AtBS14a and AtBS14b, two Bet1/Sft1-like SNAREs from Arabidopsis thaliana that complement mutations in the yeast SFT1 gene

SNAREs are membrane-associated proteins that play a central role in vesicle targeting and intra-cellular membrane fusion reactions in eukaryotic cells. Here we describe the identification of AtBS14a and AtBS14b, putative SNAREs from Arabidopsis thaliana that share 60% amino acid sequence identity. Both AtBS14a and BS14b are dosage suppressors of the temperature-sensitive growth defect in sft1-1 cells and over-expression of either AtBS14a or AtBS14b can support the growth of sft1Δ cells but not bet1Δ cells. These data together with structure–function and biochemical studies presented herein suggest that AtBS14a and AtBS14b share properties that are consistent with them being members of the Bet1/Sft1 SNARE protein family.     

拟南芥ERD15基因缺失突变体的分子鉴定和表型分析

为探究ERD15基因功能,利用反向遗传学,通过PCR及半定量PCR筛选鉴定出拟南芥(Arabidopsis thaliana) ERD15基因的T-DNA插入纯合突变体,并对其表型进行观察分析。结果表明,erd15突变体莲座叶数目显著增多,提前3～4 d开花,突变体比野生型更早从营养生长转向生殖生长。拟南芥野生型植株主茎为圆柱体,平均直径1.29 mm,而erd15突变体主茎扁平,平均直径达到2.27mm,具极显著差异。与野生型相比,erd15突变体果实心皮发育受到影响,隔膜上排列有多排种子,果荚顶端膨大,长度缩短37.67%,但角果平均结籽数升高。因此,ERD15基因参与了调控拟南芥植株的生殖生长过程。     

Analysis of a repetitive DNA family from Arabidopsis arenosa and relationships between Arabidopsis species

We have analysed a family of highly repetitive DNA from Arabidopsis arenosa (L.) Lawalrée [syn. Cardaminopsis arenosa (L.) Hayck] composed of AT-rich tandem repeats of 166–179 bp in head to tail organization. Sequence comparison between several repeat units revealed a high level of divergence of 4.5% to 25%. The sequence family shows more than 58% homology to satellite sequences described in Arabidopsis thallana (L.) Heynh. but no homology to other satellite repeats in the Cruciferae. Within the genus Arabidopsis the satellite sequence was found to be present in A. thaliana and Arabidopsis suecica (Fries) Norrlin, but not in Arabidopsis griffithiana (Boiss.) N. Busch and Arabidopsis pumila (Stephan) N. Busch. In situ hybridization to metaphase chromosomes of A. arenosa (2n=4x=32) showed the sequence to be localized at the centromeres of all 32 chromosomes with substantial hybridization along the chromosome arms. Using Southern hybridization and in situ hybridization, we give evidence that A. suecica is a hybrid of A. thaliana and A. arenosa. A considerable reorganization of the A. thaliana satellite sequence pAL1 occurred in the hybrid genome while no molecular change of the A. arenosa repeat was observed in the hybrid. Analysis of related repeats enabled differentiation between closely related genomes and are useful for the investigation of hybrid genomes.     

A novel chimeric MOMP antigen expressed in Escherichia coli, Arabidopsis thaliana, and Daucus carota as a potential Chlamydia trachomatis vaccine candidate

The major outer membrane protein (MOMP) of Chlamydia trachomatis is a highly antigenic and hydrophobic transmembrane protein. Our attempts to express the full-length protein in a soluble form in Escherichia coli and in transgenic plants failed. A chimeric gene construct of C. trachomatis serovar E MOMP was designed in order to increase solubility of the MOMP protein but with retained antigenicity. The designed construct was successfully expressed in E. coli, in Arabidopsis thaliana, and in Daucus carota. The chimeric MOMP expressed in and purified from E. coli was used as antigen for production of antibodies in rabbits. The anti-chimeric MOMP antibodies recognized the corresponding protein in both E. coli and in transgenic plants, as well as in inactivated C. trachomatis elementary bodies. Transgenic Arabidopsis and carrots were characterized for the number of MOMP chimeric genetic inserts and for protein expression. Stable integration of the transgene and the corresponding protein expression were demonstrated in Arabidopsis plants over at least six generations. Transgenic carrots showed a high level of expression of the chimeric MOMP – up to 3% of TSP.     

