Sequence and tissue-specific expression of a putative peroxidase gene from wheat (Triticum aestivum L.)

We have used a cDNA clone encoding a pathogen-induced putative wheat peroxidase to screen a genomic libary of wheat (Triticum aestivum L. cv. Cheyenne) and isolated one positive clone, lambda POX1. Sequence analysis revealed that this clone contains a gene encoding a putative peroxidase with a calculated pI of 8.1 which exhibits 58% and 83% sequence identity to the amino acid sequence of the turnip (Brassica rapa) peroxidase and a pathogen-induced putative wheat peroxidase, respectively. The two introns in the wheat gene are at the same positions as introns in the peroxidase genes of tomato and horseradish. Results of S1-mapping experiments suggest that this gene is neither pathogen-nor wound-induced in leaves but is constitutively expressed in roots.     

Isolation and characterization of the gene encoding a manganese peroxidase from <Emphasis Type="Italic">Lentinula edodes</Emphasis>

A genomic DNA sequence and cDNA encoding a putative manganese peroxidase were isolated from the white-rot basidiomycete Lentinula edodes. The gene, called lemnp1, consists of a 1985-bp open reading frame interrupted by 16 introns and was flanked by an upstream region having putative CAAT, TATA, and heat shock elements and by a downstream region having polyadenylation signals. The lemnp1 gene encodes a protein of 364 amino acids that shows high sequence homology to manganese peroxidases of other basidiomycetes. The deduced N-terminal amino acid sequence is different from the L. edodes manganese peroxidase reported previously.     

Cloning and expression of peroxisomal Ascorbate Peroxidase gene from wheat

A full-length cDNA encoding wheat peroxisomal ascorbate peroxidase (pAPX) was cloned by Suppression Subtractive Hybridization (SSH) and in silico approach. The cDNA was 1027 bp in length and contained a complete ORF of 876 bp, which encodes a protein of 292 amino acid residues. Its deduced amino acids sequence had 84% identity with that of pAPX from barley. The gene was designated as Ta-pAPX. The Ta-pAPX homologous genes were mapped on wheat chromosome 7A and 7D using Chinese Spring nulli-tetrasomic lines analysis. Northern analysis indicated that, after inoculation by Erysiphe graminis Dc.f.sp. tritici, the expression of Ta-pAPX gene in Yangmai5 was enhanced, but its expression in wheat-Haynaldia villosa 6VS/6AL translocation lines changed a little. The results implied that Ta-pAPX may be related to susceptibility of wheat to powdery mildew. The complete coding sequence of Ta-pAPX was cloned into an expression vector pET32 (a+) and a protein with the same deduced molecular weight (MW) was expressed in E. coli BL21 (DE3), which showed ascorbate peroxidase activity.     

Characterization of a birch (Betula pendula Roth.) embryogenic gene,BP8

We have isolated the birch homologue (BP8) for the carrot embryogenic gene DC8 by heterologous hybridization. The birch BP8 gene encodes a putative protein of 53 kDa, showing 52% sequence identity with the DC8 gene at the amino acid level. The putative BP8 protein contains 20 repeats of 11 amino acids and thus belongs to the group of LEA proteins isolated from such plants as carrot, cotton and wheat. Northern hybridization of mRNA isolated from birch cells representing different stages of somatic embryogenesis and non-embryogenetic material with a PB8 probe gave no signals, suggesting a low expression level of the BP8 gene.     

Cloning and expression of a toxin gene from Pseudomonas fluorescens GcM5-1A

Pseudomonas fluorescens GcM5-1A was isolated from the pine wood nematode (PWN), Bursaphelenchus xylophilus, obtained from wilted Japanese black pine, Pinus thumbergii, in China. In this paper, a genomic library of the GcM5-1A strain was constructed and a toxin–producing clone was isolated by bioassay. Nucleotide sequence analysis revealed an open reading frame of 1,290 bp encoding a protein of 429 amino acids with N-terminal putative signal peptide of 36 amino acids, which shared a similarity of 83, 82 and 80% identity with hypothetical protein PFLU2919 from P. fluorescens SBW25, Dyp-type peroxidase family protein from P. fluorescens Pf-5 and Tat-translocated enzyme from P. fluorescens Pf0-1, respectively. The gene encoding a full-length protein or without the putative signal peptide was cloned and expressed as a soluble protein in E. coli. The recombinant protein was purified to electrophoretic homogeneity by affinity chromatography using a Ni²⁺ matrix column. Its relative molecular weight was estimated to be 48.5 kDa by SDS-PAGE for full-length protein, and 45.0 kDa for the recombinant protein without putative signal peptide. Bioassay results showed that the recombinant protein with or without the putative signal peptide was toxic to both suspension cells and P. thunbergii seedlings. HPLC analysis demonstrated that components in branch extracts of P. thunbergii were significantly changed after addition of the recombinant full-length protein and hydrogen peroxide, which indicated that it is probably a peroxidase. This study offers information that can be used to determine the mechanism of pine wilt disease caused by the PWN.     

