Immunodetection of RNA-Dependent RNA Polymerase from Turnip Yellow Luteovirus Using Monoclonal Antibodies

Monoclonal antibodies (MAbs) to the RNA-dependent RNA polymerase from turnip yellow luteovirus (TYV) were prepared using a recombinant protein as immunogen and were shown to be directed to C-terminal part of the viral replicase. These MAbs were found to interact with a 70-kDa protein found in extracts from TYV-infected plants. Our result is the first successful attempt at detecting the RNA-dependent RNA polymerase of a luteovirus in infected plant extracts. We also found that the protein is not processed further and its accumulation and content in the infected plant obey a definite dynamics during the infection.     

Differences in the envelope proteins ofChlamydia pneumoniae,Chlamydia trachomatis,andChlamydia psittaci shown by two-dimensional gel electrophoresis

Analysis by two-dimensional gel electrophoresis of theN-laurylsarkosinate(Sarkosyl)-insoluble envelope complexes ofl-^[35]S-cysteine-iabeled elementary bodies ofChlamydia pneumoniae strain IOL-207,Chlamydia trachomatis serovar LGV2, D, and F, andChlamydia psittaci strain 6BC showed differences in the molecular charges of chlamydial outer membrane proteins. The apparent isoelectric point (pI) of the major outer membrane protein ofC. pneumoniae strain IOL-207 was 6.4, whereas the pI of the major outer membrane protein of theC. trachomatis andC. psittaci strains differed little from one another, ranging from 5.3 to 5.5. The 60-kDa cysteinerich protein ofC. pneumoniae was the only 60-kDa chlamydial protein with a pI value (5.9) more acidic than that of the corresponding major outer membrane protein. As a general rule, the charges of both the 60-kDa and the lowmolecular-mass (12–15 kDa) cysteine-rich proteins were widely variable, depending on the strain. However, in cach individual strain, the variation of the charge of the 60-kDa protein had a compensatory change in the lowmolecular-mass cysteine-rich protein.     

Cloning and expression of antiviral/ribosome-inactivating protein from <Emphasis Type="Italic">Bougainvillea</Emphasis> x<Emphasis Type="Italic">buttiana</Emphasis>

A full-length cDNA encoding ribosome-inactivating/antiviral protein (RIP/AVP)from the leaves of Bougainvillea x buttiana was isolated.The cDNA consisted of 1364 nucleotides with an open reading frame (ORF)of 960 nucleotides encoding a 35.49 kDa protein of 319 amino acids.The deduced amino acid sequence has a putative active domain conserved in RIPs/AVPs and shows a varying phylogenetic relationship to the RIPs from other plant species.The deduced protein has been designated BBAP1 (Bougainvillea x buttiana antiviral protein1).The ORF was cloned into an expression vector and expressed in E.coli as a fusion protein of approximately 78 kDa.The cleaved and purified recombinant BBAP1 exhibited ribosome-inhibiting rRNA N-glycosidase activity,and imparted a high level of resistance against the tobacco mosaic virus (TMV).     

Protein expression of a self-compatible allele from Lycopersicon peruvianum: introgression and behavior in a self-incompatible background

Lycopersicon peruvianum (wild tomato) is a gametophytic self-incompatible (SI) species. One natural population has been shown to harbor a self-compatible (SC) allele. A stylar protein associated with the self-compatibility allele has been elucidated using SDS-PAGE. The temporal and spatial expression of this protein is presented and compared with protein expression of two SI alleles. Hybrids containing the SC and SI alleles were used in a backcrossing program to introgress the SC allele into SI backgrounds in six independent lines. Controlled pollinations and SDS-PAGE were used to identify and select classes of progeny. After four backcross generations (approximately 97% recovery of the SI backgrounds) the SC allele still confers self-fertility in lines that contain this allele, providing evidence that the mutation to SC occurred at the S-locus and that the associated protein is likely responsible.     

