<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of the violet root-rot fungus, <Emphasis Type="Italic">Helicobasidium mompa</Emphasis>, and the effect of activated carbon

Agrobacterium tumefaciens-mediated transformation (ATMT) has been successfully applied to the violet root-rot fungus Helicobasidium mompa, which is the causal agent of violet root-rot disease. The A. tumefaciens strains carried a binary plasmid vector containing the hygromycin B phosphotransferase gene (hph) controlled by the heterologous fungal Agaricus bisporus P-gpd (glyceraldehyde-3-phosphate dehydrogenase) promoter and the trpC terminator. The transformation system was optimized using defined cocultivation conditions. When H. mompa strain V17 was cocultivated with A. tumefaciens strain AGL-1 using 5% agar, we obtained more hygromycin-resistant colonies than with strains EHA105 or MAFF301222 using 2% agar. In addition, our results suggest that the activated carbon is necessary in ATMT to reduce background growth of H. mompa. The presence of the hph gene in transformants was detected by polymerase chain reaction (PCR), and single-copy integration of the marker gene was demonstrated by Southern blot analysis. Thus, the ATMT system can be considered a promising tool for insertional mutagenesis studies of H. mompa.     

Cloning of glyceraldehyde-3-phosphate dehydrogenase gene and use of the <Emphasis Type="Italic">gpd</Emphasis> promoter for transformation in <Emphasis Type="Italic">Flammulina velutipes</Emphasis>

The glyceraldehyde-3-phosphate dehydrogenase gene of Flammulina velutipes was isolated. The complete gpd sequence (from ATG to TAA) was 1,489 bp in length and contained nine introns. The locations of these nine introns were similar to those of other basidiomycetes, which might reflect the evolutionary divergence of these mushrooms. The F. velutipes gpd gene was found to encode a protein of 339 amino acids and its putative amino acid sequence revealed a high similarity to an analogous protein deriving from other basidiomycetes. Results of Southern blot analysis suggested that there existed only one copy of the gpd gene in the genome of F. velutipes and that there was one typical TATA box and two CAAT boxes located in the 5 flanking region. The F. velutipes gpd promoter was fused to a hygromycin B phosphotransferase gene (hph) derived from Escherichia coli as a selection marker. Using the resulting construction, hph was efficiently transformed into F. velutipes by basidiospore electroporation. No false-positive antibiotic-resistant cultures were detected by PCR amplification and the hygromycin resistance trait was maintained stably during mitotic cell division for 3 months. Southern analysis of transformants indicated the integration of gene might occur by non-homologous recombination. This rapid and convenient electroporation procedure offers new prospects for the genetic manipulation and a tool for tagging genes of this important edible mushroom species. Sequence data will appear in the DDBJ/EMBL/GenBank nucleotide sequence database under accession number AF515622.     

Morphological and physiological comparisons ofHelicobasidium mompa andH. purpureum

Morphological and physiological comparisons were made of sevenHelicobasidium mompa isolates and fourH. purpureum isolates. Colonies of theH. mompa isolates were thin, dense, or hard and dense, and most were pale brown to brown or dark brown, while that of isolate 344c was pinkish. Colonies ofH. purpureum isolates were hard and dense, and their colonies were dark brown. Diameters of hyphae were similar forH. mompa andH. purpureum. Dimensions of conidia and morphology of conidiophores ofH. mompa isolate 344c were close to those ofH. purpureum reported previously.H. mompa isolates grew well at 23°C, 25°C or 27°C, while all isolates ofH. purpureum grew well at 23°C. Growth rates ofH. purpureum isolates was almost the same as those ofH. mompa isolates with slow growth. Polygaracturonase activity at pH 3 was variable among the isolates for bothH. mompa andH. purpureum. Itaconic acid was produced abundantly by three isolates ofH. mompa but not produced by isolate AH130, whereas all isoaltes ofH. purpureum produced a small amount of itaconic acid.     

Expression of the autofluorescent protein, DsRed2, in the recombinants of the ectomycorrhizal basidiomycete, Suillus grevillei, generated by Agrobacterium-mediated transformation

Recombinants were generated from the ectomycorrhizal basidiomycete, Suillus grevillei, through agroinfection using a binary vector carrying the hygromycin B resistance and the autofluorescent protein, DsRed2, markers. DsRed2 was driven by a cis-regulatory region of the glyceraldeyde-3-phosphate dehydrogenase gene (gpd) from the wood-rotting basidiomycete, Coriolus hirsutus, which contains promoters and 5′ gpd sequences with first through fourth exons and expressed for the first time in Suillus spp. The transformation system and recombinants expressing an autofluorescent protein may be useful in genetic analysis of the symbiosis.     

