- Volume 143, Issue 1, 1997

Malic enzyme was shown to be a major source of NADPH for the synthesis of storage lipid by Aspergillus nidulans. A previously produced mutant lacking malic enzyme activity (acuK248) accumulated only half the lipid (12%, w/w, of cell dry weight) accumulated by strains of A. nidulans possessing malic enzyme. When cultivated under conditions designed not to promote the production of storage lipid all three strains of A. nidulans studied contained equivalent amounts of lipid (5%, w/w, of cell dry weight). Thus malic enzyme did not appear to be limiting the synthesis of metabolically active lipid (e.g. membrane lipids). No evidence of a role for malic enzyme in the desaturation of fatty acids was found.

In timber infested by brown-rot fungi, a rapid loss of strength is attributed to production of hydroxyl radicals (HO.). The hydroxyl radicals are produced by the Fenton reaction [Fe(II)/H2O2], but the pathways leading to Fe(II) and H2O2 have remained unclear. Cellobiose dehydrogenase, purified from cultures of Coniophora puteana, has been shown to couple oxidation of cellodextrins to conversion of Fe(III) to Fe(II). Two characteristics of brown rot are release of oxalic acid and lowering of the local pH, often to about pH 2. Modelling of Fe(II) speciation in the presence of oxalate has revealed that Fe(II)-oxalate complexes are important at pH 4-5, but at pH 2 almost all Fe(II) is in an uncomplexed state which reacts very slowly with dioxygen. Diffusion of Fe(II) away from the hyphae will promote conversion to Fe(II)-oxalate and autoxidation with H2O2 as product. Thus the critical Fe(II)/H2O2 combination will be generated at a distance, enabling hydroxyl radicals to be formed without damage to the hyphae.

The influence of the rate of O2 supply to batch cultures on the contents of cytochromes bd and ‘o’ in NH4 +-grown Azotobacter vinelandii has been investigated. Difference spectra at room temperature (reduced + CO minus reduced) were recorded for whole cells of a wild-type strain and mutants which either lacked or over-produced the cytochrome bd-type terminal oxidase encoded by cydAB. A Tn5-B20 insertion in cydB in the former mutant also provided a means of monitoring cydAB gene expression from measurements of β-galactosidase activity. The content of cytochrome d in the wild-type, and the expression of cydAB-lacZ, in the mutant, increased as the O2 supply was raised, suggesting that O2 regulates cydAB expression even in the absence of diazotrophy. In a strain carrying a mutation in cydR, a regulatory gene upstream of cydAB, and which over-produces cytochrome bd, the responses to O2 supply during growth at different O2 supply rates were reversed. Changes in the content of a haemoprotein detectable in low temperature photodissociation spectra, and attributed to cytochrome b 595 -the high-spin cytochrome b component of the cytochrome bd complex - followed the changes in cytochrome d levels. CO difference spectra of both the wild-type strain and the cytochrome bd-deficient mutant revealed a haemoprotein with spectral characteristics similar to cytochrome o, the levels of which increased as the O2 supply was raised. These results are discussed with reference to previous reports of cytochrome changes in cells grown under N2-fixing conditions.

To investigate the biological role of thioredoxin in the facultative photosynthetic bacterium Rhodobacter sphaeroides, attempts were made to construct a thioredoxin-deficient mutant by site-specific mutagenesis, using the Tn903 kanamycin resistance gene for selection. In situ and Southern hybridization analyses have demonstrated that the TrxA-mutation is lethal for R. sphaeroides growth under anaerobic conditions with DMSO as terminal electron acceptor and under aerobic conditions. In addition, the DNA region upstream of the trxA initiation codon is essential for aerobic growth of R. sphaeroides. An ORF of unknown function was identified in this region and is suggested to encode a product essential for aerobic metabolism of R. sphaeroides. The mechanism of thioredoxin action was also analysed by using the procedure for gene replacement to introduce a Cys33 to Ser mutation into the trxA chromosomal copy. The strain carrying this mutation produced a thioredoxin impaired in its protein-disulfide reductase activity and was also not viable. These data suggest that the physiological function of R. sphaeroides thioredoxin is redox-dependent. Thioredoxin purified from R. sphaeroides was shown to have a glutathione-disulfide oxidoreductase activity typical of glutaredoxins. This unexpected finding suggests that R. sphaeroides thioredoxin, in contrast to Escherichia coli thioredoxin, has the potential to act in GSH-dependent processes. Thus, the fundamental role of R. sphaeroides thioredoxin in cell growth probably originates from the multiple functions it can serve in vivo.

