On the phylogeny, expression and targeting of plant nucleoside diphosphate kinases

The plant nucleoside diphosphate kinase (NDPK, EC 2.7.4.6) gene family consists of three groups whose gene products are found in different subcellular locations. In this study we discuss the evolutionary history, localization and expression of the NDPK genes, addressing the question of functional specialization of the different NDPKs. A phylogenetic analysis revealed that the three NDPK isoforms were present already in the last common ancestor of vascular plants and mosses. Our data also imply that the NDPK3 genes possess a higher degree of conservation than the NDPK1 and NDPK2 genes. The expression levels of the different NDPKs in Arabidopsis thaliana inflorescences, leaves and roots were evaluated using quantitative PCR as well as in silico methods. This analysis showed that NDPK1 is the most highly expressed NDPK gene in all the studied tissues. NDPK3a has the second highest NDPK expression, while NDPK3b is expressed to a very low extent. However, expression of NDPK3b is elevated in inflorescence tissue. In situ hybridization experiments performed on inflorescences showed NDPK3a expression in actively dividing cells. NDPK3b expression was observed during later stages of flower development, specifically in the tapetum, ovules and petals. Additionally, we show that an NDPK3 protein is able to direct the green fluorescent protein to both mitochondria and chloroplasts using transient expression in leaf protoplasts. The dual localisation of NDPK3 was confirmed by Western blot, which also demonstrated that the majority of the NDPK3 protein is found in the mitochondria.     

Trypanosoma cruzi: multiple nucleoside diphosphate kinase isoforms in a single cell

Nucleoside diphosphate kinases (NDPKs) are multifunctional enzymes involved mainly in the conservation of nucleotides and deoxynucleotides at intracellular levels. Here we report the characterization of two NDPKs from the protozoan parasite Trypanosoma cruzi, the etiological agent of Chagas disease. TcNDPK1 and TcNDPK2 were biochemically characterized presenting different kinetic parameters and regulation mechanisms. NDPK activity was mainly detected in soluble fractions according to the digitonin extraction technique; however 20% of the activity remains insoluble at digitonin concentrations up to 5 mg ml⁻¹. TcNDPK1 is a short enzyme isoform, whereas TcNDPK2 is a long one containing a DM10 motif. In addition, two other putative NDPK genes (TcNPDK3 and TcNDPK4) were detected by data mining at the T. cruzi genome database. The large number and diversity of NDPK isoforms are in agreement with those previously observed for other T. cruzi phosphotransferases, such as adenylate kinases.     

Molecular cloning and analysis of a cDNA coding for nucleoside diphosphate kinase from ryegrass

A full-length cDNA, LpNDPK, encoding ryegrass nucleoside diphosphate kinase (EC 2.7.4.6) has been cloned and sequenced. The nucleotide sequence of the clone contains an open reading frame of 450 nucleotides encoding a protein of 150 amino acid residues with a calculated molecular mass of 16.5 kDa and a P_i of 6.62. The LpNDPK encoded protein possesses substantial homology with nucleoside diphosphate kinases (NDPKs) isolated and cloned form other sources; the highest identity (86 percnt;) was observed with NDPK from sugarcane (Saccharum officinarum). Amino acid comparisons with other NDPKs show that the presented ryegrass NDPK sequence also contains several motifs and specific residues crucial for catalytic activity which are highly conserved among other NDPKs. RT-PCR expression analysis using primers covering the coding region of LpNDPK revealed that the ryegrass NDPK gene is equally expressed in stem, leaf, and flower tissue.     

Characterization of a cytosolic nucleoside diphosphate kinase associated with cell division and growth in potato

