Pedro M. Sanllorenti scite author profile

Plants respond to pathogen infection and environmental stress by regulating the coordinate expression of many stress-related genes. In plants, the expression of the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) is induced under environmental stress. This work was aimed at investigating whither the expression pattern of cytosolic GAPDH is also modulated upon infection of potato plants (Solanum tuberosum L.) with the late blight fungal agent Phytophthora infestans. Northern blot analysis showed the accumulation of the GAPDH gene transcripts in leaves and stems of inoculated potato plants. When tuber discs were treated with eicosapentaenoic acid (EPA), an elicitor found in P. infestans, GAPDH gene transcripts level increased. The increase was parallel to that of the hydroxymethyl glutharyl coenzyme A reductase (HMGR), an enzyme involved in pathogen defense reactions. Glucans obtained from P. infestans cell wall acts synergistically with EPA on GAPDH and HMGR gene induction. Salicylic acid, an endogenous signal for inducing systemic acquired resistance, was also effective in stimulating the GAPDH transcript accumulation in potato leaves. These experiments suggest that related multi-component factors, which are part of both primary and secondary metabolism, are probably regulated by similar signal transduction pathways when they are induced under biotic or abiotic stress conditions.

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The mouse liver content of carbonic anhydrase III and glutathione S-tranferases A3 and P1 depend on dietary supply of methionine and cysteine

Ronchi

Conde

Guillemot

et al. 2004

The International Journal of Biochemistry & Cell Biology

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Dietary level of protein regulates glyceraldehyde-3-phosphate dehydrogenase content and synthesis rate in mouse liver cytosol

1992

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The content of liver cytosolic proteins was studied in mice subjected to protein depletion followed by refeeding with a normal diet. Depletion elicited either the accumulation or the decrease of several polypeptides, being the early increase of a M(r) 36,000 polypeptide the most pronounced change observed. The refeeding with a normal diet for 2 days caused a return of the cytosol protein composition to that of normally fed animals. The M(r) 36,000 polypeptide was identified as glyceraldehyde-3-phosphate dehydrogenase (GAPDH). Its molecular weight, the sequence of its first twenty amino acid residues, its amino acid composition and its antigenic properties were found to be similar with those of GAPDH from different mammalian cells. During the first 2 days of protein depletion, both the GAPDH polypeptide content and activity increased. Thereafter, the enzymatic activity of GAPDH decreased, whereas GAPDH protein mass decreased in a lesser extent. The accumulation of GAPDH and other particular polypeptides in the cytosols of protein depleted mice was associated with an increased synthesis. The refeeding with a normal diet caused an immediate return to the synthesis pattern of normal livers.

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