Carbohydrate-binding activity of the type-2 ribosome-inactivating protein SNA-I from elderberry (Sambucus nigra) is a determining factor for its insecticidal activity

In recent years, different classes of proteins have been reported to promote toxic effects when ingested. Type-2 ribosome-inactivating proteins (RIPs) are a group of chimeric proteins built up of an A-chain with RNA N-glycosidase activity and a B-chain with lectin activity. These proteins are thought to play a role in plant protection. Sambucus nigra agglutinin I (SNA-I) is a type-2 RIP, isolated from the bark of elderberry (S. nigra L.). This study demonstrated the insecticidal potency of SNA-I on two Hemipteran insect species using two different methods. An artificial diet supplemented with different concentrations of the purified RIP reduced survival and fecundity of pea aphids Acyrthosiphon pisum. In addition, feeding of tobacco aphids, Myzus nicotianae, on leaves from transfected plants constitutively expressing SNA-I, resulted in a delayed development and reduced adult survival and also the fertility parameters of the surviving aphids were reduced, suggesting that a population of aphids would build up significantly slower on plants expressing SNA-I. Finally, a series of experiments with transgenic lines in which a mutant RIP was expressed, revealed that the carbohydrate-binding activity of SNA-I is necessary for its insecticidal activity. In a first set of mutants, the B-chain was mutated at one position (Asp231ΔGlu), and in the second set both carbohydrate-binding sites were mutated (Asn48ΔSer and Asp231ΔGlu). Mutation of one carbohydrate-binding site strongly reduced the insecticidal activity of SNA-I, whereas mutation of both lectin sites (almost) completely abolished the SNA-I effect on tobacco aphids.     

Characterization of NADP-dependent malic enzyme from developing castor oil seed endosperm

Metabolic pathways sequestered within the leucoplast of developing oilseeds ensure a balanced supply of substrates and cofactors for fatty acid biosynthesis. NADP-dependent malic enzyme (NADP-ME) may be important in supplying both carbon and NADPH for fatty acid biosynthesis in the developing endosperm of the oilseed Ricinus communis. NADP-ME was purified 5160-fold to a specific activity of 18.2 U/mg protein. NADP-ME is a homotetramer with a native mass of 254 kDa and a subunit size of approximately 63 kDa. Effectors of castor NADP-ME are typical of the NADP-malic enzymes, with the exception of acetyl-CoA and its derivatives, which were found to act as activators. This is consistent with a regulatory role for these molecules during fatty acid biosynthesis in vivo. NADP-ME was found to have maximal activity at stage 7 of endosperm development, coincident with maximal lipid accumulation.     

Isolation and characterization of two tightly linked catalase genes from castor bean that are differentially regulated

Two catalase genes,cat1 andcat2, have been isolated from the castor bean genome. They were located in the same direction on a chromosome at a distance of 2.4 kb,cat1 being on the downstream side ofcat2. The two genes contained introns at the same positions except that one of the 7 introns incat1 is missing incat2 and the corresponding introns differed in size and sequence between the two genes. The translated regions of the two genes had the same number of nucleotides and exhibited 81.3% nucleotide sequence identity. In addition to introns, the nucleotide sequences of the 5-and 3-flanking regions are highly divergent between the two genes. In etiolated seedlings,cat1 mRNA was present abundantly in endosperms and cotyledons and only in a small amount in roots. Thecat1 mRNA could not be detected in hypocotyls. By contrast,cat2 mRNA is most abundant in hypocotyls and roots, while endosperms and cotyledons contained only low levels ofcat2 mRNA. Although neithercat1 norcat2 mRNA could be detected in dry seeds, both mRNAs showed temporal accumulation in the endosperm in response to germination. These results suggest that expression of two tightly linked catalase genes of castor bean,cat1 andcat2, are differentially regulated during development.     

Dehydration of model membranes induced by lectins from Ricinus communis and Viscum album.

The effects of ribosome-inactivating proteins (RIPs) from Ricinus communis and from Viscum album on the water permeability, Pf, and the surface dielectric constant, epsilon, of model membranes were studied. Pf was calculated from microelectrode measurements of the ion concentration distribution in the immediate vicinity of a planar membrane, and epsilon was obtained from the fluorescence of dansyl phosphatidylethanolamine incorporated into unilamellar vesicles. Pf and epsilon of fully saturated phosphatidylcholine membranes were affected only in the presence of a lectin receptor (monosialoganglioside, GM1) in the bilayer. It is suggested that the membrane area occupied by clustered lectin-receptor complexes is markedly less permeable to water. Protein binding to the receptor was not a prelude for hydrophobic lipid-protein interactions when the membranes were formed from a mixture of natural phospholipids with a high content of unsaturated fatty acids. These membranes, characterized by a high initial water permeability, were found to interact with the RIPs unspecifically. From a decrease of both Pf and epsilon it was concluded that not only water partitioning but also protein adsorption correlates with looser packing of polyunsaturated lipids at the lipid-water interface.     