A cDNA encoding Solanum chacoense cytosolic NDPK (NDPK1, EC 2.7.4.6) was isolated. The open reading frame encoded a 148 amino acid protein that shares homology with other cytosolic NDPKs including a conserved N-terminal domain. S. chacoense NDPK1 was expressed in Escherichia coli as a 6×His-tagged protein and purified by affinity chromatography. The recombinant protein exhibited a pattern of abortive complex formation suggesting that the enzyme is strongly regulated by the NTP/NDP ratio. A polyclonal antibody generated against recombinant NDPK1 was specific for the cytosolic isoform in Solanum tuberosum as shown from immunoprecipitation experiments and immunoblot analysis of chloroplasts and mitochondria preparations. NDPK activity and NDPK1 protein were found at different levels in various vegetative and reproductive tissues. DEAE fractogel analyses of NDPK activity in root tips, leaves, tubers and cell cultures suggest that NDPK1 constitutes the bulk of extractable NDPK activity in all these organs. NDPK activity and NDPK1 protein levels raised during the exponential growth phase of potato cell cultures whereas no rise in activity or NDPK1 protein was observed when sucrose concentration in the culture was manipulated to limit growth. Activity measurements, immunoblot analysis as well as immunolocalization experiments performed on potato root tips and shoot apical buds demonstrated that NDPK1 was predominantly localized in the meristematic zones and provascular tissues of the apical regions. These data suggest that NDPK1 plays a specific role in the supply of UTP during early growth of plant meristematic and provascular tissues.     

Structural analysis of Arabidopsis thaliana nucleoside diphosphate kinase-2 for phytochrome-mediated light signaling

In plants, nucleoside diphosphate kinases (NDPKs) play a key role in the signaling of both stress and light. However, little is known about the structural elements involved in their function. Of the three NDPKs (NDPK1-NDPK3) expressed in Arabidopsis thaliana, NDPK2 is involved in phytochrome-mediated signal transduction. In this study, we found that the binding of dNDP or NTP to NDPK2 strengthens the interaction significantly between activated phytochrome and NDPK2. To better understand the structural basis of the phytochrome-NDPK2 interaction, we determined the X-ray structures of NDPK1, NDPK2, and dGTP-bound NDPK2 from A.thaliana at 1.8A, 2.6A, and 2.4A, respectively. The structures showed that nucleotide binding caused a slight conformational change in NDPK2 that was confined to helices alphaA and alpha2. This suggests that the presence of nucleotide in the active site and/or the evoked conformational change contributes to the recognition of NDPK2 by activated phytochrome. In vitro binding assays showed that only NDPK2 interacted specifically with the phytochrome and the C-terminal regulatory domain of phytochrome is involved in the interaction. A domain swap experiment between NDPK1 and NDPK2 showed that the variable C-terminal region of NDPK2 is important for the activation by phytochrome. The structure of Arabidopsis NDPK1 and NDPK2 showed that the isoforms share common electrostatic surfaces at the nucleotide-binding site, but the variable C-terminal regions have distinct electrostatic charge distributions. These findings suggest that the binding of nucleotide to NDPK2 plays a regulatory role in phytochrome signaling and that the C-terminal extension of NDPK2 provides a potential binding surface for the specific interaction with phytochromes.     

Nucleoside diphosphate kinase activity in soluble transducin preparations biochemical properties and possible role of transducin-beta as phosphorylated enzyme intermediate.

Known nucleoside diphosphate kinases (NDPKs) are oligomers of 17-23-kDa subunits and catalyze the reaction N1TP + N2DP --> N1DP + N2TP via formation of a histidine-phosphorylated enzyme intermediate. NDPKs are involved in the activation of heterotrimeric GTP-binding proteins (G-proteins) by catalyzing the formation of GTP from GDP, but the properties of G-protein-associated NDPKs are still incompletely known. The aim of our present study was to characterize NDPK in soluble preparations of the retinal G-protein transducin. The NDPK is operationally referred to as transducin-NDPK. Like known NDPKs, transducin-NDPK utilizes NTPs and phosphorothioate analogs of NTPs as substrates. GDP was a more effective phosphoryl group acceptor at transducin-NDPK than ADP and CDP, and guanosine 5'-[gamma-thio]triphosphate (GTP[S]) was a more effective thiophosphoryl group donor than adenosine 5'-[gamma-thio]triphosphate (ATP[S]). In contrast with their action on known NDPKs, mastoparan and mastoparan 7 had no stimulatory effect on transducin-NDPK. Guanosine 5'-[beta, gamma-imido]triphosphate (p[NH]ppG) potentiated [3H]GTP[S] formation from [3H]GDP and ATP[S] but not [3H]GTP[S] formation from [3H]GDP and GTP[S]. Depending on the thiophosphoryl group acceptor and donor, [3H]NTP[S] formation was differentially regulated by Mg2+, Mn2+, Co2+, Ca2+ and Zn2+. [gamma-32P]ATP and [gamma-32P]GTP [32P]phosphorylated, and [35S]ATP[S] [35S]thiophosphorylated, a 36-kDa protein comigrating with transducin-beta. p[NH]ppG potentiated [35S]thiophosphorylation of the 36-kDa protein. 32P-labeling of the 36-kDa protein showed characteristics of histidine phosphorylation. There was no evidence for (thio)phosphorylation of 17-23-kDa proteins. Our data show the following: (a) soluble transducin preparations contain a GDP-prefering and guanine nucleotide-regulated NDPK; (b) transducin-beta may serve as a (thio)phosphorylated NDPK intermediate; (c) transducin-NDPK is distinct from known NDPKs and may consist of multiple kinases or a single kinase with multiple regulatory domains.     

