An oxygen-dependent coproporphyrinogen oxidase encoded by the hemF gene of Salmonella typhimurium.

The 8th step in the 10-step heme biosynthetic pathway of Salmonella typhimurium is the oxidation of coproporphyrinogen III to protoporphyrinogen IX. On the basis of genetic studies, we have suggested that this reaction may be catalyzed by either of two different enzymes, an oxygen-dependent one encoded by hemF or an oxygen-independent enzyme encoded by hemN. Here, we report the cloning of the S. typhimurium hemF gene and its DNA sequence. The predicted amino acid sequence of the HemF protein is 44% identical to that of the coproporphyrinogen oxidase encoded by the yeast HEM13 gene. The wild-type S. typhimurium strain LT-2 produces an oxygen-dependent coproporphyrinogen oxidase activity detectable in crude extracts, which is not found in hemF mutants and is overproduced in strains carrying the hemF gene on a multicopy plasmid. the hemF gene is the second gene in an operon with an upstream gene with an unknown function, whose amino acid sequence suggests a relation to amidases involved in cell wall synthesis or remodeling. The upstream gene and hemF are cotranscribed from a promoter which was mapped by primer extension. A weaker, hemF-specific promoter is inferred from the behavior of an omega-Cm insertion mutation in the upstream gene. Although this insertion decreases expression of beta-galactosidase about 7.5-fold when placed upstream of a hemF-lacZ operon fusion, it still allows sufficient HemF expression from an otherwise wild-type construct to confer a Hem+ phenotype. The hemF operon is transcribed clockwise with respect to the genetic map.     

Coordinate expression of coproporphyrinogen oxidase and cytochrome c6 in the green alga Chlamydomonas reinhardtii in response to changes in copper availability.

To maintain photosynthetic competence under copper-deficient conditions, the green alga Chlamydomonas reinhardtii substitutes a heme protein (cytochrome c6) for an otherwise essential copper protein, viz. plastocyanin. Here, we report that the gene encoding coproporphyrinogen oxidase, an enzyme in the heme biosynthetic pathway, is coordinately expressed with cytochrome c6 in response to changes in copper availability. We have purified coproporphyrinogen oxidase from copper-deficient C.reinhardtii cells, and have cloned a cDNA fragment which encodes it. Northern hybridization analysis confirmed that the protein is nuclear-encoded and that, like cytochrome c6, its expression is regulated by copper at the level of mRNA accumulation. The copper-responsive expression of coproporphyrinogen oxidase parallels cytochrome c6 expression exactly. Specifically, the copper-sensing range and metal selectivity of the regulatory components, as well as the time course of the responses, are identical. Hence, we propose that the expression of these two proteins is controlled by the same metalloregulatory mechanism. Our findings represent a novel metalloregulatory response in which the synthesis of one redox cofactor (heme) is controlled by the availability of another (Cu).     

Molecular cloning of human lysyl oxidase and assignment of the gene to chromosome 5q23.3-31.2.

Lysyl oxidase (EC 1.4.3.13) initiates the crosslinking of collagens and elastin by catalyzing oxidative deamination of the epsilon-amino group in certain lysine and hydroxylysine residues. We report here on the isolation and characterization of cDNA clones for the enzyme from human placenta and rat aorta lambda gt11 cDNA libraries. A cDNA clone for human lysyl oxidase covers all the coding sequences, 230 nucleotides of the 5' and 299 nucleotides, of the 3' untranslated sequences, including a poly(A) tail of 23 nucleotides. This cDNA encodes a polypeptide of 417 amino acid residues, including a signal peptide of 21 amino acids. Sequencing of two rat lysyl oxidase cDNA clones indicated six differences between the present and the previously published sequence for the rat enzyme [Trackman et al. (1990) Biochemistry 29: 4863-4870], resulting in frameshifts in the translated sequence. The human lysyl oxidase sequence was found to be 78% identical to the revised rat sequence at the nucleotide level and 84% identical at the amino acid level, with the degree of identity unevenly distributed between various regions of the coded polypeptide. Northern blot analysis of human skin fibroblasts RNA indicated that the human lysyl oxidase cDNA hybridizes to at least four mRNA species; their sizes are about 5.5, 4.3, 2.4, and 2.0 kb. Analysis of a panel of 25 human x hamster cell hybrids by Southern blotting mapped the human lysyl oxidase gene to chromosome 5, and in situ hybridization mapped it to 5q23.3-31.2.(ABSTRACT TRUNCATED AT 250 WORDS)     