蓖麻RcACA基因家族鉴定及非生物胁迫下表达模式分析

自抑制Ca^(2+)-ATPase酶(auto-inhibited Ca2+-ATPase,ACA)作为Ca2+-ATPase的亚家族之一,在植物细胞内维持Ca2+浓度平衡发挥着重要的作用。为探究蓖麻(Ricinus communis)RcACA基因家族的功能及基因表达模式,文中采用生物信息学手段鉴定蓖麻RcACA基因家族成员,预测分析了其基础的理化性质、亚细胞位置、蛋白的二级和三级结构、保守域、保守基序、基因结构、染色体位置及共线关系、进化特征、启动子顺式作用元件,并通过蓖麻转录组数据中的表达量(fragments per kilobase of exon model per million mapped fragments,FPKM)分析RcACA基因在非生物胁迫下的表达模式。结果表明,在蓖麻中共鉴定到8个RcACA基因家族成员,均是酸性蛋白且定位在细胞质膜;所有蛋白的二级和三级结构中α-螺旋和不规则卷曲较多;RcACA基因被聚为3类,同一类别中基因的结构与保守基序相似;均有典型的4个结构域RcACA3–RcACA8,还有1个Ca^(2+)-ATPase N端自抑制结构域(N-terminal autoinhibitory domain);RcACA基因多位于染色体长臂,拥有2对共线关系。RcACA基因编码区上游拥有较多的光响应作用元件,激素诱导类作用元件较少。种间聚类显示ACA基因在物种间的进化是保守的。组织表达模式分析显示,RcACA基因拥有明显的组织表达特异性,且多数基因在雄花中表达量最高;非生物胁迫表达分析表明,RcACA2–RcACA8在高盐和干旱胁迫下均上调表达,RcACA1在低温胁迫的0–24 h上调表达,表明RcACA基因积极地响应非生物胁迫。上述结果为探究RcACA基因在蓖麻生长发育和逆境胁迫中的作用提供了理论参考。     

Identification and functional expression of a type 2 acyl-CoA:diacylglycerol acyltransferase (DGAT2) in developing castor bean seeds which has high homology to the major triglyceride biosynthetic enzyme of fungi and animals

Seed oil from castor bean (Ricinus communis) contains high amounts of hydroxy fatty acid rich triacylglycerols (TAGs) that can serve as raw material for production of bio-based products such as nylon, cosmetics, lubricants, foams, and surfactants. Diacylglycerol acyltransferase (DGAT) catalyses the terminal reaction in the acyl-CoA dependent Kennedy pathway of triglyceride biosynthesis. There is still some debate whether there are three or four enzymes in yeast that have DGAT activity and catalyse the synthesis of TAG but of these the DGAT2 homologue Dga1 contributes in a major way to TAG biosynthesis. Here we report on the cloning of a cDNA for DGAT2 from castor bean and prove its biological activity following expression in yeast and enzymatic assays using diricinolein as the acceptor and ricinoleoyl-CoA as the donor. Previous reports of DGAT in castor have focussed on DGAT1 which has little amino acid sequence homology to DGAT2. Expressional studies demonstrate that DGAT2 is 18-fold more highly expressed in seeds than in leaves and shows temporal specific expression during seed development. In contrast, DGAT1 shows little difference in expression in seeds versus leaves. We conclude that in castor bean DGAT2 is more likely to play a major role in seed TAG biosynthesis than DGAT1.     

Sequence-specific interaction between ABD-B homeodomain and castor gene in Drosophila

We have examined the effect of bithorax complex genes on the expression of castor gene. During the embryonic stages 12-15, both Ultrabithorax and abdominal-A regulated the castor gene expression negatively, whereas Abdominal-B showed a positive correlation with the castor gene expression according to real-time PCR. To investigate whether ABD-B protein directly interacts with the castor gene, electrophoretic mobility shift assays were performed using the recombinant ABD-B homeodomain and oligonucleotides, which are located within the region 10 kb upstream of the castor gene. The results show that ABD-B protein directly binds to the castor gene specifically. ABD-B binds more strongly to oligonucleotides containing two 5''-TTAT-3'' canonical core motifs than the probe containing the 5''-TTAC-3'' motif. In addition, the sequences flanking the core motif are also involved in the protein-DNA interaction. The results demonstrate the importance of HD for direct binding to target sequences to regulate the expression level of the target genes. [BMB Reports 2014; 47(2): 92-97]     