Characterization of a gene highly expressed in the Brassica napus pistil that encodes a novel proline-rich protein

Pis 30, a gene highly expressed in Brassica napus pistils and encoding a novel proline-rich protein was isolated and characterized. Sequences homologous to the Brassica Pis 30 gene were found only in Arabidopsis thaliana. The Pis 30 gene encodes a mature protein of 8.4 kDa with no previously characterized protein domains and whose function remains unknown. PIS 30 contains especially high levels of Pro (33%), but also of Leu (14%), Phe (10%) and Ser (6%). Although it is a proline-rich protein, PIS 30 shows only limited similarity to previously characterized plant proline-rich proteins. When compared to the stigma-specific activity of the B. napus SLR1 gene promoter in pistils of transgenic Arabidopsis, an 808 bp Pis 30 promoter fragment directed -glucuronidase expression primarily in the ovary, as well as in the stigma.     

Isolation and characterization of an auxin-inducible glutathione S-transferase gene of Arabidopsis thaliana

Genes homologous to the auxin-inducible Nt103 glutathione S-transferase (GST) gene of tobacco, were isolated from a genomic library of Arabidopsis thaliana. We isolated a clone containing an auxin-inducible gene, At103-1a, and part of a constitutively expressed gene, At103-1b. The coding regions of the Arabidopsis genes were highly homologous to each other and to the coding region of the tobacco gene but distinct from the GST genes that have been isolated from arabidopsis thusfar. Overexpression of a cDNA clone in Escherichia coli revealed that the AT103-1A protein had GST activity.     

拟南芥基因密码子偏爱性分析

密码子偏爱性对外源基因的表达强度有一定影响,特别是编码蛋白质N端7～8个氨基酸残基的密码子.通过对拟南芥染色体中26 827个蛋白质对应的基因密码子进行分析,得到了编码氨基酸的61种密码子在拟南芥中的使用频率,并与大肠杆菌和哺乳动物进行了比较,结果表明三者间的密码子偏爱性有较大差异.这一分析结果对于动物基因在植物中的表达,及植物基因在微生物中的表达具有一定指导意义.同时提供了一种直接以XML文档为数据源解析巨型XML格式染色体数据的方法.     

一株耐盐甲基杆菌Methylobacterium sp.W-1的分离及促生潜能研究

[背景] 多种甲基杆菌属细菌对寄主植物有促生作用,其分布区域较广。筛选具有耐盐与促生特性的甲基杆菌属菌株可为微生物菌肥的开发提供依据。[目的] 从新疆乌尔禾地区盐渍土壤中筛选耐盐促生菌,对其培养基成分进行优化及促生能力进行研究,为微生物菌肥的开发提供依据。[方法] 采用阿须贝无氮培养基筛选耐盐菌株,对菌株进行基因序列分析及生理生化测定,采用平板试验法初步研究该菌对拟南芥的生长影响。[结果] 筛选出中度耐盐菌株W-1,经鉴定为甲基杆菌属（Methylobacteriumsp.）。菌株生长最佳无机盐为NaCl,最适浓度为1%–3%,最高耐受浓度达7%。最佳氮源为酸水解酪蛋白,产生长素最高达33.53 mg/L。溶磷能力达28.71 mg/L。菌株W-1接种拟南芥幼苗后叶绿素a和叶绿素b含量均高于对照组,同时对其根系发育有显著的促进作用。[结论] 菌株W-1促生性能显著,可为生物肥料制备提供菌种资源。     

The gene family encoding the Arabidopsis thaliana translation elongation factor EF-1 alpha: molecular cloning, characterization and expression

Summary The gene family encoding the Arabidopsis thaliana translation elongation factor (EF-1) was analysed. This family contains four genes (A1-A4) organized in a similar manner in different varieties of Arabidopsis. Based upon both their physical separation and a comparison of their sequences, it is suggested that the A4 gene and the A1, A2, and A3 genes constitute two distinct subfamilies within the genome. By introducing chimaeric gene constructs into Arabidopsis cells, we showed that the Al gene promoter mediates a transient expression about twofold higher than that obtained using the CaMV 35 S promoter. This expression depends on a 348 by DNA fragment extending from –982 to –634 by upstream of the initiation codon. This element contains a characteristic telomeric sequence (AACCCTAA) which is also found in the promoters of the A2 and A4 genes as well as in the promoters of the Drosophila EF-1 F1 gene and of several highly expressed plant genes.     

