Transcription of the extended <Emphasis Type="Italic">hyp</Emphasis>-operon in <Emphasis Type="Italic">Nostoc</Emphasis>sp. strain PCC 7120

Background  

The maturation of hydrogenases into active enzymes is a complex process and e.g. a correctly assembled active site requires the involvement of at least seven proteins, encoded by hypABCDEF and a hydrogenase specific protease, encoded either by hupW or hoxW. The N₂-fixing cyanobacterium Nostoc sp. strain PCC 7120 may contain both an uptake and a bidirectional hydrogenase. The present study addresses the presence and expression of hyp-genes in Nostoc sp. strain PCC 7120.     

Cloning and Characterization of Two Novel Crystal Protein Genes, <Emphasis Type="Italic">cry54Aa1</Emphasis> and <Emphasis Type="Italic">cry30Fa1</Emphasis>, from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strain BtMC28

Bacillus thuringiensis strain BtMC28 was isolated from the soil sample in China. Two novel crystal protein genes were found by using the PCR-RFLP method. Moreover, the full-length sequences of two novel genes were obtained by a single oligonucleotide nested (SON)-PCR upstream and downstream strategy. Sequence analysis revealed that one gene encoded a polypeptide of 673 amino acid residues with a molecular mass of 76.3 kDa, 38% identical to Cry10Aa, and the other encoded a polypeptide of 687 amino acid residues with a molecular mass of 77.1 kDa, 74% identical to Cry30Aa. These two novel crystal protein genes were designated as cry54Aa1 and cry30Fa1 by Bt Insecticidal Crystal Proteins Nomenclature Committee, respectively. The Cry54Aa1 and Cry30Fa1 proteins retained five conserved regions commonly found in the existing Cry proteins. Cry54Aa1 protein exhibited insecticidal activities against Laphygma exigua (Lepidoptera), Helicoverpa armigera (Lepidoptera), and Aedes aegypti (Diptera) when its encoding gene was expressed in an Escherichia coli host strain. The authors, Furong Tan and Jun Zhu contributed equally to this work.     

Functional analysis of <Emphasis Type="Italic">SlEZ1</Emphasis> a tomato <Emphasis Type="Italic">Enhancer of zeste</Emphasis> (<Emphasis Type="Italic">E(z))</Emphasis> gene demonstrates a role in flower development

The Enhancer of Zeste (E(z)) Polycomb group (PcG) proteins, which are encoded by a small gene family in Arabidopsis thaliana, have been shown to participate to the control of flowering and seed development. For the time being, little is known about the function of these proteins in other plants. In tomato E(z) proteins are encoded by at least two genes namely SlEZ1 and SlEZ2 while a third gene, SlEZ3, is likely to encode a truncated non-functional protein. The analysis of the corresponding mRNA demonstrates that these two genes are differentially regulated during plant and fruit development. We also show that SlEZ1 and SlEZ2 are targeted to the nuclei. These results together with protein sequence analysis makes it likely that both proteins are functional E(z) proteins. The characterisation of SlEZ1 RNAi lines suggests that although there might be some functional redundancy between SlEZ1 and SlEZ2 in most plant organs, the former protein is likely to play specific function in flower development.     

A PCR survey of <Emphasis Type="Italic">Hox</Emphasis> genes in the myzostomid <Emphasis Type="Italic">Myzostoma cirriferum</Emphasis>

Using degenerate primers, we were able to identify seven Hox genes for the myzostomid Myzostoma cirriferum. The recovered fragments belong to anterior class (Mci_lab, Mci_pb), central class (Mci_Dfd, Mci_Lox5, Mci_Antp, Mci_Lox4), and posterior class (Mci_Post2) paralog groups. Orthology assignment was verified by phylogenetic analyses and presence of diagnostic regions in the homeodomain as well as flanking regions. The presence of Lox5, Lox4, and Post2 supports the inclusion of Myzostomida within Lophotrochozoa. We found signature residues within flanking regions of Lox5, which are also found in annelids, but not in Platyhelminthes. As such the available Hox genes data of myzostomids support an annelid relationship. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The endoglucanase from <Emphasis Type="Italic">Bacillus</Emphasis><Emphasis Type="Italic">subtilis</Emphasis> BEC-1 bears halo-tolerant,acidophilic and dithiothreitol-stimulated enzyme activity