Engineering,expression, purification,and physicochemical characterization of a chimeric protein,full-length cytochrome <Emphasis Type="Italic">b</Emphasis><Subscript>5</Subscript>-green fluorescence protein (HMWb<Subscript>5</Subscript>-EGFP)

In this article we report on construction of expression vector, heterologous expression in Escherichia coli, isolation, purification, and physicochemical characterization of an artificial chimeric protein HMWb(5)-EGFP consisting of full-length cytochrome b(5) (HMWb(5)) and green fluorescence protein (EGFP) from Aequorea. Optimization of expression conditions yielded an expression level up to 1500 nmol of chimeric protein per liter of culture. Recombinant chimeric protein HMWb(5)-EGFP was purified from cell membranes by using metal-affinity chromatography. It possesses physicochemical, spectral, and fluorescence properties of cytochrome b(5) and EGFP indicating independent character of protein folding in frames of the chimera. It is shown that there is a fluorescent resonance energy transfer in HMWb(5)-EGFP between the fluorophore of EGFP and heme of cytochrome b(5), and the distance between chromophores in the chimeric protein is approximately 67.3 A. The chimeric protein was shown to exist as a monomer in aqueous solution in the presence of detergents. The data indicate that the HMWb(5)-EGFP designed in the present work is a very promising model for modern biosensors and an instrument to study protein-protein interactions.     

Salvaging Pyrococcus furiosus Protein Targets at SECSG

Proteins derived from the coding regions of Pyrococcus furiosus are targets for three-dimensional X-ray and NMR structure determination by the Southeast Collaboratory for Structural Genomics (SECSG). Of the 2200 open reading frames (ORFs) in this organism, 220 protein targets were cloned and expressed in a high-throughput (HT) recombinant system for crystallographic studies. However, only 96 of the expressed proteins could be crystallized and, of these, only 15 have led to structures. To address this issue, SECSG has recently developed a two-tier approach to protein production and crystallization. In this approach, tier-1 efforts are focused on producing protein for new Pfu(italics?) targets using a high-throughput approach. Tier-2 protein production efforts support tier-1 activities by (1) producing additional protein for further crystallization trials, (2) producing modified protein (further purification, methylation, tag removal, selenium labeling, etc) as required and (3) serving as a salvaging pathway for failed tier-1 proteins. In a recent study using this two-tiered approach, nine structures were determined from a set of 50 Pfu proteins, which failed to produce crystals suitable for X-ray diffraction analysis. These results validate this approach and suggest that it has application to other HT crystal structure determination applications.     

Molecular identification and comparison of the starch synthase bound to starch granules between endosperm and leaf blades in rice plants

Normal (nonglutinous) rice plants (Oryza sativa andO. glaberrima) contain more than 18% amylose in endosperm starch, whilewaxy (glutinous) plants lack it in this starch. In contrast, leaf starch contained more than 3.6% amylose even inwaxy plants. SDS-PAGE analysis of proteins bound to endosperm starch granules in the normal plants revealed a single band with aMr of 60 kd, whereaswaxy plants did not exhibit a similar band. The activity of starch synthase (NDP-glucose-starch glucosyltransferase) was completely inhibited by antibody against the 60-kd protein. Thus, we conclude that the 60-kd protein is thewaxy protein encoded by theWx allele, which also plays a role in the synthesis of nonglutinous starch in endosperm tissue. In leaf blades, the proteins bound to starch granules separated into five bands withMr's of 53.6 to 64.9 kd on SDS-PAGE. Analysis of these proteins by immunoblotting using antiserum againstWx protein and inhibition of starch synthase activity by the synthase antibody revealed that none of these proteins was homologous toWx protein. We suggest that the synthesis of amylose in leaf blades is brought about by a protein encoded by a gene(s) different from theWx gene expressed in the endosperm.     

The serine carboxypeptidase like gene family of rice (Oryza sativa L. ssp. japonica)

Serine carboxypeptidases (SCPs) comprise a large family of protein hydrolyzing enzymes and have roles ranging from protein turnover and C-terminal processing to wound responses and xenobiotic metabolism. The proteins can be classified into three groups, namely carboxypeptidase I, II and III, based on their coding protein sequences and the fact that each family is characterized by a central catalytic domain of unique topology designated as the “α/β hydrolase fold”. The available SCP protein sequences have been utilized as datasets to build a HMM (hidden Markov model) profile, which is used to search the rice (Oryza sativa L. ssp. japonica) proteome. A total of 71 SCP and serine carboxypeptidase-like (SCPL) protein-coding genes exist in rice. The intron-exon structure, chromosome localization, expression and characteristics of encoded protein sequences of the 71 putative genes are reviewed.     