Production of a heterologous recombinant protein using fragments of the glyceraldehyde-3-phosphate dehydrogenase promoter from Penicillium camemberti

The biotechnological applications of cheese-ripening fungi have been limited by a lack of genetics tools, in particular the identification and characterization of suitable promoters for protein expression. In this study, the suitability of the glyceraldehyde-3-phosphate dehydrogenase (gpdP) promoter from Penicillium camemberti to drive the production of a recombinant protein was evaluated. The gpdP gene and its promoter were isolated using PCR and Genome Walker. The promoter of gpdP has two regions with high identity to the regulatory elements gpd-box and ct-box previously described in Aspergillus nidulans. Two fragments of the promoter containing the gpd- and ct-box or the ct-box alone were used to drive the in vivo production of recombinant β-galactosidase using A. nidulans as host. Our results indicate that larger fragment containing gpd-box enhances the production of β-galactosidase activity levels respect to ct-box alone, and that both boxes are necessary to obtain maximal enzymatic activity production. The smaller fragment (187 nt) containing the ct-box alone was able to trigger up to 27% of β-galactosidase activity, and to our knowledge this is the smallest fragment from a gpd gene used to produce a recombinant protein. Differences were not observed when glycerol, galactose or glucose were used as carbon sources, suggesting that the promoter activity is carbohydrate-independent. This is the first report in which a Penicillium gpd promoter is used for recombinant protein production. Our results open the way for the future development of a system for recombinant proteins expression in the biotechnologically important cheese-ripening fungus P. camemberti.     

Molecular cloning of the promoter region of the glyceraldehyde-3-phosphate dehydrogenase gene that contributes to the construction of a new transformation system in <Emphasis Type="Italic">Coriolus versicolor</Emphasis>

The white-rot basidiomycete Coriolus versicolor secretes several enzymes that participate in the degradation of lignin and various persistent organic pollutants. In this study, we attempted to establish a genetic transformation system with a homogenous promoter sequence for driving the gene for antibiotic resistance. We succeeded in cloning the promoter sequence of the gene for glyceraldehyde-3-phosphate dehydrogenase (gpd), which is expressed at high levels in C. versicolor. The expression vector pT7GPTHPT was constructed, which included a gene for resistance to hygromycin B under control of the gpd promoter. The successful selection of transformants on medium that contained hygromycin B indicated that the system should be useful not only for the genetic transformation of C. versicolor, but also for the overproduction of useful fungal enzymes such as laccase and peroxidase.     

Alternation of nuclear phase in the filamentous basidiomycete,Helicobasidium mompa

Variation in the number of nuclei and cellular ploidy were observed in eight strains ofHelicobasidium mompa. The basidiospores, single-spore isolates and field-isolated strains were all dikaryons. The cellular ploidy, which was assessed by analyzing the fluorescence emitted by DAPI-stained nuclei, was unstable: monokaryotic strains derived from the original dikaryotic strains by successive subcultures were mainly tetraploid, although the original dikaryon was in most cases diploid. On the other hand, a dikaryotic strain derived by treatment with benomyl was haploid. These results suggest that diploid dikaryon is a normal nuclear phase ofH. mompa in nature, and the alternation of ploidy may be due to a feature of the mating system of this fungus.     

Interruption of glycerol pathway in industrial alcoholic yeasts to improve the ethanol production

The two homologous genes GPD1 and GPD2, encoding two isoenzymes of NAD⁺-dependent glycerol-3-phosphate dehydrogenase in industrial yeast Saccharomyces cerevisiae CICIMY0086, had been deleted. The obtained two kinds of mutants gpd1Δ and gpd2Δ were studied under alcoholic fermentation conditions. gpd1Δ mutants exhibited a 4.29% (relative to the amount of substrate consumed) decrease in glycerol production and 6.83% (relative to the amount of substrate consumed) increased ethanol yield while gpd2Δ mutants exhibited a 7.95% (relative to the amount of substrate consumed) decrease in glycerol production and 7.41% (relative to the amount of substrate consumed) increased ethanol yield compared with the parental strain. The growth rate of the two mutants were slightly lower than that of the wild type under the exponential phase whereas ANG1 (gpd1Δ) and the decrease in glycerol production was not accompanied by any decline in the protein content of the strain ANG1 (gpd1Δ) but a slight decrease in the strain ANG2 (gpd2Δ). Meanwhile, dramatic decrease of acetate acid formation was observed in strain ANG1 (gpd1Δ) and ANG2 (gpd2Δ) compared to the parental strain. Therefore, it is possible to improve the ethanol yield by interruption of glycerol pathway in industrial alcoholic yeast.     