Characterization of two genes expressed in the salivary glands of the Hessian fly, Mayetiola destructor (Say)

Two genes, SSGP-11A1 and SSGP-12A1, have been isolated that encodes proteins with a secretion signal peptide at theN-terminals from the Hessian fly (Mayetiola destructor (Say)). The SSGP-11A1 gene contains one small intron (89 bp) and encodes a putative protein with 79 amino acids. The first 18 amino acids constitute a putative secretion signal peptide. The SSGP-12A1 gene contains three small introns and encodes a putative protein with 234 amino acids. The first 19 amino acids constitute a putative secretion signal peptide. Northern blot analysis revealed that both of the genes are primarily expressed in the salivary glands of Hessian fly larvae, the feeding stage of the insect. These observations are consistent with the possibility that the proteins encoded by them are secreted into host plants during feeding. Even though both genes are exclusively expressed in Hessian fly larvae, the expression profiles between them were quite different in insects at different instars. The SSGP-11A1 gene was expressed in all instars of larvae while the SSGP-12A1 gene was almost exclusively expressed in the first instar larvae. The differential expression suggests that the proteins encoded by these two genes may perform different functions. In situ hybridization revealed that the SSGP-11A1 gene is located on the short arm of chromosome A1 while SSGP-12A1 gene is on the long arm of chromosome A2.     

Identification and characterisation of a homolog of an activation gene for the recombination activating gene 1 (RAG 1) in amphioxus

Expression of recombination activating genes (RAG) involved in the V (D) J recombination is regulated by the RAG1 gene activator (RGA) in mammals. The sequence of a cDNA clone from an amphioxus cDNA library was found to be homologous to that of RGA from mouse stromal cells with 45% identity. The full-length cDNA sequence comprises 1119 bp and encodes a putative protein of 210 amino acid residues. Characterisation of the amino acid sequence revealed that two MtN3 domains and seven transmembrane spans are present in this protein, indicating a potential role as a plasma membrane protein. This gene is expressed in many tissues and at differential developmental stages. A high expression level of RGA is detected in gonad tissues, and gastrula embryo and adult stages. The presence of the RGA gene in amphioxus suggests that the signal pathway required for the expression of RAG could exist in this primitive protochordate. It also implies that in the related molecules, primitive adaptive immunity may have existed in cephalochordate although the complete machinery of VDJ rearrangement may not be formed.     

Molecular cloning of low-temperature-inducible ribosomal proteins from soybean

Three ribosomal protein genes induced by low-temperature treatment were isolated from soybean. GmRPS13 (742 bp) encodes a 17.1 kDa protein which has 95% identity with the 40S ribosomal protein S13 of Panax ginseng (AB043974). GmRPS6 (925 bp) encodes a 28.1 kDa protein which has 94% identity with the 40S ribosomal protein S6 of Asparagus officinalis (AJ277533). GmRPL37 (494 bp) encodes a 10.7 kDa protein which has 85% identity with the 60S ribosomal protein L37 of Arabidopsis thaliana (AF370216). The expression of these ribosomal protein genes started to increase 3 d after low-temperature treatment, whereas the cold-stress protein src1 was highly induced from the first day. Such late response of these ribosomal protein genes may be due to secondary signals during cold adaptation. The induction of ribosomal protein genes might enhance the translation process or help proper ribosome functioning under low-temperature conditions.     