Cloning and expression of cDNA encoding translationally controlled tumor protein from strawberry fruits

A cDNA encoding a putative translationally controlled tumor protein (TCTP) was isolated from a cDNA library made with mRNA isolated from red ripe strawberry fruits. This protein is highly conserved in all species analyzed. Expression of strawberry TCTP increased along the ripening of strawberry fruits, and is constitutively expressed in vegetative tissues. The putative function of this protein remains still unknown     

A small family of LLS1-related non-heme oxygenases in plants with an origin amongst oxygenic photosynthesizers

Conservation of Lethal-leaf spot 1 (Lls1) lesion mimic gene in land plants including moss is consistent with its recently reported function as pheophorbide a oxygenase (Pao) which catalyzes a key step in chlorophyll degradation (Pruzinska et al., 2003). A bioinformatics survey of complete plant genomes reveals that LLS1(PAO) belongs to a small 5-member family of non-heme oxygenases defined by the presence of Rieske and mononuclear iron-binding domains. This gene family includes chlorophyll a oxygenase (Cao), choline monooxygenase (Cmo), the gene for a 55 kDa protein associated with protein transport through the inner chloroplast membrane (Tic 55) and a novel 52 kDa protein isolated from chloroplasts (Ptc 52). Analysis of gene structure reveals that these genes diverged prior to monocot/dicot divergence. Homologues of LLS1(PAO), CAO, TIC55 and PTC52 but not CMO are found in the genomes of several cyanobacteria. LLS1(PAO), PTC52, TIC55 and a set of related cyanobacterial homologues share an extended carboxyl terminus containing a novel F/Y/W-x(2)-H-x(3)-C-x(2)-C motif not present in CAO. These proteins appear to have evolved during the transition to oxygenic photosynthesis to play various roles in chlorophyll metabolism. In contrast, CMO homologues are found only in plants and are most closely related to aromatic ring-hydroxylating enzymes from soil-dwelling bacteria, suggesting a more recent evolution of this enzyme, possibly by horizontal gene transfer. Our phylogenetic analysis of 95 extant non-heme dioxygenases provides a useful framework for the classification of LLS1(PAO)-related non-heme oxygenases.     

Overexpression of juvenile hormone binding protein in bacteria and Pichia pastoris

Galleria mellonella juvenile hormone binding protein (JHBP) is a single chain glycoprotein with two disulfide bonds and a molecular mass of 25,880 Da. This report describes the expression of JHBP in bacteria and yeast cells (Pichia pastoris). The expression in bacteria was low and the protein was rapidly degraded upon cell lysis. The expression of His8-tagged rJHBP (His8-rJHBP) in P. pastoris was high and the non-degraded protein was purified to homogeneity with high yield in a one-step immobilized Ni++ affinity chromatography. His8-rJHBP from P. pastoris contains one JH III binding site with KD of 3.7 +/- 1.3x10(-7) M. The results suggest that P. pastoris is the preferred system for expression of His8-rJHBP in non-degraded fully active form.     

A second generation snp-derived Escherichia coli-Streptomyces shuttle expression vector that is generally transferable by conjugation

An Escherichia coli-Streptomyces shuttle vector (pJN100) was constructed, by inserting an origin of transfer (oriT), derived from the E. coli broad host range plasmid RK2, into pANT1202, a high-copy-number vector for gene expression in Streptomyces. The resulting conjugably transferable vector contains the pANT1202-derived SnpR (LysR-like protein) activated snpA promoter that drives strong heterologous expression of proteins. We initially demonstrated that plasmid pJN100 was transferred with high frequency (10(-5-7) exconjugants per recipient) into several Streptomyces strains that were refractory to transformation by other means. Plasmid pJN100 was also shown to be stable in E. coli and Streptomyces. We confirmed functional protein expression by using a pJN100 derivative to complement a mutant of Streptomyces griseus with a disrupted chromosomal copy of the gene nonM, a gene encoding an essential reductase in the nonactin biosynthesis gene cluster. High levels of protein expression were confirmed using Western blotting to assess the production of the serine esterase NonR, an enzyme responsible for nonactin resistance in the nonactin producer S. griseus.     

