Phylogenetic relationship of the genus Gilbertella and related genera within the order Mucorales based on 5.8 S ribosomal DNA sequences

The complete ITS (internal transcribed spacer) region coding the ITS1, the ITS2 and the 5.8S rDNA was amplified by polymerase chain reaction from two strains of Gilbertella persicaria, six strains in the Mucoraceae (Mucor piriformis, M. rouxii, M. circinelloides, Rhizomucor miehei, R. pusillus and R. tauricus) and four strains representing three species of the Choanephoraceae (Blakeslea trispora, Choanephora infundibulifera and Poitrasia circinans). Sequences of the amplified DNA fragments were determined and analysed. G. persicaria belongs to the monogeneric family (Gilbertellaceae), however, originally it was described as Choanephora persicaria. The goal of this study was to reveal the phylogenetic relationship among fungi belonging to Gilbertellaceae, Choanephoraceae and Mucoraceae. Our results support that the "intermediate" position of this family is between Choanephoraceae and Mucoraceae.

Sexual reactions in Mortierellales are mediated by the trisporic acid system

Several species of Mortierella (Mortierellales, Zygomycota) were examined for substances regulating their sexual reactions. Compounds isolated from both mated and single growing Mortierella strains were purified by thin layer chromatography. Some of these compounds showed UV absorbance-characteristics similar to those of trisporoids, a group of compounds involved in sexual regulation in Mucorales. A compound with a 4-dihydromethyltrisporate-like absorbance spectrum was detected. To test for the interspecific sexual responses typically induced by trisporoids, the compounds extracted from Mortierella spp. were tested against the Mucorales Mucor mucedo and Phycomyces blakesleeanus and were found to induce sexual reactions in both tester strains. A gene encoding 4-dihydromethyltrisporate dehydrogenase was identified in several Mortierella species and the activity of the gene product was shown using a histochemical assay. We suggest that the regulation of sexual processes by trisporoids is common to both Mucorales and Mortierellales and may be more widespread within the Zygomycota.

Cloning, characterization and heterologous expression of the Blakeslea trispora gene encoding orotidine-5'-monophosphate decarboxylase

The pyrG gene of the fungus Blakeslea trispora, encoding orotidine-5'-monophosphate decarboxylase (OMPD) enzyme, was cloned by heterologous hybridization of a genomic library with the Mucor circinelloides pyrG gene. The deduced amino acid sequence of the B. trispora pyrG gene is highly similar to the OMPD from other organisms. Hybridization analyses revealed that the only copy of this gene present in the genome of B. trispora is constitutively expressed. Heterologous complementation of a mutant of M. circinelloides deficient in OMPD activity with the B. trispora pyrG gene and promoter sequence confirmed the function of this gene. This functional complementation demonstrates that heterologous expression in M. circinelloides might be used to investigate the function of genes of B. trispora.

Delimitation of Umbelopsis (Mucorales, Umbelopsidaceae fam. nov.) based on ITS sequence and RFLP data

In a continuation of studies started by de Ruiter et al. (1993), all known species of the Mortierella isabellina-group (Micromucor/Umbelopsis clade of O'Donnell et al. 2001) and a few other Mucorales and species of Mortierella were investigated by RFLP (including ITS1, 5.8S, ITS2 and the 5' end of the large subunit rDNA gene) and ITS1 sequence analyses. This monophyletic group is unrelated to Mortierella and is only distantly related to the core group of the Mucoraceae. M. longicollis falls outside the Umbelopsis clade. Molecular data resolved two subclades within the M. isabellina-group; however, they are not correlated with any differences in sporangial wall and shape, spore pigmentation and shape, or sporangiophore branching. Therefore we subsume all taxa in one genus, Umbelopsis. The new family Umbelopsidaceae and the new combinations U. isabellina, U. ramanniana, and U. autotrophica are proposed.