Characterization of 10 MADS-box genes from Pyrus pyrifolia and their differential expression during fruit development and ripening

We cloned 10 Japanese pear (Pyrus pyrifolia) MIKC-type II MADS-box genes, and analyzed their expression during fruit development and ripening. PpMADS2-1 was APETALA (AP)1-like; PpMADS3-1 was FRUITFULL (FUL)/SQUAMOSA (SQUA)-like; PpMADS4-1 was AGAMOUS-like (AGL)6; PpMADS5-1 and PpMADS8-1 were SUPPRESSOR OF OVEREXPRESSION OF CONSTANS (SOC)-like; PpMADS9-1, PpMADS12-1, PpMADS14-1 and PpMADS16-1 were SEPALLATA (SEP)-like; while PpMADS15-1 was AGL/SHATTERPROOF (SHP)-like. Phylogenetic analysis showed their grouping into five major clades (and 10 sub-clades) that was consistent with their diverse functional types. Expression analysis in flower tissue revealed their distinct putative homeotic functional classes: A-class (PpMADS2-1, PpMADS3-1, PpMADS4-1, and PpMADS14-1), C-class (PpMADS15-1), E-class (PpMADS9-1, PpMADS12-1, and PpMADS16-1) and E (F)-class (PpMADS5-1 and PpMADS8-1). Differential gene expression was observed in different fruit tissues (skin, cortex and core) as well as in the cortex during the course of fruit development and ripening. Collectively, our results suggest their involvement in the diverse aspects of plant development including flower development and the course of fruit development and ripening.     

Stable genetic transformation of castor (Ricinus communis L.) via Agrobacterium tumefaciens-mediated gene transfer using embryo axes from mature seeds

A protocol for the transformation of castor embryo axes using the pCAMBIA vector 1304 in disarmed Agrobacterium tumefaciens strain EHA105 is presented. Co-cultivated explants were initially subjected to expansion and proliferation on MS medium with 0.5 mg l^–1 TDZ followed by three cycles of selection on medium with 0.5 mg l^–1 BA and increasing concentrations of hygromycin (20–40–60 mg l^–1). Selected shoot clusters were transferred to medium with 0.5 mg l^–1 BA for proliferation and 0.2 mg l^–1 BA for shoot elongation. Elongated shoots were rooted on half-strength MS medium with 2.0 mg l^–1 NAA. The presence and stable integration of the hpt gene was confirmed through PCR, RT-PCR, PCR-Southern blot, sequence analysis, Southern blot analysis and PCR analysis of progeny. Southern blot analysis of the primary transformants showed single copy integration and progeny analysis revealed monogenic inheritance of the introduced gene. This paper reports the first successful attempt at producing transgenic castor.     

The modified castor bean catalase intron is incompletely spliced in tobacco and Arabidopsis

In an attempt to insert the modified castor bean catalase intron (mCBC intron) into the coding sequence of the Cre recombinase gene, we found that the mCBC intron was not completely spliced from the resulting iCre gene in tobacco and Arabidopsis. Sequencing and allele-specific PCR analyses indicated that six nucleotides (UUACAG) at the 3′ terminus of the mCBC intron were retained in the mature mRNA of the iCre gene. Moreover, the mCBC intron was incompletely spliced from the Gus gene in pCAMBIA vectors. A mutational analysis of the mCBC intron demonstrated that the incomplete splicing was due to an artificial 3′ splice site introduced by the insertion of an adenine, which created a TAG (stop) codon near the 3′ splice site of the original CBC intron. Deletion of the inserted adenine or the six nucleotides that were retained from the mCBC intron led to the complete removal of the intron from the resulting iCre2 and iCre3 genes. Thus, in this study, we not only characterized the incomplete splicing event of the mCBC intron in tobacco and Arabidopsis, but also reported the construction of two intron-containing Cre recombinase genes that are useful for plant biotechnology applications.     