Septin14, a gene specifically expressed in the testis and seminal vesicle of the Banna mini-pig inbred line (BMI)

Septin14 is an important spermatogenesis related gene involved in the pathogenesis of male infertility that has not been well studied. Here, full-length Septin14 cDNA of the Banna mini-pig inbred line (BMI) was cloned using the RACE method and expressed in pig kidney epithelial cells (PK15) and E. coli Rosetta (DE3) cells. Septin14 expression was identified in somatic tissues and testis in different developmental stages. The pig Septin14 CDS is 1,299 bp long, and encodes a peptide (or protein) of 432 amino acids (MW=50.4 kDa). Phylogenetic analysis indicated that pig Septin14 was highly evolutionarily conserved. Subcellular localization of GFP-tagged Septin14 fusion protein revealed that Septin14 was distributed throughout the testicular cells. Among 34 pig tissues, Septin14 mRNA was found specifically in testis and seminal vesicle. In six different postnatal developmental stages, the testicular level of Septin14 mRNA was barely detectable on day 2, while the highest level occurred on day 75. The spatiotemporal expression profile of Septin14, reported herein for the first time in pig, indicated that Septin14 might be involved in the division, development and apoptosis of germ cells. Furthermore, using a pET prokaryotic expression system, we expressed and isolated recombinant 67.9 kDa Septin14 protein.     

利用抑制消减杂交分离受褐飞虱取食下调的水稻基因

为了分离受褐飞虱取食抑制的水稻基因,采用抑制消减杂交的方法,以正常生长的水稻幼苗为目标群体,以褐飞虱胁迫32 h的水稻幼苗作为对照群体,构建了含200个重组质粒的SSH cDNA文库.随机挑选50个重组质粒进行反向Northern差异筛选后,再经Northern杂交验证,得到2个受褐飞虱取食抑制的基因:一个是Lhca,编码水稻光系统Ⅰ天线蛋白;另一个基因(bpHd002)与肌苷-5'-单磷酸脱氢酶基因有同源性.以BpHd002为探针筛选水稻幼苗cDNA文库分离出该基因的全长cDNA(BpHd002A).其长度为1 285bp,含有一由519 bp组成的完整的阅读框,编码的蛋白质具有两个CBS结构域.     

4个棉花ADF基因的分子鉴定及其差异表达

肌动蛋白解聚合因子(actin-depolymerizing factor, ADF)是一种在真核生物中广泛存在的低分子量的肌动蛋白结合蛋白,它在调控细胞内肌动蛋白纤丝的解聚合和再聚合中起着关键作用。我们在棉纤维cDNA文库中分离克隆了4个ADF基因(cDNAs),分别命名为GhADF2,GhADF3,GhADF4,GhADF5。GhADF2 cDNA 长度为705 bp,编码139个氨基酸;GhADF3 cDNA长度为819 bp,编码139个氨基酸;GhADF4 cDNA长度为804 bp,编码143个氨基酸;GhADF5 cDNA长度为644 bp,编码141个氨基酸。分析表明,GhADF2与GhADF3的氨基酸序列同源性为99%。而且,GhADF2/3与矮牵牛PeADF2之间的氨基酸序列同源性也高达89%。GhADF4与拟南芥AtADF6的亲缘关系较近,二者的氨基酸序列同源性为78%。GhADF5与拟南芥AtADF5的亲缘关系较近,氨基酸序列的同源性为83%。上述结果表明植物ADF基因在进化中具有高度保守性。RT-PCR分析表明,GhADF2在纤维中优势表达,而GhADF5基因则在子叶中表达量最高。另一方面,GhADF3和GhADF4似乎不具有组织特异性或偏爱性表达。同一组织中不同GhADF基因表达量有较大的差异,表明它们可能涉及棉花不同组织生长发育过程的调节。而且,在进化过程中,各ADF同分异构体之间可能发展形成某种功能上的差异性。     

Physiological and biochemical characterization of three nucleoside diphosphate kinase isozymes from rice (Oryza sativa L.)

Nucleoside diphosphate kinase (NDPK) is a ubiquitous enzyme that catalyzes the transfer of the γ-phosphoryl group from a nucleoside triphosphate to a nucleoside diphosphate. In this study, we examined the subcellular localization, tissue-specific gene expression, and enzymatic characteristics of three rice NDPK isozymes (OsNDPK1-OsNDPK3). Sequence comparison of the three OsNDPKs suggested differential subcellular localization. Transient expression of green fluorescence protein-fused proteins in onion cells indicated that OsNDPK2 and OsNDPK3 are localized to plastid and mitochondria respectively, while OsNDPK1 is localized to the cytosol. Expression analysis indicated that all the OsNDPKs are expressed in the leaf, leaf sheath, and immature seeds, except for OsNDPK1, in the leaf sheath. Recombinant OsNDPK2 and OsNDPK3 showed lower optimum pH and higher stability under acidic pH than OsNDPK1. In ATP formation, all the OsNDPKs displayed lower K(m) values for the second substrate, ADP, than for the first substrate, NTP, and showed lowest and highest K(m) values for GTP and CTP respectively.     