Apophysomyces elegans: an emerging zygomycete in India

Apophysomyces elegans was considered a rare but medically important zygomycete. We analyzed the clinical records of eight patients from a single center in whom zygomycosis due to A. elegans was diagnosed over a span of 25 months. We also attempted a DNA-based method for rapid identification of the fungi and looked for interstrain polymorphism using microsattelite primers. Three patients had cutaneous and subcutaneous infections, three had isolated renal involvement, one had rhino-orbital tissue infection, and the final patient had a disseminated infection involving the spleen and kidney. Underlying illnesses were found in two patients, one with diabetes mellitus and the other with chronic alcoholism. A history of traumatic implantation was available for three patients. All except two of the patients responded to surgical and/or medical therapy; the diagnosis for the two exceptions was made at the terminal stage of infection. Restriction enzyme (MboI, MspI, HinfI) digestion of the PCR-amplified internal transcribed spacer region helped with the rapid and specific identification of A. elegans. The strains could be divided into two groups according to their patterns, with clustering into one pattern obtained by using microsatellite [(GTG)(5) and (GAC)(5)] PCR fingerprinting. The study highlights the epidemiology, clinical spectrum, and diagnosis of emerging A. elegans infections.

Selection of Gongronella butleri strains for enhanced chitosan yield with UV mutagenesis

This paper describes the selection of Gongronella butleri strains producing higher chitosan yield using UV mutagenesis. We have devised an enzyme-linked immunosorbent assay for the selection of high chitin deacetylase (CDA) yielding strains. Mutant strains M+1, M+2 and M+7 could produce twice the extractable chitosan yield and double the CDA activity, as compared to the wild type strain.

Genetic variability of the postharvest pathogen Gilbertella persicaria: identification of randomly amplified polymorphic DNA (RAPD) markers correlating with (+) and (-) mating types

Random amplified polymorphic DNA (RAPD) and isoenzyme polymorphisms among 16 isolates of the postharvest pathogen Gilbertella persicaria were examined. Six different 10-bp primers were used to determine the extent of intraspecific genetic variability. Nine composite amplification types were identified. RAPD markers were obtained which correlated with the mating types of the G. persicaria isolates. The variability of the isoenzyme patterns was very low and no correlation was found between the isoenzyme markers and the mating abilities. When 80 single carbon substrates were tested in utilization assays, most of them were utilized uniformly by the 16 G. persicaria strains. However, some compounds elicited differences between the isolates representing the two mating types. Beta-alanine (0.2%) has little effect on the germination of the sporangiospores of the (+) isolates, but inhibited the germination of (-) sporangiospores. Glycerol-1-monoacetate supported the growth of both mating types, but at concentrations higher than 4% this was accompanied with a compact (colonial) growth for plus mating type isolates only.

Phylogeny and origin of 82 zygomycetes from all 54 genera of the Mucorales and Mortierellales based on combined analysis of actin and translation elongation factor EF-1alpha genes

True fungi (Eumycota) are heterotrophic eukaryotic microorganisms encompassing ascomycetes, basidiomycetes, chytridiomycetes and zygomycetes. The natural systematics of the latter group, Zygomycota, are very poorly understood due to the lack of distinguishing morphological characters. We have determined sequences for the nuclear-encoded genes actin (act) from 82 zygomycetes representing all 54 currently recognized genera from the two zygomycetous orders Mucorales and Mortierellales. We also determined sequences for translation elongation factor EF-1alpha (tef) from 16 zygomycetes (total of 96,837 bp). Phylogenetic analysis in the context of available sequence data (total 2,062 nucleotide positions per species) revealed that current classification schemes for the mucoralean fungi are highly unnatural at the family and, to a large extent, at the genus level. The data clearly indicate a deep, ancient and distinct dichotomy of the orders Mucorales and Mortierellales, which are recognized only in some zygomycete systems. Yet at the same time the data show that two genera - Umbelopsis and Micromucor - previously placed within the Mortierellales on the basis of their weakly developed columella (a morphological structure of the sporangiophore well-developed within all Mucorales) are in fact members of the Mucorales. Phylogenetic analyses of the encoded amino acid sequences in the context of homologues from eukaryotes and archaebacterial outgroups indicate that the Eumycota studied here are a natural group but provide little or no support for the monophyly of either zygomycetes, ascomycetes or basidiomycetes. The data clearly indicate that a complete revision of zygomycete natural systematics is necessary.

Polyunsaturated fatty acid-specific elongation enzymes

We have isolated a novel gene (GLELO) from Mortierella alpina and its homologue (CEELO1) from Caenorhabditis elegans and demonstrate the involvement of their encoded proteins in the elongation of C(18) polyunsaturated fatty acids.