Identification of a new member of the dye-decolorizing peroxidase family from <Emphasis Type="Italic">Pleurotus ostreatus</Emphasis>

Dye-decolorizing peroxidases (DyP) are atypical peroxidases showing no homology to other fungal peroxidases and lacking the typical heme binding region conserved among plant peroxidase superfamily. The gene and the corresponding cDNA encoding DyP from Pleurotus ostreatus have been identified on the basis of sequence homology analyses. The deduced amino acid sequence shares 43% identity with DyP from the ascomycete Thanatephorus cucumeris Dec 1. Analyses of the protein sequence by homology searches pointed out some properties of the DyP-type peroxidase family, which includes members from bacteria, ascomycete, and basidiomycete fungi. Some amino acids (C374, H379, and Y501 in the P. ostreatus DyP sequence) are proposed as candidates for the heme ligand, providing a basis for further investigations on the structure of the DyP type peroxidase family members.     

Manganese peroxidase of Agaricus bisporus: grain bran-promoted production and gene characterization

The main manganese peroxidase (MnP) isoenzyme of Agaricus bisporus ATCC 62459 produced in lignocellulose-containing cultures was isolated, cloned and sequenced. In liquid medium, where MnP was previously detected only in trace amounts, the production of MnP was enhanced by rye and wheat bran supplements. The pI (3.25) and N-terminal amino acid sequence (25 aa) of the enzyme from bran-containing cultures were identical to those reported from compost-isolated MnP1. MnP1 is a 328-aa long polypeptide preceded by a 26-aa leader peptide. The nucleotide sequence and putative amino acid sequence of MnP1 reveal its similarity to Pleurotus ostreatus MnP3 (62.5%), Lepista irina versatile peroxidase (VP) (61.8%) and Pleurotus eryngii VPs VPL2 and VPL1 (61.9% and 61.2%, respectively). The intron-exon structure resembles that of P. ostreatus MnP1 and P. eryngii VPL1. Despite the sequence similarity to VPs, in the A. bisporus MnP1 sequence, alanine (A163) is present instead of tryptophane (W164), distinguishing it from the veratryl alcohol oxidising P. eryngii VPLs. The MnP sequence can be used as a tool to examine the pattern of ligninolytic gene expression during the growth and fruiting of A. bisporus to optimise compost composition, fungal growth and mushroom production.     

Isolation and sequencing of cDNA clones encoding ethylene-induced putative peroxidases from cucumber cotyledons

A cDNA library from ethephon-treated cucumber cotyledons (Cucumis sativus L. cv. Poinsett 76) was constructed. Two cDNA clones encoding putative peroxidases were isolated by means of a synthetic probe based on a partial amino acid sequence of a 33 kDa cationic peroxidase that had been previously shown to be induced by ethylene. DNA sequencing indicates that the two clones were derived from two closely related RNA species that are related to published plant peroxidase sequences. Southern analysis indicates that there are 1–5 copies in a haploid genome of a gene homologous to the cDNA clones. The deduced amino acid sequences are homologous with a tobacco (55% sequence identity), a horseradish (53%), a turnip (45%), and a potato (41%) peroxidase. The cloned sequences do not encode the 33 kDa peroxidase from which the original synthetic probe was been derived, but rather other putative peroxidases. An increase in the level of mRNA is evident by 3 hours after ethephon or ethylene treatment and plateaus by 15 hours.     

Complete Sequence of Plasmid pMP1 from the Marine Environmental Vibrio vulnificus and Location of Its Replication Origin

A novel cryptic plasmid, pMP1, from an environmental Vibrio vulnificus MP-4 isolated from Mai Po Nature Reserve in Hong Kong, has been characterized. The 7.6-kb plasmid had guanine–cytosine content of 40.03% and encoded four open reading frames (ORFs) with >100 amino acids. The predicted protein of ORF1 contained 478 amino acids showing 29% identity and 50% similarity over 309 amino acids to the integrase of Vibrio cholerae phage VP2. ORF2 encoded a putative protein of 596 amino acids, which were 23% identity and 42% similarity over 455 amino acids to the tail tape measure protein TP901 of Chromohalobacter salexigens phage. ORF3 and ORF4 encoded putative proteins of 103 and 287 amino acids, respectively, but showed no homologies to any known proteins. Further experiments indicated that a 3.2-kb fragment from EcoRI digestion could self-replicate. Analysis indicated that a sequence upstream of ORF4 had the features characteristic of theta-type replicons: AT-rich region, six potential direct repeats (iterons) spaced approximately two DNA helical turn apart (about 23 bp), two copies of 9 bp dnaA boxes, three Dam methylation sites, and five inverted repeats. Complementation experiments confirmed that the protein encoded by ORF4 was required for plasmid replication. We propose that ORF4 encode a new type of Rep protein and pMP1 is a new type of theta plasmid.     