Identification of a protein kinase gene associated with pistillody,homeotic transformation of stamens into pistil-like structures,in alloplasmic wheat

Homeotic transformation of stamens into pistil-like structures (called pistillody) has been reported in cytoplasmic substitution (alloplasmic) lines of bread wheat (Triticum aestivum) having the cytoplasm of a wild relative species, Aegilops crassa. Our previous studies indicated that pistillody is caused by alterations of the class B MADS-box gene expression pattern associated with mitochondrial gene(s) in the Ae. crassa cytoplasm. To elucidate the nuclear gene involved in the cross-talk between pistillody-related mitochondrial gene(s) and nuclear homeotic genes, we performed cDNA subtraction analysis using cDNAs derived from young spikes of a pistillody line and a normal line. As a result, we identified a protein kinase gene, WPPK1 (wheat pistillody-related protein kinase 1), which is upregulated in the young spikes of the pistillody line. RT-PCR analysis indicated that WPPK1 is strongly expressed in pistils and pistil-like stamens in the pistillody line, suggesting that it is involved in the formation of pistil-like stamens as well as pistils. The full-length cDNA sequence for WPPK1 showed high similarity with a flowering plant PVPK-1 protein kinase, and phylogenetic analysis indicated that it is a member of AGC group protein kinases. Furthermore, a phosphorylation assay indicated that it has protein kinase activity. In situ hybridization analysis revealed that WPPK1 is expressed in developing pistils and pistil-like stamens as well as in their primordia. These indicate that in the alloplasmic line, WPPK1 plays a role in formation and development of pistil-like stamens.     

A naturally occurring 46-amino acid deletion of cytidine monophospho-N-acetylneuraminic acid hydroxylase leads to a change in the intracellular distribution of the protein

Cytidine monophospho-N-acetylneuraminic acid (CMP-NeuAc) hydroxylase is a key enzyme for the expression ofN-glycolylneuraminic acid. The molecular cloning of this enzyme from mouse liver has been described in our previous report (Kawano T, Koyama S, Takematsu H, Kozutsumi Y, Kawasaki H, Kawashima S, Kawasaki T, Suzuki A (1995)J Biol Chem 270: 16458–63). During the cDNA cloning, a cDNA containing a truncated open reading frame (ORF) was isolated. This clone encodes a protein of 531 amino acids which lacks 46 amino acids in the middle of the normal full-length protein. The percentage of this mRNA containing the truncated ORF out of the total population of CMP-NeuAc hydroxylase mRNA in various mouse tissues was about 10–25%. The truncated protein was expressed in COS-1 cells, but did not show any enzymatic activity. The truncated protein was localized to the region which appeared to be the endoplasmic reticulum, whereas the full-length protein with normal enzymatic activity was detected in the cytosol. These data suggest that this naturally occurring 46-amino acid deletion leads to a change in the intracellular distribution of CMP-NeuAc hydroxylase, and a loss in the activity of this enzyme.     

The secY-rpmJ region of the spc ribosomal protein operon in Escherichia coli: structural alterations affecting secY expression

Summary A unique feature of the spc ribosomal protein operon is that its region distal to the promoter contains a gene (secY) for an integral membrane protein, followed by an open reading frame termed X which has recently been proposed to encode a new ribosomal protein (protein B). We now show that the open reading frame X indeed directs the synthesis of a protein with electrophoretic mobilities similar to the B protein, and this supports the proposal that X may be more appropriately called rpmJ. Insertion of a plasmid sequence into the secY-rpmJ boundary of the chromosome caused a reduced expression of secY probably by destabilizing the secY part of the message. The results of complementation experiments suggested that a normal level of expression of rpmJ is not required for growth or protein secretion.     

Topological and transcriptional analysis of <Emphasis Type="Italic">pssL</Emphasis> gene product: a putative Wzx-like exopolysaccharide translocase in <Emphasis Type="Italic">Rhizobium leguminosarum</Emphasis> bv. <Emphasis Type="Italic">trifolii</Emphasis> TA1

An identified pssL gene is yet another one, besides the pssT, pssN and pssP genes, encoding for a protein engaged in polysaccharide polymerization and export in Rhizobium leguminosarum bv. trifolii strain TA1 (RtTA1). Amino acid sequence similarity and hypothetical protein secondary structure placed the PssL protein within Wzx (RfbX) translocases with putative flippase function that belong to the polysaccharide specific transport (PST) family. The predicted secondary structure of the PssL membrane protein was examined with a series of PssL-PhoA and PssL-LacZ translational fusions. The results support the hypothesis of PssL being a member of PST protein family comprising transporters with 12 membrane spanning segments and amino and carboxyl termini located in the cytoplasm. Results of semi-quantitative RT-PCR showed that the initial abundance of mRNA encoding PssL protein was relatively lower when compared to the quantity of the previously identified PssT membrane protein. PssL might be a good candidate for Wzx-like protein that together with PssT (Wzy protein) could be responsible for Wzx/Wzy-like-dependent EPS polymerization and translocation in RtTA1.     

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.