Isolation of a Delta5-fatty acid desaturase gene from Mortierella alpina

Arachidonic acid (C20:4 Delta5,8,11,14) is a polyunsaturated fatty acid synthesized by the Delta5-fatty acid desaturation of di-homo-gamma-linolenic acid (C20:3 Delta8,11,14). In mammals, it is known to be a precursor of the prostaglandins and the leukotrienes but it is also accumulated by the filamentous fungus Mortierella alpina. We have isolated a cDNA encoding the Delta5-fatty acid desaturase from M. alpina via a polymerase chain reaction-based strategy using primers designed to the conserved histidine box regions of microsomal desaturases, and confirmed its function by expression in the yeast Saccharomyces cerevisiae. Analysis of the lipids from the transformed yeast demonstrated the accumulation of arachidonic acid. The M. alpina Delta5-desaturase is the first example of a cloned Delta5-desaturase, and differs from other fungal desaturases previously characterized by the presence of an N-terminal domain related to cytochrome b5.

Cloning and functional expression of a 'fast' fungal kinesin

Conventional kinesins are molecular motors that move towards the plus end of microtubules. In animal species, they have been shown to be remarkably conserved in terms of both their primary sequence and several physiological properties, including their velocity of movement. Here we report the cloning of Synkin, a homologue of conventional kinesin from the zygomycete fungus Syncephalastrum racemosum [Steinberg, Eur. J. Cell Biol. 73 (1997) 124-131] that is 4-5 times faster than its animal counterparts. Expression in bacteria yields a fully functional motor that moves at the same speed as the native motor isolated from fungal hyphae and has similar hydrodynamic properties. Its sequence is most closely related to that of two other fungal kinesins from Neurospora and Ustilago, and shares several biochemical properties with the Neurospora motor. Fungal kinesins therefore seem to form a conserved subfamily of conventional kinesins distantly related to animal kinesins. They may help to identify sequence features important for determining motor velocity.

Computational studies of the activation of lipases and the effect of a hydrophobic environment

We have investigated the activation pathway of three wild type lipases and three mutants using molecular dynamics techniques combined with a constrained mechanical protocol. The activation of these lipases involves a rigid body hinge-type motion of a single helix, which is displaced during activation to expose the active site and give access to the substrate. Our results suggest that the activation of lipases is enhanced in a hydrophobic environment as is generally observed in experiments. The energy gain upon activation varies between the different lipases and depends strongly on the distribution of the charged residues in the activating loop region. In a low dielectric constant medium (such as a lipid environment), the electrostatic interactions between the residues located in the vicinity of the activating loop (lipid contact zone) are dominant and determine the activation of the lipases. Calculations of the pKas qualitatively indicate that some titratable residues experience significant pK shifts upon activation. These calculations may provide sufficient details for an understanding of the origin and magnitude of a given electrostatic effect and may provide an avenue for exploring the activation pathway of lipases.

Essential dynamics of lipase binding sites: the effect of inhibitors of different chain length

The biochemical activity of enzymes, such as lipases, is often associated with structural changes in the enzyme resulting in selective and stereospecific reactions with the substrate. To investigate the effect of a substrate and its chain length on the dynamics of the enzyme, we have performed molecular dynamics simulations of the native Rhizomucor miehei lipase (Rml) and lipase-dialkylphosophate complexes, where the length of the alkyl chain ranges from two to 10 carbon atoms. Simulations were performed in water and trajectories of 400 ps were used to analyse the essential motions in these systems. Our results indicate that the internal motions of the Rml and Rml complexes occur in a subspace of only a few degrees of freedom. A high flexibility is observed in solvent-exposed segments, which connect beta-sheets and helices. In particular, loop regions Gly35-Lys50 and Thr57-Asn63 fluctuate extensively in the native enzyme. Upon activation and binding of the inhibitor, involving the displacement of the active site loop, these motions are considerably suppressed. With increasing chain length of the inhibitor, the fluctuations in the essential subspace increase, levelling off at a chain length of 10, which corresponds to the size of the active-site groove.