Characterisation of disproportionating enzyme from wheat endosperm

Disproportionating enzyme or D-enzyme (EC 2.4.1.25) is an α-1,4 glucanotransferase which catalyses cleavage and transfer reactions involving α-1,4 linked glucans altering (disproportionating) the chain length distribution of pools of oligosaccharides. While D-enzyme has been well characterised in some plants, e.g. potato and Arabidopsis, very little is known about its abundance and function in cereals which constitute the major source of starch worldwide. To address this we have investigated D-enzyme in wheat (Triticum aestivum). Two putative D-enzyme cDNA clones have been isolated from tissue-specific cDNA libraries. TaDPE1-e, from an endosperm cDNA library, encodes a putative polypeptide of 575 amino acid residues including a predicted transit peptide of 41 amino acids. The second cDNA clone, TaDPE1-l, from an Aegilops taushii leaf cDNA library, encodes a putative polypeptide of 579 amino acids including a predicted transit peptide of 45 amino acids. The mature polypeptides TaDPE1-e and TaDPE1-l were calculated to be 59 and 60 kDa, respectively, and had 96% identity. The putative polypeptides had significant identity with deduced D-enzyme sequences from corn and rice, and all the expected conserved residues were present. Protein analysis revealed that D-enzyme is present in the amyloplast of developing endosperm and in the germinating seeds. D-enzyme was partially purified from wheat endosperm and shown to exhibit disproportionating activity in vitro by cleaving maltotriose to produce glucose as well as being able to use maltoheptaose as the donor for the addition of glucans to the outer chains of glycogen and amylopectin.     

The PR-1a promoter contains a number of elements that bind GT-1-like nuclear factors with different affinity

A novel cDNA encoding for a peptidyl-prolyl-cis-trans-isomerase (PPIase) belonging to the FK506-binding protein (FKBP) family was isolated from wheat. It contains an open reading frame of 559 amino acids and it represents the first plant FKBP-PPIase to be cloned. It possesses a unique sequence which is composed of three FKPB-like domains, in addition to a putative tetratricopeptide repeat (TPR) motif and a calmodulin-binding site. The recombinant FKBP-PPIase expressed in and purified from Escherichia coli exhibits PPIase activity that is efficiently inhibited by the immunosuppressive drugs FK506 and rapamycin. Northern blot analysis showed that wheat FKBP was found mainly in young tissues. Polyclonal antibodies revealed the presence of cross-reacting proteins in embryos, roots and shoots. The unique structural features, the enzymatic activity and the presence of putative isoforms in wheat tissues indicate the possibility of the involvement of wheat PPIase in essential biological functions, similar to other members of the FKBP gene family.     

Molecular analysis of a Bjerkandera adusta lignin peroxidase gene

Summary A cDNA clone, LPO-1, encoding a major lignin peroxidase from the basidiomycete Bjerkandera adusta was isolated and characterized. The nucleotide sequence of LPO-1 predicts a mature protein consisting of 349 amino acids with a molecular weight of 37,225 preceded by a signal peptide of 23 amino acid residues. We have also cloned and sequenced the gene encoding lignin peroxidase from B. adusta. Comparison of these sequences reveals a lignin peroxidase gene structure consisting of 1,116 bp of protein-encoding DNA that is interrupted by four intervening sequences. The putative eukaryotic regulatory sequence, a TATA box, is present at position — 75 relative to the translational initiation codon. Amino acid sequence homology between the coding regions of LPO-1 and of the lignin peroxidase cDNA clone ML-1 from Phanerochaete chrysosporium is 61%. Offprint requests to: M. Kuwahara     

The molecular cloning and sequencing of the nitrilase gene of Rhodococcus rhodochrous PA-34

The nitrilase of Rhodococcus rhodochrous PA-34 catalyzes the production of optically active amino acids from aminonitriles. The amino acid sequence of the NH₂ terminus of the purified nitrilase was determined for the preparation of a synthetic oligonucleotide as a southern hybridization probe. A 9.5-kbp Pst I-fragement, which hybridized with the oligonucleotide probe, was isolated from R. rhodochrous PA-34 genomic libraries constructed in pUC 19. Nucleotide sequence analysis revealed that the nitrilase gene codes for a putative polypeptide of 380 amino acids which correspond to a relative molecular weight of 41, 723.     