Transmissibility of viral double-stranded RNA between strains of the violet root rot fungus <Emphasis Type="Italic">Helicobasidium mompa </Emphasis>and the potential for viral dsRNA infection to this fungus using monokaryotic strains

 To examine the potential of a method of double-stranded (ds) RNA infection to Helicobasidium mompa, the transmissibility of dsRNA between strains of this fungus was investigated. Strain V70 was used as a dsRNA donor. The dsRNA recipients were six strains that were mycelially incompatible with V70, plus two monokaryotic strains. Random amplified polymorphic DNA analysis suggested that the mycelially incompatible strains were genetically different mutually; however, the analysis also suggested that V70 was genetically homogeneous with the two monokaryotic strains. When V70 was paired with either of the mycelially incompatible strains, the dsRNAs did not transmit to the recipients at all. When V70 was paired with the two monokaryotic strains, the dsRNAs were transmitted to the monokaryotic strains. The two monokaryotic strains, which had acquired dsRNAs from V70 in the previous experiment, were used as new dsRNA donors in a next experiment so that we could investigate dsRNA transmission from these monokaryotic strains to the six strains used in the previous experiment. One of the monokaryotic strains permitted dsRNA transmission to two of the six recipients. We conclude that we can infect genetically different strains of H. mompa with dsRNA using the monokaryotic strains. Received: December 12, 2002 / Accepted: January 27, 2003 Acknowledgments This research was supported by the Program for Promotion of Basic Research Activities for Innovative Biosciences. The authors are grateful to Dr. Tadanori Aimi of Tottori University for helpful discussion. Correspondence to:K. Suzaki     

Overexpression of the <Emphasis Type="Italic">plg</Emphasis>1 gene encoding pectin lyase in <Emphasis Type="Italic">Penicillium griseoroseum</Emphasis>

The pectin lyase (PL) is an industrially important enzyme since it is used for maceration and clarification in the process of fruit juice production in food industries. In order to increase the yields of pectin lyase we cloned the plg1 (pectin lyase 1) from Penicillium griseoroseum gene under the control of the strong constitutive promoter of the glyceraldehyde-3-phosphate dehydrogenase gene (gpdA) and the terminator region of the tryptophan synthetase (trpC) gene from Aspergillus nidulans (plasmid pAN52-Plg1) and transformed this construct into the P. griseoroseum strain PG63. One of the pAN52-Plg1 multi-copy transformants (strain 105) grown in culture medium containing glucose or sugar cane juice showed PL activities of 4,804 or 5,202 U ml⁻¹ respectively, which represented 57- and 132-fold increases. In addition, the apparent specific activity of PL produced by this strain was much higher than the one observed for a commercial pectinase preparation. Evaluation of the extracellular proteins in the culture supernatant of strain 105 by SDS-PAGE showed the presence of a clear and strong band of approximately 40 kDa that probably corresponds to PL. The enzyme yields reported here demonstrate that the system we developed is able to express pectin lyase at levels comparable to, or exceeding, previously reported data.     

Promotion of Monacolin K Production by <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-Mediated Transformation in <Emphasis Type="Italic">Monascus albidus</Emphasis> 9901

The binary vector pCAMBIA3300-gpdA-hph-trpC with hygromycin B phosphotransferase (hph) was constructed and transformed into Monascus albidus 9901 by Agrobacterium tumefaciens-mediated transformation, with gene hph as the selective marker. In order to improve the efficiency of A. tumefaciens-mediated transformation in M. albidus 9901, we optimized various factors including concentration of M. albidus 9901 spores, cell density of A. tumefaciens, co-cultivation time, temperature, and acetosyringone concentration. Most transformants of M. albidus 9901 could grow stably on media containing 50 μg ml⁻¹ hygromycin B up to five generations. The presence of hph was identified by PCR. Two transformants H1 and H2 which produced more Monacolin K than M. albidus 9901 were screened, and the concentration of Monacolin K in the fermented millet by H1 and H2 increased by 42.15% and 40.34% respectively compared with that produced by M. albidus 9901.     