Identification of a fungal protein of Syncephalastrum racemosum as aspartic proteinase

During purification of fungal deoxyribonuclease (DNase) from Syncephalastrum racemosum, a protein which was functionally unknown and persistently existed in the DNase-containing fractions through chromatography over DEAE-cellulose, hydroxylapatite, and phenyl-Sepharose was identified. The protein was finally separated from DNase after affinity chromatography on a cibacron blue-Sepharose column and purified to apparent homogeneity after gel chromatography on a Superdex 200 HR column. Ten tryptic peptides of this protein were isolated and sequenced. Searching in the sequence data bank with the aid of the computer program PC/Gene, we found that this protein was highly homologous to aspartic proteinases, such as pepsin and rhizopuspepsin. Because of its fungal origin and because the protein indeed showed catalytic cleavage on peptide bonds of bovine serum albumin, RNase, and carbonic anhydrase, we termed this protein syncephapepsin. The molecular weight of syncephapepsin is 38,000 daltons, based on gel filtration and sodium dodecyl sulfate-polyacrylamide electrophoresis.

Theoretical investigation of the dynamics of the active site lid in Rhizomucor miehei lipase

Interfacial activation of Rhizomucor miehei lipase is accompanied by a hinge-type motion of a single helix (residues 83-94) that acts as a lid over the active site. Activation of the enzyme involves the displacement of the lid to expose the active site, suggesting that the dynamics of the lid could be of mechanistic and kinetic importance. To investigate possible activation pathways and to elucidate the effect of a hydrophobic environment (as would be provided by a lipid membrane) on the lid opening, we have applied molecular dynamics and Brownian dynamics techniques. Our results indicate that the lipase activation is enhanced in a hydrophobic environment. In nonpolar low-dielectric surroundings, the lid opens in approximately 100 ns in the BD simulations. In polar high-dielectric (aqueous) surroundings, the lid does not always open up in simulations of up to 900 ns duration, but it does exhibit some gating motion, suggesting that the enzyme molecule may exist in a partially active form before the catalytic reaction. The activation is controlled by the charged residues ARG86 and ASP91. In the inactive conformation, ASP91 experiences repulsive forces and pushes the lid toward the open conformation. Upon activation ARG86 approaches ASP61, and in the active conformation, these residues form a salt bridge that stabilizes the open conformation.

Geosiphon pyriforme, a fungus forming endocytobiosis with Nostoc (cyanobacteria), is an ancestral member of the Glomales: evidence by SSU rRNA analysis

Geosiphon pyriforme inhabiting the surface of humid soils represents the only known example of endocytobiosis between a fungus (Zygomycotina; macrosymbiont) and cyanobacteria (Nostoc; endosymbiont). In order to elucidate the taxonomical and evolutionary relationship of Geosiphon pyriforme to fungi forming arbuscular mycorrhiza (AM fungi), the small-subunit (SSU) ribosomal RNA genes of Geosiphon pyriforme and Glomus versiforme (Glomales; a typical AM fungus) were analyzed and aligned with SSU rRNA sequences of several Basidiomycetes, Ascomycetes, Chytridiomycetes, and Zygomycetes, together with all AM-fungal (Glomales) sequences published yet. The distinct group of the order Glomales, which includes Geosiphon, does not form a clade with any other group of Zygomycetes. Within the Glomales, two main lineages exist. One includes the families Gigasporaceae and Acaulosporaceae; the other one is represented by the genus Glomus, the members of which are very divergent. Glomus etunicatum and Geosiphon pyriforme both form independent lineages ancestral to the Glomales. The data provided by the present paper confirm clearly that Geosiphon represents a fungus belonging to the Glomales. The question remains still open as to whether or not Geosiphon is to be placed within or outside the genus Glomus, since this genus is probably polyphyletic and not well defined yet. Geosiphon shows the ability of a Glomus-like fungus to form a "primitive" symbiosis with a unicellular photoautotrophic organism, in this case a cyanobacterium, leading to the conclusion that a hypothetical association of a Glomus-like fungus with a green alga as a step during the evolution of the land plants appears probable.

