteine desulfhydrase from bacteria.
ISSN:0032-0889
1532-2548
DOI:10.1104/pp.65.1.151