Spatiotemporal expression of Prdm genes during Xenopus development

Epigenetic regulation is known to be important in embryonic development, cell differentiation and regulation of cancer cells. Molecular mechanisms of epigenetic modification have DNA methylation and histone tail modification such as acetylation, phosphorylation and ubiquitination. Until now, many kinds of enzymes that modify histone tail with various functional groups have been reported and regulate the epigenetic state of genes. Among them, Prdm genes were identified as histone methyltransferase. Prdm genes are characterized by an N-terminal PR/SET domain and C-terminal some zinc finger domains and therefore they are considered to have both DNA-binding ability and methylation activity. Among vertebrate, fifteen members are estimated to belong to Prdm genes family. Even though Prdm genes are thought to play important roles for cell fate determination and cell differentiation, there is an incomplete understanding of their expression and functions in early development. Here, we report that Prdm genes exhibit dynamic expression pattern in Xenopus embryogenesis. By whole mount in situ hybridization analysis, we show that Prdm genes are expressed in spatially localized manners in embryo and all of Prdm genes are expressed in neural cells in developing central nervous systems. Our study suggests that Prdm genes may be new candidates to function in neural cell differentiation.     

Functional gold nanoparticles for studying the interaction of lectin with glycosyl complex on living cellular surfaces

In this study, lectin-conjugated gold nanoparticles (GNPs) were prepared by standard biotin-streptavidin chemistry. The lectin-conjugated GNPs can be used as an indicator for studying the interaction of lectin with glycosyl complex on living cellular surfaces due to the high affinity of the lectin with saccharides. The interactions of two well-known lectins (Ricinus communis agglutinin and concanavalin A) and three different cell lines (HeLa, 293, and 293T) were selected here to establish this assay. Highly binding affinity of R. communis agglutinin with cells was demonstrated by conventional microscopic and UV-visible spectroscopic studies. In addition, the binding process can be inhibited by galactose, giving further proof of the binding mechanism.     

Effects of gene regulatory reprogramming on gene expression in human and mouse developing hearts

Lineage-specific regulatory elements underlie adaptation of species and play a role in disease susceptibility. We compared functionally conserved and lineage-specific enhancers by cross-mapping 5042 human and 6564 mouse heart enhancers. Of these, 79 per cent are lineage-specific, lacking a functional orthologue. Heart enhancers tend to cluster and, commonly, there are multiple heart enhancers in a heart locus providing a regulatory stability to the locus. We observed little cross-clustering, however, between lineage-specific and functionally conserved heart enhancers suggesting regulatory function acquisition and development in loci previously lacking heart activity. We also identified 862 human-specific heart enhancers: 417 featuring sequence conservation with mouse (class II) and 445 with neither sequence nor function conservation (class III). Ninety-eight per cent of class III enhancers were deleted from the mouse genome, and we estimated a similar-sized enhancer gain in the human lineage. Human-specific enhancers display no detectable decrease in the negative selection pressure and are strongly associated with genes partaking in the heart regulatory programmes. The loss of a heart enhancer could be compensated by activity of a redundant heart enhancer; however, we observed redundancy in only 15 per cent of class II and III enhancer loci indicating a large-scale reprogramming of the heart regulatory programme in mammals.     

Stable genetic transformation of castor (<Emphasis Type="Italic">Ricinus communis</Emphasis> L.) via particle gun-mediated gene transfer using embryo axes from mature seeds

The first successful attempt to produce stably transformed castor plants through direct gene transfer using particle gun (BioRad) is described. Decotyledonated embryos from mature seeds were germinated and the embryonic axis was induced to proliferate on Murashige and Skoog (MS) medium supplemented with 0.5 mg l(-1) thidiazuron (TDZ) and subjected to bombardment after 5-7 days of pre-incubation. The physical parameters for transient transformation were optimized using the UidA gene encoding beta-glucuronidase (GUS) as the reporter gene and with hygromycin-phosphotransferase (hptII) gene as selectable marker. Statistical analysis revealed that helium pressure, target distance, osmoticum, microcarrier type and size, DNA quantity, explant type and number of bombardments had significant influence on transformation efficiency, while the effect of genotype was non-significant. Of the different variables evaluated, embryonic axes from mature seeds, a target distance of 6.0 cm, helium pressure of 1,100 psi, 0.6 mum gold microcarriers, single time bombardment and with both pre- and post-osmoticum were found ideal. Selection of putative transformants was done on MS medium supplemented with 0.5 mg l(-1) BA and hygromycin (20, 40 and 60 mg l(-1)) for 3 cycles. The stable integration of the incorporated gene into castor genome was confirmed with PCR and Southern analysis of T(0) and T(1) plants. Transformation frequency in terms of plants grown to maturity and showing the presence of the introduced genes was 1.4%. The present results demonstrate the possibility of transformation of embryonic meristematic tissues of castor through particle delivery system.