Genes, enzymes and secondary metabolites in industrial microorganisms. The 1995 Thom Award Lecture

Apparently contrasting approaches, ie genetic engineering and screening of new microorganisms, play essential complementary roles to develop current industrial microbiology. Three topics, production and modification of milk-clotting proteinases by genetic engineering, hormonal control of secondary metabolism in streptomycetes, and screening of bioactive metabolites, are introduced as cases of such a hybrid approach, while symbiotic microorganisms are discussed as an example of the vast terra incognita still remaining for the future microbiology.

Integrative transformation of the zygomycete Rhizomucor pusillus by homologous recombination

For development of a homologous transformation system for the zygomycete fungus, Rhizomucor pusillus, the isopropylmalate isomerase (leuA) gene was cloned from R. pusillus IFO 4578 by the DNA-probing method with the leuA sequence of Mucor circinelloides as probe. The nucleotide sequence revealed that leuA of R. pusillus encoded a 755-amino-acid protein of 82.5 kDa with no intron. The leuA gene on pUC19 (plasmid pRPLeu10) was introduced by polyethyleneglycol-assisted transformation into protoplasts of a leuA- mutant of R. pusillus that was obtained by UV mutagenesis. Transformation under optimal conditions yielded 20 Leu+ transformants (micrograms pRPLeu10 DNA)-1 (1 x 10(6) viable protoplasts)-1. Blot analysis of DNA from the transformants showed that the pRPLeu10 sequence was integrated into the genome by homologous recombination at the leuA locus.

Nucleotide sequence of alpha-galactosidase cDNA from Mortierella vinacea

To analyze the primary structure of Mortierella vinacea alpha-galactosidase, a cDNA library of M. vinacea mRNA in lambda gt10 was constructed. A clone, which has an insert size of about 1.4 kilobase pairs, was found to contain the coding region of the mature enzyme. The deduced amino acid sequence share that the mature enzyme consisted of 397 amino acid residues with a molecular mass of 44,350 Da. The sequence identity of the mature enzyme with alpha-galactosidases from Saccharomyces carlsbergensis, Cyamopsis tetragonoloba (guar), and human were 47%, 43%, and 34%, respectively.

High level secretion by Saccharomyces cerevisiae of human apolipoprotein E as a fusion to Rhizomucor rennin

As the first step for production of human apolipoprotein E (hApoE) in Saccharomyces cerevisiae, the hApoE cDNA was cloned in Escherichia coli, on the basis of the nucleotide sequence reported previously. When the hApoE cDNA including its pre-sequence-encoding region was expressed under the control of the GAL7 promoter, no protein immunoreactive with anti-hApoE antibody was detected either in the culture medium or inside the cells. For efficient production and secretion of hApoE in S. cerevisiae, the mature hApoE-encoding region was fused to the prepro-sequence region of Rhizomucor rennin (MPR) and to the whole MPR gene including its prepro- and mature-MPR regions. When the fusion gene consisting of the prepro-sequence-encoding region and hApoE regions was expressed in S. cerevisiae, no protein reactive with the anti-hApoE antibody was detected in any fraction of the yeast cells, probably due to rapid degradation of the hApoE protein by yeast proteases. On the other hand, when hApoE was expressed as a fusion to the whole MPR protein, a considerable amount of the fused protein was secreted into the medium. The prepro-sequence of MPR was correctly processed from the fused protein in the medium by autocatalytic activity of MPR and by a protease(s) of the host cell.(ABSTRACT TRUNCATED AT 250 WORDS)

Analysis of the gene for the elongation factor 1 alpha from the zygomycete Absidia glauca. Use of the promoter region for constructions of transformation vectors

The complete genomic DNA sequence was determined for one of the gene for the elongation factor 1 alpha (TEF), isolated from the zygomycete Absidia glauca. Sequence comparison with TEF genes from other fungi show the highest similarity to TEF-genes of the closely related zygomycete Mucor racemosus (Sundstrom et al. 1987). Southern-blot analysis of genomic DNA from A. glauca with the TEF gene reveals six chromosomal copies in the genome. In transformation experiments of A. glauca, vector constructions were used which allow targeting of one of the TEF loci. Several transformants of A. glauca were analyzed at the DNA level. In most cases, rearranged forms of autonomously replicated plasmids could be found in these isolates. However, some transformants show a different restriction pattern of the TEF loci if compared with the parental strains. From Southern-blot data it could be concluded that in one case the rearrangement lies downstream of one TEF locus. In a second case genetic parts following the 3'-end of the TEF gene are moved towards the 5'-end of the gene.

