RESUMEN
NAD-dependent isocitrate dehydrogenase (IDH) is a tricarboxylic acid cycle enzyme that produces 2-oxoglutarate, an organic acid required by the glutamine synthetase/glutamate synthase cycle to assimilate ammonium. Three Arabidopsis (Arabidopsis thaliana) IDH mutants have been characterized, corresponding to an insertion into a different IDH gene (At5g03290, idhv; At4g35260, idhi; At2g17130, idhii). Analysis of IDH mRNA and protein show that each mutant lacks the corresponding gene products. Leaf IDH activity is reduced by 92%, 60%, and 43% for idhv, idhi, and idhii, respectively. These mutants do not have any developmental or growth phenotype and the reduction of IDH activity does not impact on NADP-dependent isocitrate dehydrogenase activity. Soil-grown mutants do not exhibit any alterations in daytime sucrose, glucose, fructose, citrate, ammonium, and total soluble amino acid levels. However, gas chromatography-mass spectrometry metabolic profiling analyses indicate that certain free amino acids are reduced in comparison to the wild type. These data suggest that IDH activity is not limiting for tricarboxylic acid cycle functioning and nitrogen assimilation. On the other hand, liquid culture-grown mutants give a reduced growth phenotype, a large increase in organic acid (citrate is increased 35-fold), hexose-phosphate, and sugar content, whereas ammonium and free amino acids are moderately increased with respect to wild-type cultures. However, no significant changes in 2-oxoglutarate levels were observed. Under these nonphysiological growth conditions, pyridine nucleotide levels remained relatively constant between the wild-type and the idhv line, although some small, but significant, alterations were measured in idhii (lower NADH and higher NADPH levels). On the other hand, soil-grown idhv plants exhibited a reduction in NAD and NADPH content.