Acinetobacter sp. strain YAA is able to use aniline and o-toluidine as the sole carbon and energy source. This strain has several different plasmids and acridine orange curing suggested that aniline utilization in strain YAA was plasmid-encoded. The gene cluster involved in aniline oxidation was cloned in Escherichia coli JM109 from the total plasmid DNA of strain YAA. A recombinant E. coli containing an 18.5 kb insert fragment showed yellow colouration on aniline-containing plates, indicating the formation of 2-hydroxymuconic semialdehyde from aniline. In addition, subcloning of a 9.0 kb Sall fragment from the insert in E. coli resulted in the accumulation of catechol. Southern hybridization studies indicated that the aniline oxygenase gene (atdA) was present on one of the plasmids, pYA1. These results suggest that in strain YAA aniline is degraded via catechol through a pathway involving meta-cleavage of the benzene-ring by plasmid-encoded genes including atdA.

The upper pathway operon of the toluene catabolic pathway of TOL plasmid pWW0 was shown to carry two open reading frames between the start of transcription and xylC (encoding benzaldehyde dehydrogenase), the first previously reported gene of the operon. These were designated xyIUW: xyIU encoded a protein of 131 amino acid residues (Mr 14244) which bore no relationship with any protein in the databases, and xyIW encoded a protein of 348 residues (Mr 36992) which was strongly homologous to other long-chain Zn-containing alcohol dehydrogenases. Extracts of Escherichia coli carrying xyIUW in expression vector pTrc99A contained a novel protein corresponding to XyIW, but no NAD+ -dependent dehydrogenase activity against benzyl alcohol, mandelate or benzylamine. A mini-Tn5 transposon carrying the meta pathway operon was constructed and from it two strains of Pseudomonas putida were constructed with the normally plasmid-encoded catabolic operons integrated into the chromosome. Three derivatives of plasmid pKNG101 containing modified xyIUW genes were constructed, two of which had frameshifts in xyIU and xyIW, respectively, and a third with a deletion from the 3′ end of xyIU into the 5′ end of xyIW. The wild-type genes of the two Pseudomonas strains were substituted by the mutant alleles by reverse genetics. The ability of the constructed mutant strains to utilize the aromatic substrates of the TOL pathway was not significantly affected.

The haloalkane dehalogenase (dhaA) gene from Rhodococcus rhodochrous NCIMB 13064 was cloned and sequenced. Its comparison with the previously studied dhIA gene from Xanthobacter autotrophicus GJ10 did not show homology. However, the amino acid sequences of the products of these genes showed approximately 30% identity and several of the catalytic amino acid residues were conserved in the NCIMB 13064 dehalogenase. A high level of dhaA expression was demonstrated in Escherichia coli cells and this gene was shown to encode a dehalogenase with the activity against chloroalkanes of chain length C3-C10. Also, some dehalogenase activity against 1,2-dichloroethane encoded by the cloned dhaA gene was detected. The analysis of NCIMB 13064 derivatives lacking dehalogenase activity showed that the dhaA gene was located on the 100 kbp pRTL1 plasmid. It was also found that reversible rearrangements of DNA in the dhaA region may be responsible for the control of expression of haloalkane dehalogenase in R. rhodochrous NCIMB 13064. A number of repeated and inverted sequences which may cause genetic instability at the locus were found in the haloalkane dehalogenase gene region.

A novel second streptomycete cyclophilin gene - designated sccypB - was isolated from a cosmid gene library of Streptomyces chrysomallus by using as gene probe a fragment of the previously isolated cyclophilin gene sccypA of the same organism. From its sequence the gene sccypB should encode a protein of Mr 18868. Expression of sccypB in Escherichia coli as a hexaHis-tagged fusion protein (H6ScCypB) and enzymic characterization of the purified protein showed that, like ScCypA, ScCypB is a peptidyl-prolyl cis-trans isomerase (PPIase). The specific activity and substrate specificity of the enzyme were comparable to that of ScCypA, but it was threefold less sensitive to inhibition by cyclosporin A (CsA). In contrast to ScCypA, which is abundant and exists in free and liganded form, ScCypB was 50- to 100-fold less abundant in cytosol-derived protein fractions of S. chrysomallus or Streptomyces lividans, as revealed by Western blot analyses, suggesting a specialized function for this enzyme in the streptomycete cell. Both sccypB and sccypA were found to be present as single copies in the genome of S. chrysomallus and hybridized to a single band in chromosomal DNAs of other streptomycetes. High-level expression of sccypB as well as of sccypA cloned into the expression vector pIJ702 did not produce detectable changes in growth and morphology of S. chrysomallus and S. lividans. Calculations of similarities to known cyclophilin sequences and construction of phylogenetic trees indicated that ScCypB and ScCypA are phylogenetically distant from each other. While ScCypA is clearly related to the eukaryotic cyclophilins, the analyses show the sequence of ScCypB to be the most divergent of all cyclophilin sequences, indicating that it possibly constitutes a cluster by itself.

