Two NADPH-cytochrome P450 reductase-encoding cDNAs were isolated from an Arabidopsis cDNA library by metabolic interference in a Saccharomyces cerevisiae mutant disrupted for its endogenous cpr1 gene. ATR1 encodes a protein of 692 amino acids, while ATR2 encodes either a 712-residue protein (ATR2-1), or a 702-residue protein (ATR2-2) depending on the choice of the initiation codon. Comparative analysis of ATR1 and ATR2-1 indicates 64% amino acid sequence identity and the absence of conservation in the third base of conserved amino acid codons. The two Arabidopsis reductases are encoded by distinct genes whose divergence is expected an early event in angiosperms evolution. A poly(Ser/Thr) stretch reminiscent of a plant chloroplastic targeting signal is present at the ATR2-1 N-terminal end but absent in ATR1. The cDNA open reading frames were expressed in yeast. The recombinant polypeptides were found present in the yeast endoplasmic reticulum membrane and exhibited a high specific NADPH-cytochrome c reductase activity. To gain more insight into the respective functions of the two reductases, the Arabidopsis cDNA encoding cinnamate 4-hydroxylase (CYP73A5) was cloned and co-expressed with ATR1 or ATR2 in yeast. Biochemical characterization of the Arabidopsis ATR1/CYP73A5 and ATR2-1/CYP73A5 systems demonstrates that the two distantly related Arabidopsis reductases similarly support the first oxidative step of the phenylpropanoid general pathway.
The complete nucleotide sequence of the open reading frame (ORF) located upstream of the glnA structural gene for glutamine synthetase (GS) in Azospirillum brasilense Sp7 was determined. This ORF, which codes for a 12 kDa protein, was identified as glnB, the structural gene for the PII protein, a component of the adenylylation cascade involved in the regulation of GS activity in some gram-negative bacteria. Transcription analysis and mRNA mapping of glnB and glnA of A. brasilense was performed with bacteria grown under different physiological conditions. The glnA gene can be transcribed either as a glnB-A mRNA of 2.4 kb or as a glnA mRNA of 1.5 kb. Differential expression of the two mRNAs was found to depend on the nitrogen source. The glnB-A mRNA was the major transcript under nitrogen fixation conditions, while the synthesis of the glnA mRNA was almost completely abolished. The glnA mRNA was predominantly produced in NH4(+)-containing medium. Transcription start site analysis revealed the presence of three different types of nitrogen-regulated promoters. GlnB-A mRNA was transcribed selectively from tandem promoters. One of them is similar to the NtrA-dependent promoter and the other to the Escherichia coli sigma 70 promoter. The synthesis of glnA mRNA was regulated by a promoter, which was repressed (or non-activated) only under conditions of nitrogen fixation, when moleuclar nitrogen was the sole nitrogen source. The transcriptional initiation site in front of glnA is not preceded by a canonical E. coli sigma 70 promoter. A sequence reminiscent of the NtrA-dependent promoter consensus, except for a fundamental mismatch, was found at positions -33 to -21. This sequence overlapped a putative "weak" NtrC-binding site, similar to those identified in enteric bacteria. From these results, it is postulated that glnA mRNA is controlled by a novel type of nitrogen-regulated promoter.
A 30 kb DNA region from Azospirillum brasilense Sp7, containing the nitrogenase structural genes (nifHDK), has been cloned. The presence of nif genes, in the 20 kb located next to nifHDK, was explored by Tn5 mutagenesis after subcloning various restriction fragments in the broad-host-range suicide vehicle pSUP202. Over 25 mutations due to Tn5 random insertions were obtained in the 20 kb and each recombined into the genome of strain Sp7. Four new nif loci were identified, located at about 4, 9, 12 and 18 kb downstream from nifK respectively. Hybridization with heterologous nif probes from Klebsiella pneumoniae, Bradyrhizobium japonicum and Azorhizobium caulinodans was performed to characterize the new nif regions. The region proximal to nifK appears to contain nifE and the region distal to nifK contains genes homologous to nifUS and fixABC. nifgene(s) from the fourth locus were not identified. Mutants in this locus, which were devoid of nitrogenase activity when tested under nitrogen-free conditions, displayed a high nitrogenase activity when glutamate was added to the growth medium. This phenomenon was also observed with mutants of the fixABC homology region, but to a lesser extent. Homology between strain Sp7 total DNA and a nifB-containing probe from B. japonicum was detected, although the hybridizing region was not part of the nif cluster described above.
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