A Bacillus subtilis strain BEC-1 demonstrating high carboxymethylcellulose-degrading activity was isolated from the forest soil sample. In order to characterize the biochemical specialty of its cellulase, the endoglucanase gene egl173 was cloned from this strain and was expressed in Escherichia coli. The gene encoded a protein of 499 amino acids with a molecular weight of 64 kDa. The purified Egl173 could hydrolyze both soluble and insoluble celluloses with distinct activities. This enzyme showed the highest enzyme activity at pH 4, maintained at least 85% activity in the pH range of 3–7, displayed maximum activity at 60°C and was highly stable between 30 and 60°C. It was found that this endoglucanase was increasedly active and retained its high stability after incubation with 5 M NaCl or 3 M KCl for 24 h. Furthermore, after incubation with 10 mM of dithiothreitol, the enzyme activity was significantly enhanced (125% of the control level). In the presence of diverse metal ions (except mercury and manganese cations), organic solvents, surfactants (except SDS) and chelating agent, this enzyme kept more than 85% active. This halo-tolerant, acidophilic and highly stable endoglucanase is prospectively to be exploited as the advanced enzymatic product for diverse industrial applications.     

Overexpression of the <Emphasis Type="Italic">Activated Disease Resistance 1-like1</Emphasis> (<Emphasis Type="Italic">ADR1-L1</Emphasis>) Gene Results in a Dwarf Phenotype and Activation of Defense-Related Gene Expression in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

The protein encoded by the activated disease resistance 1-like1 (ADR1-L1) gene (locus name, At4g33300) belongs to the activated disease resistance 1 (ADR1) family of coiled-coil nucleotide-binding site leucine-rich repeat-type disease resistance proteins. This family contains four proteins and they have specific features in their amino acid sequences. It has been reported that ADR1 protein belongs to the ADR1 family, which is related to not only defense response but also drought tolerance. We found that transgenic plants overexpressing the ADR1-L1 gene showed a dwarf phenotype and morphological change in leaves. The expression levels of defense-related genes and the resistance to Pseudomonas syringae pv. tomato DC3000 were increased in transgenic plants. However, enhancement of drought tolerance and activation of abiotic response genes were not observed. When the growth temperature was changed from 22°C to 28°C, the expression of defense-related genes and the enhancement of resistance to a bacterial pathogen were suppressed and the dwarf phenotype and morphological change of leaves recovered.     

<Emphasis Type="Italic">In vivo</Emphasis> expression of copper-transporting proteins in rat brain regions

Expression of two copper-transporting P1-type ATPases (ATP7A and ATP7B), the CTR1 protein, a high-affinity copper transporter, and ceruloplasmin (Cp), a copper-containing ferroxidase was studied. The level of mRNA of these proteins was determined by RT-PCR analysis, the distribution of polypeptides encoded by these genes was determined by immunoblotting, and the type of cells expressing these genes was identified immunohistochemically. It was found that the major product of Cp gene in the brain is the cell membrane-bound Cp. Secretory Cp, whose molecule contains the greatest number of weakly associated copper atoms, is synthesized in the choroid plexus. CTR1 mRNA is evenly distributed in the brain; however, its content is twice higher in the vascular plexus. The Atp7a gene is active in all brain regions, whereas the Atp7b gene is active only in the hypothalamus. The membrane-bound Cp is expressed in glial cells of all types and in ependyma cells. ATP7B and ATP7A are expressed predominantly in ependymyocytes and neurons, respectively. The organization of copper transport in mammalian brain is discussed.Translated from Izvestiya Akademii Nauk, Seriya Biologicheskaya, No. 2, 2005, pp. 141–154.Original Russian Text Copyright © 2005 by Platonova, Barabanova, Povalikhin, Tsymbalenko, Danilovskii, Voronina, Dorokhova, Puchkova.     

