Mariemma Ortega de López2026-03-222026-03-221998http://erevistas.saber.ula.ve/index.php/medula/article/download/5648/5451https://andeanlibrary.org/handle/123456789/60013Citaciones: 1In E. coli K12, both narC-8 y narC-78 mutations of the narC(narGHJI) operon confer the Nit- phenotype and block the expression of the F(moa::lac)25 transcriptional fusion. In the present work, both mutations were comparatively studied and identifyed as narG-. Trans-dominance analysis showed that Nit+ restauration levels were influenced by growing with molybdenum, particular mutation and bacterianne genotype. Immunoelectrophoresis assay indicated differences in the NRA asubunit recognition. Mapped-linking reveled the sequential order ... narG-78... narG-8 ... trp. Genetic analysis evidenced in isogenic strains that, the narG+ substitutive recombination by narG-, restored the fusion expression and viceverse. Surprisingly, trans-dominance analysis showed in isogenic strains that Nit+ restoration was (i) moa(ABCDE)+ operon mediated and (ii) F(moa::lac)25 narG-78 double mutation conditioned. The results obtained confirmed the narG+ regulatory role over the moa operon transcriptional expression and suggested a regulatory role of both (narG+,moa) in the nitrate respiration.esOperonBiologyMolecular biologyEscherichia coliGeneGeneticsarticle