Germ-line transformation of Arabidopsis lasiocarpa

In planta transformation methods have opened up the possibility of transforming plant species for which no regeneration protocols currently exist. In this study, the suitability of the germ-line transformation method developed for Arabidopsis thaliana was examined for four taxa in the Brassicaceae that have not been previously transformed: Arabidopsis griffithiana, Arabidopsis lasiocarpa, Arabidopsis petraea and Capsella bursa-pastoris. Numerous transformants were obtained for A. lasiocarpa. Transformation of A. lasiocarpa was confirmed at the phenotypic and molecular levels for stably transformed lines and for backcrossed lines segregating the T-DNA insert. Parameters affecting transformation efficiency of A. lasiocarpa were also explored. As with A. thaliana, sucrose and surfactant in the inoculation medium are required for high levels of transformation, although the suitable concentrations of these are different for A. lasiocarpa. Other components present in earlier versions of the inoculation medium had little effect on transformation efficiency. Vacuum infiltration (rather than simple floral dipping) led to higher rates of transformation and did not seriously affect seed production in A. lasiocarpa. Identification of species susceptible to germ-line transformation will aid in determining the factors important for applying this technology to more recalcitrant species.     

Nucleotide sequence of a gene from Arabidopsis thaliana encoding a myb homologue

A gene encoding a proto-oncogene, a myb-related gene named Atmyb1, was cloned from Arabidopsis thaliana, and its nucleotide sequence was determined. The Atmyb1 gene contains an intron of 494 bp, and there are no highly homologous sequences present in the A. thaliana genome, but evidence was found that other myb-related genes exist. In the 5 flanking region, we found several typical cis-acting elements found in plant promoters. Sequence comparisons revealed that the ATMYB1 protein has a putative DNA-binding domain with two repeats of tryptophan clusters, which is common in MYB-related proteins in plants, while animal MYB-related proteins contain DNA-binding domains with three repeats of tryptophan clusters. The putative DNA-binding domain of the ATMYB1 protein has higher homology with that of the human c-MYB protein than with those of other plant MYB proteins.     

Construction of targeting vectors to disruptPAT1 gene inArabidopsis Trp1-100

To develop the gene targeting system by homologous recombination inArabidopsis thaliana, we constructed two targeting vectors and showed the reliability of the scheme which is based on genetic complementation of phosphoribosylanthranilate transferase (PAT1) gene. ThePAT1 gene, which is essential for tryptophan biosynthesis, was selected as a target gene because the loss of function leads to fluorescence phenotype due to the accumulation of anthranilic acid derivatives. pHS113 containsPAT1 gene surrounding 5′ and 3′ flanking portions, but the most coding region of thePAT1 gene is replaced by the neomycin phosphotransferase gene (NPTII). pHS117 consists of 1.1 kb internal fragment of genomicPAT1 gene following withNPTII gene. In this targeting strategy,Arabidopsis PAT1 gene can be disrupted by single-step of transformation experiment.     

Three knotted1-like homeobox genes in Arabidopsis

Five arabidopsis kn1-like homeobox genes were cloned through low-stringency screening of Arabidopsis cDNA libraries with the kn1 homeobox from maize. These five genes were named KNAT1-5 (for kn1-like Arabidopsis thaliana). An analysis of KNAT1 and 2 has been presented previously [19]. Here we present an analysis of the genes KNAT3, 4 and 5. On the basis of sequence and expression patterns, these three genes belong to the class II subfamily of kn1-like homeobox genes [16]. Low-stringency Southern analysis suggests several additional members of the class II genes exist in the Arabidopsis genome. The predicted amino acid sequences of the three genes share extensive homology outside of the homeodomain, including 84% between KNAT3 and KNAT4. Northern analysis shows that although all three genes are expressed in all tissues examined, the level of KNAT3 RNA is highest in young siliques, inflorescences and roots, KNAT4 RNA level is strongest in leaves and young siliques, and KNAT5 RNA level is highest in roots. The specificity of these patterns was confirmed by RNA fingerprint analysis. KNAT3 and 4 are light-regulated as they show reduced expression in etiolated seedlings and also in hy3, cop1 and det1 mutant backgrounds.     