Structure of soybean Kunitz trypsin inhibitor mRNA determined from cDNA by using oligodeoxynucleotide primers

Oligodeoxynucleotides complementary to the deduced mRNA sequence of soybean Kunitz trypsin inhibitor (KTI) were used to prime the synthesis of cDNA from soybean cotyledon total poly(A) RNA. The primed cDNA was used to select clones from a Glycine max cotyledon cDNA library. Two out of twelve hybridizing clones were shown to contain KTI cDNA. The nucleotide sequence of one clone, pSTI 9-2, was determined and it was found to encompass the complete protein coding region of KTI excet for three C-terminal residues. Trypsin inhibitor is synthesized with a 25 amino acid hydrophobic N-terminal sequence presumed to be a signal peptide. The mature polypeptide encoded by pSTI 9-2 agrees with the published amino acid composition of KTI, but contains two discrepancies at the peptide sequence level.     

Cloning and sequence analysis of a cDNA encoding ferric leghemoglobin reductase from soybean nodules.

A cDNA encoding soybean (Glycine max [L.] Merr) ferric leghemoglobin reductase (FLbR), an enzyme that is postulated to play an important role in maintaining leghemoglobin in its functional ferrous state, has been cloned and characterized. A group of highly degenerate oligonucleotides deduced from the N-terminal amino acid sequence of FLbR was used to prime the polymerase chain reaction (PCR) on soybean nodule mRNA and cDNA. A full-length clone of FLbR cDNA was isolated by screening a lambda gt11 soybean nodule cDNA library using the specific PCR-amplified FLbR cDNA fragment as a probe. The cDNA contained about 1.8 kb and had a coding sequence for 523 amino acids with a predicted molecular mass of 55,729 D, which included a putative 30-residue signal peptide and a 493-residue mature protein. Computer-aided analysis of the deduced FLbR amino acid sequence showed considerable homology (varied from 20-50% with enzymes and species) to dihydrolipoamide dehydrogenase (EC 1.8.1.4), glutathione reductase (EC 1.6.4.2), mercuric reductase (EC 1.16.1.1), and trypanothione reductase (EC 1.6.4.8) in a superfamily of pyridine nucleotide-disulfide oxidoreductases from various organisms. Northern blot analysis using FLbR cDNA as a probe showed that the FLbR gene was expressed in soybean nodules, leaves, roots, and stems, with a greater level of expression in nodules and leaves than in roots and stems. Southern blot analysis of the genomic DNA showed the presence of two homologous FLbR genes in the soybean genome.     

Negative control of yeast coproporphyrinogen oxidase synthesis by heme and oxygen

Coproporphyrinogen oxidase (EC 1.3.3.3.) catalyzes the sixth enzymic step of the heme biosynthetic pathway. Coproporphyrinogen oxidase activity is increased in mutant cells of Saccharomyces cerevisiae deficient in heme synthesis and this effect can be partially reversed by the addition of exogenous hemin. A similar increase is found in wild type yeast cells grown anaerobically. The strain-dependent increase varies between 5- and 40-fold. The activity changes are paralleled by similar changes in the steady-state amounts of coproporphyrinogen oxidase protein determined by immunoblotting and the steady-state concentrations of coproporphyrinogen oxidase mRNA estimated by in vitro translation/immunoprecipitation. This demonstrates that coproporphyrinogen oxidase synthesis is regulated by heme and oxygen at a pretranslational level in a negative fashion.     