The cycHJKL operon of Rhizobium leguminosarum has previously been shown to be involved in the maturation of cytochrome c, possibly by its involvement in the covalent attachment of haem to the apoprotein. Mutations in the cycHJKL genes abolish symbiotic nitrogen fixation. Here, we show that cyc mutants are pleiotropically defective. They have lost a high affinity iron acquisition system due to their failure to make or to export siderophores. They also accumulate protoporphyrin IX, the immediate precursor of haem. A model to account for these phenotypes is presented. Immediately upstream of cycH is a gene, lipA, which is predicted to encode an outer-membrane lipoprotein. Further upstream of lipA, there are two other genes, whose products are similar in sequence to the widespread family of two-component transcriptional regulators. These two genes, feuP and feuQ, did not affect the transcription of lipA, or of the cycHJKL operon. However, a mutation in feuQ also led to the loss of the high affinity iron uptake system, although siderophores were still produced.

The bfrA (Bordetella bronchiseptica ferric iron repressed outer-membrane protein) gene was cloned from Bordetella bronchiseptica by screening a library of TnphoA insertion mutants for iron-repressed fusions to phoA. The bfrA gene encoded an 80 kDa outer-membrane protein with a high level of amino acid sequence identity to several bacterial proteins belonging to the family of Ton B-dependent outer-membrane receptors. BfrA was especially homologous to Cir of Escherichia coli, IrgA of Vibrio cholerae and to three previously characterized ferric enterobactin receptors. DNA hybridization results indicated that bfrA was not present in other Bordetella species. Expression of the bfrA gene was induced by low iron availability from a promoter overlapped by a sequence resembling a consensus Fur-binding sequence, and bfrA expression was derepressed in a B. bronchiseptica fur mutant. Utilization of the Bordetella siderophore alcaligin and the exogenous siderophore enterobactin was unaffected in bfrA mutants. Upon attempting to find the specificity of BfrA, 2,3-dihydroxybenzoylserine (DHBS) was shown to be utilized in a bfeA (Bordetella ferric enterobactin receptor gene)-dependent manner by B. bronchiseptica and B. pertussis. In addition, the hydroxamate siderophores ferrichrome and desferrioxamine B, and the iron source haemin were shown to be utilized independently of bfeA and bfrA in B. bronchiseptica and B. pertussis.

A mutation, bofC1, that restores σK activation in Bacillus subtilis strains unable to produce active σG has been identified. This mutation defines a new sporulation gene, bofC, that has been cloned and sequenced and encodes a 19 kDa protein. bofC is transcribed in the forespore by RNA polymerase associated with the transcription factors σF (EσF) and σG (EσG). BofC acts negatively on SpolVB and the results described suggest that BofC regulates SpolVB activity and its intercompartmental signalling role in the σK checkpoint

Two new cellulose-growth specific (cel) cDNAs, cel2 and cel4, have been isolated from an Agaricus bisporus cDNA expression library by immunoscreening with an A. bisporus anti-endoglucanase antibody. The deduced amino acid sequences showed that both CEL2 and CEL4 proteins have a modular structure consisting of a fungal-type cellulose-binding domain (CBD) and a catalytic domain separated by a linker region rich in Pro, Ser and Thr. The CEL2 and CEL4 catalytic domains were homologous to fungal cellobiohydrolases (CBH) in family 7 and to fungal mannanases in family 5 of the glycosyl hydrolases, respectively. A previously isolated cDNA derived from a constitutive gene was also sequenced. The deduced amino acid sequence corresponded to 5-aminolaevulinic acid synthase (ALA), the first enzyme in the haem biosynthetic pathway, and was most similar to other fungal ALAs. RNA analysis showed that the expression of cel2 and cel4 genes was induced by cellulose and repressed by glucose, fructose and lactose. The soluble cellulose derivative CM-cellulose induced mRNA accumulation for cel1 but not cel2, cel3 or cel4. Mannitol, maltose, sorbitol and glycerol decreased cel2 and cel4 mRNA levels to different extents, cel1, cel2, cel3 and cel4 mRNAs all disappeared after the addition of glucose with apparent half-lives of less than 20 min. Whether cel mRNAs have short half-lives or glucose affects the stability of cel transcripts remains to be investigated.

Phytases catalyse the hydrolysis of phytate (myo-inositol hexakisphosphate) to myo-inositol and inorganic phosphate. In this study genes encoding novel phytases from two different filamentous fungi, Aspergillus terreus strain 9A-1 and Myceliophthora thermophila were isolated. The encoded PhyA phytase proteins show 60% (A. terreus) and 48% (M. thermophila) identity, respectively, to the PhyA of Aspergillus niger and have 21-29% identity compared to other histidine acid phosphatases. All three PhyA proteins, in contrast to the A. niger pH 2.5-optimum acid phosphatase, prefer phytic acid as substrate and show enzyme activity at a broad range of acidic pH values. Based on their enzyme characteristics and protein sequence homology, the phytases form a novel subclass of the histidine acid phosphatase family.