Molecular cloning and sequence analysis of the scpZ gene encoding the serine carboxypeptidase of Absidia zychae

Carboxypeptidase Z is a serine carboxypeptidase secreted by Absidia zychae NRIC 1199. The cDNA and genomic DNA carrying the scpZ gene encoding carboxypeptidase Z were cloned and sequenced. The nucleotide sequences of the cDNA (1.4 kb) and the genomic DNA (3.3 kb) were analyzed and the intervening sequences were located by a comparison of the two. It was found that the scpZ gene was interrupted by 11 short introns, 50-75 nucleotides in length. Genomic Southern analysis showed that there was only one scpZ gene in the genome of A. zychae. The gene encoded a putative pre-pro-enzyme composed of 409 amino-acid residues of the mature carboxypeptidase Z (M(r) 45,421) and an additional N-terminal sequence of 51 amino-acid residues. The amino-acid sequence around the active serine residue of carboxypeptidase Z (-G-E-S-Y-G-G-) differed from the consensus (-G-E-S-Y-A-G-) which is conserved in most of the serine carboxypeptidases so far analyzed.

Variability in genome organization of the zygomycete Parasitella parasitica

In addition to conventional methods for the identification of fungi, molecular techniques at the DNA level are increasingly being employed. In order to check the validity of such experimental approaches, we have analyzed the well-defined species Parasitella parasitica, which belongs to the family Mucoraceae (Mucorales, Zygometes). The seven strains of this species, which are available from international strain collections, were analyzed by several molecular methods: restriction fragment length polymorphism analysis (RFLP), the random primer-dependent polymerase chain reaction (RAPD-PCR), and electrophoretic karyotyping. Unexpectedly, these strains are highly diverse at the molecular level. By these techniques they can be divided consistently into two different groups. Nevertheless, all seven strains belong to a single species. They show no morphological differences and sexual spores (zygospores) were found in all possible combinations either within or between the two groups. Southern-blot analysis of genomic DNA of all P. parasitica strains with RAPD-PCR-derived labelled probes shows the existence of repetitive elements characteristic for only one group of P. parasitica. In addition, chromosome sizes, which were separated by rotating-field electrophoresis, were highly divergent, and ranged from 3 to 6.5 Mb in one group and between 2 and 4.5 Mb in the other. The RAPD-PCR patterns also discriminate both groups of P. parasitica. However, they are very similar if strains of a single group are compared. Therefore, we propose that the determination of fungal species by molecular techniques should be vetted at least by morphological and physiological parameters and, whenever possible, by mating experiments.

Sequence comparison of a segment of the gene for 3-hydroxy-3-methylglutaryl-coenzyme A reductase in zygomycetes

In this paper we compare the sequences of a segment of the 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase gene, isolated from eleven different strains belonging to four species of the fungal order Mucorales, Parasitella parasitica, Absidia glauca, Mucor mucedo (Mucoraceae) and Blakeslea trispora (Choanephoraceae). The segment was obtained by polynucleotide-chain-reaction amplification with primers derived from conservative regions of the gene. For the species M. mucedo and P. parasitica we have obtained evidence for two different types of HMG-CoA reductase genes by hybridization of genomic DNA with the amplified fragment and by cloning and sequencing of two different fragments. The different genes from one species show a sequence similarity of around 80% at the protein sequence level, whereas sequences of the same type from different species show similarity ranging between 91-96%. The highest similarity was found between the genes of type 1 from B. trispora and M. mucedo, although these species belong to different families. Southern-blot analysis of A. glauca DNA and B. trispora DNA revealed a second copy of the genes.

An unusual buried polar cluster in a family of fungal lipases

The stability of globular proteins arises largely from the burial of non-polar amino acids in their interior. These residues are efficiently packed to eliminate energetically unfavorable cavities. Contrary to these observations, high resolution X-ray crystallographic analyses of four homologous lipases from filamentous fungi reveal an alpha/beta fold which contains a buried conserved constellation of charged and polar side chains with associated cavities containing ordered water molecules. It is possible that this structural arrangement plays an important role in interfacial catalysis.