蒺藜苜蓿DGAT1基因的克隆和功能鉴定

该研究采用RT-PCR与电子克隆的方法,从蒺藜苜蓿cDNA中克隆得到2个编码二脂酰甘油酰基转移酶(diacylglycerol acyltransferase,DGAT)的基因MtDGAT1-1和MtDGAT1-2。MtDGAT1-1长1 620bp,编码539个氨基酸;MtDGAT1-2长1 524bp,编码507个氨基酸。多序列比对显示,MtDGAT1-1和MtDGAT1-2编码蛋白具有典型的植物DGAT1结构域。表达分析显示,MtDGAT1-1和MtDGAT1-2在根、茎、叶、花、种子中都有表达,在种子发育中高表达,且MtDGAT1-1于种子发育的中前期高表达,而MtDGAT1-2于种子发育的中后期高表达。酵母互补实验证实,MtDGAT1-2编码蛋白具有DGAT酶活性,能够恢复H1246的TAG合成和油体形成;而MtDGAT1-1编码蛋白不能恢复H1246的TAG合成和油体形成。     

Cloning and characterization of genes encoding trehalose-6-phosphate synthase (TPS1) and trehalose-6-phosphate phosphatase (TPS2) from Zygosaccharomyces rouxii

In many organisms, trehalose protects against several environmental stresses, such as heat, desiccation, and salt, probably by stabilizing protein structures and lipid membranes. Trehalose synthesis in yeast is mediated by a complex of trehalose-6-phosphate synthase (TPS1) and trehalose-6-phosphate phosphatase (TPS2). In this study, genes encoding TPS1 and TPS2 were isolated from Zygosaccharomyces rouxii (designated ZrTPS1 and ZrTPS2, respectively). They were functionally identified by their complementation of the tps1 and tps2 yeast deletion mutants, which are unable to grow on glucose medium and with heat, respectively. Full-length ZrTPS1 cDNA is composed of 1476 nucleotides encoding a protein of 492 amino acids with a molecular mass of 56 kDa. ZrTPS2 cDNA consists of 2843 nucleotides with an open reading frame of 2700 bp, which encodes a polypeptide of 900 amino acids with a molecular mass of 104 kDa. The amino acid sequence encoded by ZrTPS1 has relatively high homology with TPS1 of Saccharomyces cerevisiae and Schizosaccharomyces pombe, compared with TPS2. Western blot analysis showed that the antibody against S. cerevisiae TPS1 recognizes ZrTPS1. Under normal growth conditions, ZrTPS1 and ZrTPS2 were highly and constitutively expressed, unlike S. cerevisiae TPS1 and TPS2. Salt stress and heat stress reduced the expression of the ZrTPS1 and ZrTPS2 genes, respectively.     

巴西橡胶树HbCMK基因的克隆及表达

根据植物CMK(4-Diphosphocytidyl-2C-methyl-D-erythritol Kinase,CMK)的同源序列设计引物,通过RT-PCR结合RACE的方法在橡胶树中获得了与其相应的CMK基因,命名为HbCMK.序列分析表明HbCMK长1 415 bp,编码388个氨基酸,该氨基酸序列与长春花(Catharanthus roseus)、拟南芥(Arabidopsis thaliana)、甜菊(Stevia rebaudiana)、丹参(Salvia miltiorrhiza)、烟草(Nicotiana benthamiana)和水稻(Oryza sativa)的CMK相似性分别达到72.6%、72.5%、71.9%、70.9%、69.0%和66.9%.半定量RT-PCR结果显示,HbCMK的表达具有组织差异性,在愈伤组织中大量表达,在叶片和胶乳中微量表达,乙烯诱导胶乳HbCMK的表达,伤害对HbCMK的表达几乎没有影响.本实验结果为进一步了解MEP途径在橡胶树胶乳中的作用和天然橡胶生物合成的调控奠定了基础.