Tolerance to and Accumulation of Cadmium by the Mycelium of the Fungi <Emphasis Type="Italic">Scleroderma citrinum</Emphasis> and <Emphasis Type="Italic">Pisolithus tinctorius</Emphasis>

Copper ions are too small to elicit an immune response. Therefore, copper was conjugated to carrier proteins using S-2-(4-isothiocyanatobenzyl)-1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid, a bifunctional chelator, to make artificial antigens for copper. Several mice were immunized, and monoclonal antibodies (MAbs) against chelated copper were produced. Spleen cells of immunized mice were fused with myeloma cells. The resulting hybridomas were screened using protein conjugates which were covalently bound to metal-free 1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA) or Cu-DOTA. Two hybridoma cell lines (F4 and B2) that produced MAbs with high selectivity and sensitivity were expanded for further study. Cross-reactivities with other metals were below 1%. These antibodies were used to construct competitive ELISAs for copper ions. The IC₅₀ for F4 and B2 were 0.39 and 1.66 mg/l, respectively. The detection range and the lowest detection limit for copper using the antibody F4 was 0.019–8.22 and 0.003 mg/l, respectively. Spike recovery studies in tap water showed that the most sensitive antibody could be used for copper detection in drinking water.     

Cloning of two cellobiohydrolase genes from <Emphasis Type="Italic">Trichoderma</Emphasis><Emphasis Type="Italic">viride</Emphasis> and heterogenous expression in yeast <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Cellobiohydrolase genes cbhI and cbhII were isolated from Trichoderma viride AS3.3711 and T. viride CICC 13038, respectively, using RT-PCR technique. The cbhI gene from T. viride AS3.3711 contains 1,542 nucleotides and encodes a 514-amino acid protein with a molecular weight of approximately 53.96 kDa. The cbhII gene from T. viride CICC 13038 was 1,413 bp in length encoding 471 amino acid residues with a molecular weight of approximately 49.55 kDa. The CBHI protein showed high homology with enzymes belonging to glycoside hydrolase family 7 and CBHII is a member of Glycoside hydrolase family 6. CBHI and CBHII play a role in the conversion of cellulose to glucose by cutting the disaccharide cellobiose from the non-reducing end of the cellulose polymer chain. The two cellobiohydrolase (CBHI, CBHII) genes were successfully expressed in Saccharomyces cerevisiae H158. Maximal activities of transformants Sc-cbhI and Sc-cbhII were 0.03 and 0.089 units ml⁻¹ under galactose induction, respectively. The optimal temperatures of the recombinant enzymes (CBHI, CBHII) were 60 and 70°C, respectively. The optimal pHs of recombinant enzymes CBHI and CBHII were at pH 5.8 and 5.0, respectively.     

Purification and properties of <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis><Emphasis Type="Italic">S</Emphasis>-adenosylmethionine synthetase expressed in recombinant <Emphasis Type="Italic">Pichia pastoris</Emphasis>

An intracellular S-adenosylmethionine synthetase (SAM-s) was purified from the fermentation broth of Pichia pastoris GS115 by a sequence chromatography column. It was purified to apparent homogeneity by (NH₄)₂SO₄ fractionation (30–60%), anion exchange, hydrophobic interaction, anion exchange and gel filtration chromatography. HPLC showed the purity of purified SAM-s was 91.2%. The enzyme was purified up to 49.5-fold with a final yield of 20.3%. The molecular weight of the homogeneous enzyme was 43.6 KDa, as determined by electro-spray ionization mass spectrometry (ESI-MS). Its isoelectric point was approximately 4.7, indicating an acidic character. The optimum pH and temperature for the enzyme reaction were 8.5 and 35 °C, respectively. The enzyme was stable at pH 7.0–9.0 and was easy to inactivate in acid solution (pH ≤ 5.0). The temperature stability was up to 45 °C. Metal ions, such as, Mn²⁺ and K⁺ at the concentration of 5 mM had a slight activation effect on the enzyme activity and the Mg²⁺ activated the enzyme significantly. The enzyme activity was strongly inhibited by heavy metal ions (Cu²⁺ and Ag²⁺) and EDTA. The purified enzyme from the transformed Pichia pastoris synthesized S-adenosylmethionine (SAM) from ATP and l-methionine in vitro with a K _m of 120 and 330 μM and V _max of 8.1 and 23.2 μmol/mg/min for l-methionine and ATP, respectively.     