Expression of multi-functional cellulase gene mfc in Coprinus cinereus under control of different basidiomycete promoters

Multi-functional cellulase gene mfc was expressed in Coprinus cinereus under naturally non-inductive conditions using three heterologous promoters. Endo-β-1,4-glucanase expression was achieved in solid and liquid media with promoter sequences from the Lentinula edodesgpd gene, the Flammulina velutipes gpd gene and the Volvariella volvaceagpd gene. As measured by enzyme activity in liquid cultures, a 613-bp gpd promoter fragment from L. edodes was most efficient, followed by a 752-bp gpd fragment from F. velutipes. The V. volvacea gpd promoter sequence was less active, in comparison. Irrespective of the promoter used, enzymatic activities increase 34-fold for highly active transformants and 29-fold for less active one by using cellulase-inducing medium. The highest activities of endo-β-1,4-glucanase (34.234 U/ml) and endo-β-1,4-xylanase (263.695 U/ml) were reached by using the L. edodesgpd promoter.     

Genetic introduction of foreign genes to <Emphasis Type="Italic">Pleurotus eryngii</Emphasis> by restriction enzyme-mediated integration

Pleurotus eryngii was transformed via restriction enzyme-mediated integration. In order to construct the transformation plasmid, the enhanced cyan fluorescent protein (ECFP) gene was ligated next to the gpd promoter of the plasmid pAN7-1. Transformation was facilitated via the heat treatment of a transformation mixture containing 1 μg of the HindIII-digested plasmid DNA and 10⁶ mushroom protoplasts in 40% polyethyleneglycol solution, resulting in 10–40 hygromycin-resistant transformants. Successful transformation was evidenced by PCR, Southern blot, and confocal fluorescence microscopic analyses on the selected transformants. To date, this is the first report on the transformation of P. eryngii by REMI technique.     

Rice <Emphasis Type="BoldItalic">ZFP15</Emphasis> Gene Encoding for a Novel C2H2-type Zinc Finger Protein Lacking DLN box,is Regulated by Spike Development but not by Abiotic Stresses

A novel C2H2-type zinc finger protein gene, ZFP15, was cloned from rice by RT-PCR approach. The ZFP15 gene encodes a protein of 144 amino acid residues with a predicted molecular mass of 15 kDa. The ZFP15 protein comprises two C2H2-type zinc finger domains, a putative nuclear localization signal (NLS) at its N-terminus but the DLN-box identified in all reported plant C2H2-type zinc finger proteins was not found. A homology search revealed that ZFP15 gene was localized within a cluster of C2H2-type zinc finger genes in BAC clone OJ1754_E06 mapped on chromosome 3. All three members in the cluster encoded proteins showed high identities in amino acids and might contribute to a co-regulation. The RT-PCR assay revealed that ZFP15 mRNA was not regulated by cold, salt, drought and ABA stresses, though CRT/DRE and ABRE elements were found in the promoter region of ZFP15 gene. The expression profiling also showed that ZFP15 mRNA was expressed with a lower level in leaves and roots, but not detected in stems. Besides, ZFP15 was shown to accumulate much more in flowering spike than in immature spike. Thus, ZFP15, as the first characterized C2H2-type zinc finger protein in rice, might play a regulatory role on rice spike development.     

Construction of stress-induced metabolic pathway from glucose to 1,3-propanediol in <Emphasis Type="Italic">Escherichia coli</Emphasis>

1,3-Propanediol is an important chemical widely used in polymer production, but its availability is being restricted owing to its expensive synthesis. The aim of this study was to engineer an Escherichia coli strain that can produce 1,3-propanediol directly from glucose. We successfully constructed a stress-induced metabolic pathway from glucose to 1,3-propanediol in recombinant E. coli by the expression of gpd1 and gpp2 genes from Saccharomyces cerevisiae and dha operon from Klebsiella pneumoniae, respectively. Batch cultivation of the recombinant E. coli showed that 12.1 g/L 1,3-propanediol was accumulated in the culture without using any inducer.     