Characterization of nodule-specific cDNA clones from Sesbania rostrata and expression of the corresponding genes during the initial stages of stem nodules and root nodules formation

We have constructed a Sesbania rostrata stem nodule-specific cDNA library. By screening with heterologous probes from pea and soybean, we have isolated several nodulin cDNA clones. On the basis of nucleotide and amino acid sequence homology, two nearly full-length cDNA clones coding for two different leghemoglobin-like proteins have been identified. The inserts of two other clones reveal a high degree of amino acid sequence homology (81% and 72%) to the early nodulin Enod2 from soybean; the characteristic heptapeptide repeat units PPHEKPP and PPYEKPP of the soybean Enod2 are conserved in the proteins encoded by these Sesbania cDNA clones. The time course of Enod2 and leghemoglobin mRNA appearance during the formation of stem nodules and root nodules on S. rostrata was analyzed by northern blot hybridization. Significant differences were found for the initiation of mRNA accumulation of these nodulins between S. rostrata and soybean.     

Studies on cytochrome c oxidase, VIII. The amino acid sequence of polypeptide VII.

The sequence determination of polypeptide VII from beef heart cytochrome c oxidase is described. The amino acid sequence is deduced from overlapping tryptic peptides and peptides obtained after cleavage with Staphylococcus aureus protease. The protein consists of 85 amino acids corresponding to a Mr of 10026, in agreement with a value of 9500 obtained by sodium dodecyl sulfate gel electrophoresis. The amino acid sequence around the only methionine present is very similar to sequences around the invariant heme binding methionine of the cytochrome c family. This similarity suggests that the protein is one of the heme bindings subunits of the oxidase.     

Induction of Specific mRNAs in Cultured Soybean Cells during Cytokinin or Auxin Starvation

We report the isolation of five cDNA clones whose corresponding mRNAs accumulate in cultured soybean cells (Glycine max cv Mandarin) during cytokinin or auxin starvation. The levels of three of these mRNAs decrease rapidly after addition of 5 micromolar zeatin to cytokinin-starved cells or after addition of 10 micromolar α-naphthaleneacetic acid to auxin-starved cells. These mRNAs also exhibit various patterns of accumulation in the tissues of intact soybean plants. Partial nucleotide sequence analysis demonstrates that one of the cDNAs in the collection, called SAM46, is 46% identical at the amino acid level to the iron superoxide dismutase gene of Escherichia coli. Expression of this cDNA in Escherichia coli cells results in detectable iron superoxide dismutase activity, confirming the identity of the cDNA.     

Novel, highly expressed late nodulin gene (LjNOD16) from Lotus japonicus.

We have isolated a Lotus japonicus cDNA corresponding to a highly abundant, late nodule-specific RNA species that encodes a polypeptide with a predicted molecular mass of 15.6 kD. The protein and its corresponding gene were designated Nlj16 and LjNOD16, respectively. LjNOD16 was found to be expressed only in the infected cells of L. japonicus nodules. Related DNA sequences could be identified in the genomes of both Glycine max and Medicago sativa. In the latter, a homologous mRNA species was detected in the nodules. Unlike LjNOD16, its alfalfa homologs appear to represent low-abundance mRNA species. However, the proteins corresponding to the LjNOD16 and its alfalfa homolog could be detected at similar levels in nodules but not in roots of both legume species. The predicted amino acid sequence analysis of nodulin Nlj16 revealed the presence of a long alpha-helical region and a positively charged C terminus. The former domain has a very high propensity to form a coiled-coil type structure, indicating that nodulin Nlj16 may interact with an as-yet-unidentified protein target(s) in the nodule-infected cells. Homology searches revealed no significant similarities to any known sequences in the databases, with the exception of two related, anonymous Arabidopsis expressed sequence tags.