<Emphasis Type="Italic">Anthocyaninless1</Emphasis> gene of <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> encodes a UDP-glucose:flavonoid-3-<Emphasis Type="Italic">O</Emphasis>-glucosyltransferase

We isolated several mutants of Arabidopsis thaliana (L.) Heynh. that accumulated less anthocyanin in the plant tissues, but had seeds with a brown color similar to the wild-type. These mutants were allelic with the anthocyaninless1 (anl1) mutant that has been mapped at 15.0 cM of chromosome 5. We performed fine mapping of the anl1 locus and determined that ANL1 is located between the nga106 marker and a marker corresponding to the MKP11 clone. About 70 genes are located between these two markers, including three UDP-glucose:flavonoid-3-O-glucosyltransferase-like genes and a glutathione transferase gene (TT19). A mutant of one of the glucosyltransferase genes (At5g17050) was unable to complement the anl1 phenotype, showing that the ANL1 gene encodes UDP-glucose:flavonoid-3-O-glucosyltransferase. ANL1 was expressed in all tissues examined, including rosette leaves, stems, flower buds and roots. ANL1 was not regulated by TTG1.     

过表达或沉默棉花GhPCBER基因株系的获得及其茎叶木质素和木脂素含量研究

编码苯基香豆满苄基醚还原酶(phenylcoumaran benzylic ether reductase,PCBER)的基因PCBER属于PIP亚家族,是苯丙烷代谢途径中参与木脂素合成的关键基因。该研究构建了棉花GhPCBER基因的植物过表达载体并转化拟南芥,同时构建了VIGS(virus induced gene silencing,病毒诱导的基因沉默)载体转化棉花,采用实时荧光定量PCR技术对GhPCBER基因在不同组织中的表达进行分析;对野生型和转基因植株茎叶组织中的木质素和木脂素含量进行测定分析。结果表明:(1)成功构建了GhPCBER植物过表达载体pGWB17-GhPCBRE以及基因沉默重组载体pTRV2-GhPCBER;经遗传转化获得6株转棉花GhPCBER基因抗性拟南芥植株,同时获得15株GhPCBER基因沉默棉花植株(5株为一组)。(2)PCR检测表明,6株转基因拟南芥均为过表达株系,其中株系1、2、3相对表达量更高,且在茎、叶组织中的表达量分别较野生型提高了7～14倍和6～16倍,表明GhPCBER基因成功在拟南芥中过表达;GhPCBER基因沉默棉花植株的茎、叶组织中的表达量分别比野生型棉株约下降12%和26%,表明烟草脆裂病毒(TRV)体系(pTRV2-GhPCBER)成功抑制了GhPCBER基因的表达。(3)转GhPCBER基因拟南芥茎、叶中木质素和木脂素含量较野生型均显著降低;GhPCBER基因沉默棉花植株茎、叶中木质素和木脂素含量较野生型均极显著降低;组织化学染色观察发现GhPCBER基因沉默棉花植株茎秆颜色明显比野生型染色浅,也证明沉默基因棉花植株茎秆中的木质素含量减少。(4)苯丙烷代谢通路中8个相关基因的实时荧光定量PCR分析发现,过表达或抑制GhPCBRE基因均会导致苯丙烷代谢途径发生重新定向。     

拟南芥AtPUB18的亚细胞定位和酶活性及AtPUB18的表达

通过RT-PCR技术从拟南芥中克隆到AtPUB18全长ORF。利用VectorNTI和MEGA 5.0对蛋白序列进行生物信息学分析结果显示,AtPUB18和AtPUB19蛋白序列相似性为74.9%,一致性为63.5%;构建AtPUB18启动子(1 974bp)融合GUS报告基因载体并转化拟南芥,组织化学染色分析显示,低温和干旱诱导后转基因植株中AtPUB18表达水平显著提高;构建AtPUB18与绿色荧光蛋白基因(GFP)融合的瞬时表达载体并转化原生质体,激光共聚焦显微镜观察发现,AtPUB18-GFP融合蛋白分布在细胞核和细胞质中;构建AtPUB18与麦芽糖结合蛋白基因(MBP)融合表达载体并转化大肠杆菌表达融合蛋白,纯化后的蛋白进行泛素连接酶活性检测结果显示,在小麦泛素激活酶E1和人泛素结合酶E2存在时,AtPUB18具有泛素连接酶活性。研究表明,AtPUB18是一个有功能的泛素连接酶,定位在细胞膜和细胞质中,可能参与拟南芥对非生物胁迫的响应。