Characterisation of the gene encoding a protective antigen from Babesia microti identified it as η subunit of chaperonin containing T-complex protein 1

Passive immunisations with a monoclonal antibody termed 1-5H showed a partial but significant inhibition of parasitaemia against Babesia microti challenge infection. By immunoscreening with 1-5H, a clone (termed p58 gene) was obtained from a cDNA expression library of B. microti and the complete nucleotide sequence was determined. A protein homology search showed significant amino acid identities to the η subunit of the chaperonin containing T-complex protein 1 (CCT) of human (59%), mouse (58%) and Plasmodium falciparum (62%). Genomic analyses indicated that the p58 gene is present as a single copy gene and contains a total of approximately 400-bp introns in the genome of B. microti. The mAb 1-5H recognised a 58-kDa protein of B. microti and was found to cross-react with a 60-kDa protein of Babesia rodhaini. These results suggest the possibility that the p58 protein is the CCT η subunit of B. microti and functions as a chaperonin.     

Evaluation and screening of efficient promoters to improve astaxanthin production in Xanthophyllomyces dendrorhous

Astaxanthin is a valuable carotenoid that is widely used in the aquaculture, food, pharmaceutical, and cosmetic industries. Xanthophyllomyces dendrorhous is a carotenoid-synthesizing yeast strain that produces astaxanthin as its main pigment. Although metabolic engineering using gene manipulation is a valuable way to improve astaxanthin production, a gene expression system for X. dendrorhous has been poorly developed. In this study, three known promoters of X. dendrorhous, glycerol-3-phosphate dehydrogenase (gpd) promoter (Pgpd), glucose dehydrogenase (gdh) promoter (Pgdh), and actin (act) promoter (Pact), were evaluated for use in the overexpression of target proteins using green fluorescence protein (GFP) as an expression level indicator protein. The actin promoter, Pact, showed the highest expression level of GFP when compared with Pgpd and Pgdh. Additionally, to obtain new promoters for higher expression of target protein in X. dendrorhous, intracellular GFP intensity was evaluated for 13 candidate promoters. An alcohol dehydrogenase promoter, Padh4, showed more efficient expression of GFP rather than Pact. Overexpression of crtE gene encoding rate-limiting enzyme of carotenoid synthesis under the adh4 promoter yielded an increase in intracellular astaxanthin content of about 1.7-fold compared with the control strain. The promoters identified in this study must be useful for improving carotenoids production in X. dendrorhous.     

Cloning and functional characterization of gpd and α-tubulin promoters from Annulohypoxylon stygium,a companion fungus of Tremella fuciformis

Annulohypoxylon stygium is an ascomycete that helps Tremella fuciformis produce the fruiting body in wild state or artificial cultivation. Although the interaction between these two fungi is well known, the underlying molecular mechanism is limited. In this study, the 981 bp and 886 bp promoter sequences of glyceraldehyde-3-phosphate dehydrogenase (gpd) gene and α-tubulin gene have been cloned, respectively. Sequence analysis showed that gpd promoter contained nine CAAT boxes, and single TGACG-motif, TATA box, ABRE motif, STRE motif, MYB motif, and W box. The α-tubulin promoter included eight CAAT boxes, three STRE, two TATA boxes and MYB, single Box 4, CAT-box, CCAAT-box, TGA-element, and ABRE. Subsequently, we evaluated the promoters' function by constructing four vectors pGEH, pGRH, pTEH, and pTRH to drive fused enhanced green fluorescent protein and hygromycin B phosphotransferase (egfp-hph) or red fluorescent protein and hygromycin B phosphotransferase (rfp-hph) expression under the control of gpd or α-tubulin promoters in A. stygium. The integration of the transformed DNA into A. stygium genome was verified by PCR, Southern blot, fluorescence microscopy, and quantitative real-time PCR (qRT-PCR). All the results indicated that the two promoters could drive egfp-hph and rfp-hph expression. This result could provide help in gene functional studies by using gpd and α-tubulin promoters to direct gene over-expression or build dual promoter silencing systems.     

Agrobacterium-mediated transformation of the ectomycorrhizal symbiont Laccaria bicolor S238N

The development of an efficient transformation system is required to alter the expression of symbiosis-regulated genes and to develop insertional mutagenesis in the ectomycorrhizal basidiomycete Laccaria bicolor S238N. Vegetative mycelium of this fungus was transformed by Agrobacterium tumefaciens-mediated gene transfer. The selection marker was the hygromycin resistance gene of Escherichia coli (hph) under the control of the gpd promoter from Agaricus bisporus and the CaMV 35S terminator as part of the T-DNA. PCR amplification of hph and Southern blot analyses showed that the genome of the hygromycin-resistant transformants contained the cassette. The latter proved mostly single copy and random integration of part of the transgene into the fungal genome. A. tumefaciens-mediated gene transfer should facilitate future development of insertional mutagenesis, targeted gene disruption and RNA interference technology in L. bicolor.