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RESEARCH PRODUCT

Cytokinin affects nitrate reductase expression through the modulation of polyadenylation of the nitrate reductase mRNA transcript

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Abstract Cytokinin (CK) and low-intensity light effects in modulating nitrate reductase (NR) activity, NR protein and NR encoding mRNAs were studied in tobacco cell suspension cultures. NR activity was strikingly enhanced by CK in dark- as well as in light-grown cells whereas it was less affected by light alone. NR protein accumulation was stimulated by the hormone in the light only; then a CK light-dependent regulation of NR activity was suggested. Light enhanced the steady-state levels of hybridisable total NR mRNA and a light-inductive effect was also observed after transfer from dark to light; this effect was dependent on sucrose supply and was enhanced in CK-supplied cells. NR poly(A) mRNA were assayed in cell poly(A) RNA, purified by oligo(dT)-cellulose chromatography. In growing cells CK enhanced (i) the steady state levels of hybridisable NR poly(A) mRNA and (ii) the ratio of hybridisable NR poly(A) mRNA to total hybridisable NR mRNA. CK-induced accumulation of hybridisable NR poly(A) mRNA resulted in a correlative enhancement of the accumulation of NR protein, provided cells were grown in the light. Overall stimulatory effects of CK on the amounts of bulk poly(A) mRNA and on the mean-size of mRNA poly(A) tails were also observed. It is suggested that CK effect on gene expression involves a modulation of mRNA polyadenylation.