Replicated associations of <Emphasis Type="Italic">TNFAIP3</Emphasis>, <Emphasis Type="Italic">TNIP1</Emphasis> and <Emphasis Type="Italic">ETS1</Emphasis> with systemic lupus erythematosus in a southwestern Chinese population

Introduction  

Recent genome-wide and candidate gene association studies in large numbers of systemic lupus erythematosus (SLE) patients have suggested approximately 30 susceptibility genes. These genes are involved in three types of biological processes, including immune complex processing, toll-like receptor function and type I interferon production, and immune signal transduction in lymphocytes, and they may contribute to the pathogenesis of SLE. To better understand the genetic risk factors of SLE, we investigated the associations of seven SLE susceptibility genes in a Chinese population, including FCGR3A, FCGR2A, TNFAIP3, TLR9, TREX1, ETS1 and TNIP1.     

Inventory and Comparative Evolution of the ABC Superfamily in the Genomes of <Emphasis Type="Italic">Phytophthora ramorum</Emphasis> and <Emphasis Type="Italic">Phytophthora sojae</Emphasis>

Automated and manual annotation of the ATP binding cassette (ABC) superfamily in the Phytophthora ramorum and P. sojae genomes has identified 135 and 136 members, respectively, indicating that this family is comparable in size to the Arabidopsis thaliana and rice genomes, and significantly larger than that of two fungal pathogens, Fusarium graminearum and Magnaporthe grisea. The high level of synteny between these oomycete genomes extends to the ABC superfamily, where 108 orthologues were identified by phylogenetic analysis. The largest subfamilies include those most often associated with multidrug resistance. The P. ramorum genome contains 22 multidrug resistance-associated protein (MRP) genes and 49 pleiotropic drug resistance (PDR) genes, while P. sojae contains 20 MRP and 49 PDR genes. Tandem duplication events in the last common ancestor appear to account for much of the expansion of these subfamilies. Recent duplication events in the PDR and ABCG families in both the P. ramorum and the P. sojae genomes indicate that selective expansion of ABC transporters may still be occurring. In other kingdoms, subfamilies define both domain arrangements and proteins having a common phylogenetic origin, but this is not the case for several subfamilies in oomycetes. At least one ABCG type transporter is derived from a PDR transporter, while transporters in the ABCB-half family cluster with transporters from bacterial, plant, and metazoan genomes. Additional examples of transporters that appear to be derived from horizontal transfer events from bacterial genomes include components of transporters associated with iron uptake and DNA repair. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

<Emphasis Type="Italic">Haloarcula marismortui</Emphasis> cytochrome <Emphasis Type="Italic">b-</Emphasis>561 is encoded by the <Emphasis Type="Italic">narC</Emphasis> gene in the dissimilatory nitrate reductase operon

The composition of membrane-bound electron-transferring proteins from denitrifying cells of Haloarcula marismortui was compared with that from the aerobic cells. Accompanying nitrate reductase catalytic NarGH subcomplex, cytochrome b-561, cytochrome b-552, and halocyanin-like blue copper protein were induced under denitrifying conditions. Cytochrome b-561 was purified to homogeneity and was shown to be composed of a polypeptide with a molecular mass of 40 kDa. The cytochrome was autooxidizable and its redox potential was −27 mV. The N-terminal sequence of the cytochrome was identical to the deduced amino acid sequence of the narC gene product encoded in the third ORF of the nitrate reductase operon with a unique arrangement of ORFs. The sequence of the cytochrome was homologous with that of the cytochrome b subunit of respiratory cytochrome bc. A possibility that the cytochrome bc and the NarGH constructed a supercomplex was discussed.     

Evolution of <Emphasis Type="Italic">mal</Emphasis> ABC transporter operons in the <Emphasis Type="Italic">Thermococcales</Emphasis> and <Emphasis Type="Italic">Thermotogales</Emphasis>

Background  

The mal genes that encode maltose transporters have undergone extensive lateral transfer among ancestors of the archaea Thermococcus litoralis and Pyrococcus furiosus. Bacterial hyperthermophiles of the order Thermotogales live among these archaea and so may have shared in these transfers. The genome sequence of Thermotoga maritima bears evidence of extensive acquisition of archaeal genes, so its ancestors clearly had the capacity to do so. We examined deep phylogenetic relationships among the mal genes of these hyperthermophiles and their close relatives to look for evidence of shared ancestry.