A Novel Lantibiotic,Nukacin ISK-1, of Staphylococcus warneri ISK-1: Cloning of the Structural Gene and Identification of the Structure

Staphylococcus warneri ISK-1, which we had previously reported as Pediococcus sp. ISK-1, produces a novel bacteriocin, nukacin ISK-1. Edman degradation of the chemically reduced nukacin ISK-1 produced a sequence of 27 amino acids, 7 of which were unidentified. Using single-specific-primer-PCR product as a probe, a 3.6-kb HindIII fragment containing the nukacin ISK-1 structural gene (nukA) was cloned and sequenced. The deduced amino acid sequence of nukacin ISK-1 had 57 amino acids, including a 30-amino acid leader region. The propeptide sequence showed significant similarity to those of lacticin-481 type lantibiotics. In the region upstream of nukA, a part of a long open reading frame (ORF), designated as nukM, encoding a putative modification enzyme was oriented in the opposite direction. In the region downstream of nukA, ORF1 was found in which the sequence of the putative translational product was similar to various response regulatory proteins.     

Isolation and analysis of a genomic clone encoding a pokeweed antiviral protein

Partial cDNAs encoding a pokeweed antiviral protein were obtained by polymerase chain reaction from the poly(A)⁺ RNA of seeds, leaves, and roots using two specific primers based on the amino acid sequence of a pokeweed antiviral protein from the seeds (PAP-S). Using the cDNAs as a radioactive probe, 17 and 39 positive plaques were isolated from libraries containing the genomic DNA of Phytolacca americana digested with Bam HI partially and completely, respectively. The plaques were grouped into nine types by Southern hybridization. The type genomic clone encodes a protein of 294 amino acids. Its amino acid sequence is similar but not identical to that of PAP-S. A comparison of the two amino acid sequences suggested that the deduced protein contains extrapeptides of 24 and 9 amino acids at the NH₂ and the COOH terminals, respectively. The putative protein was expressed in Escherichia coli and shown to depurinate the specific adenine of wheat 25S rRNA, indicating that the protein encoded by a type genomic clone is a functional protein exhibiting RNA N-glycosidase activity.     

An acid and highly thermostable xylanase from <Emphasis Type="Italic">Phialophora</Emphasis> sp. G5

An endo-β-1,4-xylanase gene, designated xyn10G5, was cloned from Phialophora sp. G5 and expressed in Pichia pastoris. The 1,197-bp full-length gene encodes a polypeptide of 399 amino acids consisting of a putative signal peptide at residues 1–20, a family 10 glycoside hydrolase domain, a short Gly/Thr-rich linker and a family 1 carbohydrate-binding module (CBM). The deduced amino acid sequence of XYN10G5 shares the highest identity (53.4%) with a putative xylanase precursor from Aspergillus terreus NIH2624. The purified recombinant XYN10G5 exhibited the optimal activity at pH 4.0 and 70 °C, remained stable at pH 3.0–9.0 (>70% of the maximal activity), and was highly thermostable at 70 °C (retaining ~90% of the initial activity for 1 h). Substrate specificity studies have shown that XYN10G5 had the highest activity on soluble wheat arabinoxylan (350.6 U mg⁻¹), and moderate activity to various heteroxylans, and low activity on different types of cellulosic substrates. Under simulated gastric conditions, XYN10G5 was stable and released more reducing sugars from soluble wheat arabinoxylan; when combined with a glucanase (CelA4), the viscosity of barley–soybean feed was significantly reduced. These favorable enzymatic properties make XYN10G5 a good candidate for application in the animal feed industry.     

Molecular Cloning of a cDNA Encoding Ribosome Inactivating Protein from Amaranthus viridis and Its Expression in E. coli

In order to isolate a cDNA clone of ribosome inactivating protein (RIP), a cDNA library was constructed in Uni-ZAP XL vector with poly(A) RNA purified from leaves of Amaranthus viridis. To get the probe for screening the library, PCR of phage DNA was conducted using the vector primer and degenerate primer designed from a conserved putative active site of the RIPs. Twenty-six cDNA clones from about 600,000 plaques were isolated, and one of these clones was fully sequenced. It was 1,047 bp and contained an open reading frame encoding 270 amino acids. The deduced amino acid sequence had a putative signal sequence of 17 amino acids and a putative active site (AIQMVAEAARFFKYIE) conserved in other RIPs. E. coli cells expressing A. viridis RIP cDNA did not grow well as compared to control cells, indicating that recombinant A. viridis RIP presumably inactivated E. coli ribosomes. In addition, recombinant A. viridis RIP cDNA produced by E. coli had translation inhibition activity in vitro.