拟南芥F-box基因At3g16740的表达分析

拟南芥At3g16740基因为F-box基因家族成员,其功能尚不清楚.通过连续和瞬时光照处理分析,发现蓝光、红光和远红光都诱导At3g16740基因的表达,其中远红光的诱导作用最明显.蓝光受体cry1、cry2,红光受体phyB或远红光受体phyA突变导致At3g16740基因表达的光诱导作用减弱或者消失,表明该基因为光信号通路相关基因.通过实时荧光定量PCR分析At3g16740基因在拟南芥不同组织器官中的表达,发现其在拟南芥根、茎、叶、花和果荚中都有表达,花和果荚中的表达量最高,推测该基因可能参与植物花和/或果荚的发育.酵母双杂交分析发现,At3g16740蛋白通过F-box结构域与拟南芥ASK(arabidopsis-SKP1-like)家族成员ASK1、ASK2和ASK11相互作用,表明At3g16740是SCF(Skp、Cullin、F-box)复合物的成员.     

谷胱甘肽转移酶基因过量表达能加速盐胁迫下转基因拟南芥的生长

盐地碱蓬谷胱甘肽转移酶基因(glutathione s-transferase gene,GST)克隆到植物表达载体pROKⅡ35s启动子的下游,通过农杆菌介导,利用花絮浸泡法转化拟南芥.转化子在含有卡那霉素的培养基上经过筛选以后,将初步验证为阳性的转基因植株通过PCR-Southem进一步证实.经过选育,筛选并分离到卡那霉素的抗性并且遗传稳定的T3代纯合子转基因拟南芥品系.通过Northern杂交证实外源基因在转基因拟南芥中表达.在盐胁迫条件下,通过测量转基因植株(GT)和野生型植株(wY)的生物量和谷胱甘肽(氧化型:GSSG;还原型:GsH)发现:转基因植株的生物量较野生型有一定程度的提高;GssG含量在转基因品系中比野生型的含量明显高.因此,过量表达GsT能够提高转基因植株在盐胁迫条件下的生长,而且这很可能是由于还原型谷胱甘肽被氧化的结果.     

酿酒酵母CICC1747醛糖还原酶基因的克隆及表达

采用PCR技术以酿酒酵母CICC1747基因组DNA为模板扩增得到醛糖还原酶基因GRE3,插入到pET-15b载体的NdeⅠ和BamHⅠ酶切位点之间,构建了酿酒酵母醛糖还原酶原核表达载体pET-15b-GRE3。将该载体转化到大肠杆菌菌株Rosetta(DE3)中,重组菌株用IPTG诱导表达,采用紫外分光光度法测定醛糖还原酶活力,并对其表达条件进行初步优化。SDS-PAGE电泳结果显示在分子量约37 kD处有明显的特异性蛋白质条带。发酵液的比酶活最高为54.94 mU/mg,与酿酒酵母野生菌株相比提高了近10倍。     

拟南芥砷诱导基因At4g13180的表达模式研究

拟南芥(Arabidopsis thaliana)砷诱导基因At4g13180编码蛋白是短链脱氢酶(Short-Chain Dehydrogenase/Reductase Superfamily,SDR)家族的成员之一,其过表达可以增强植物对过氧化氢的耐受性。该实验通过半定量RT-PCR,构建ProAt4g13180:GUS、At4g13180-EGFP和At4g13180-OE表达载体,获得At4g13180基因过表达转基因株系,并研究了At4g13180基因的表达模式及其编码蛋白的亚细胞定位。结果显示,At4g13180基因在根尖、叶脉、萼片和花丝等组织都强烈表达,该基因编码蛋白主要定位于胞质和核中。该研究结果为深入探究拟南芥砷诱导基因At4g13180的功能奠定了一定的基础。     

过量表达棉花GaSus3基因增强拟南芥的耐盐性

构建了植物过量表达载体p35S：：GaSus3,通过花序浸染法成功获得转GaSus3基因拟南芥植株。利用NaCl模拟盐胁迫处理,证实转基因拟南芥与野生型相比耐盐性明显增强。在盐胁迫下,转基因拟南芥受到的影响较小,而野生型则受盐害影响严重：转基因拟南芥具有更好的萌发率和主根长度,以保证植株正常生长;盐胁迫下转基因拟南芥能保持较多的绿色叶片,而野生型则过早黄化死亡。研究还发现,转基因拟南芥的过氧化氢酶活性在胁迫前后都高于野生型,这说明转GaSus3基因能够提高拟南芥抗氧化胁迫的能力。研究结果为进一步探讨GaSus3基因在棉花耐盐方面的功能奠定了基础。     

超表达拟南芥2-烯醛还原酶基因对烟草抗旱性的作用机理分析

为研究是否可以利用2-烯醛还原酶(AER)来清除活性氧下游的醛自由基达到提高植物的抗旱性,以超表达拟南芥AER基因烟草和野生型烟草(SR)为研究材料,利用干旱胁迫处理进行抗旱性分析,测定了干旱胁迫及复水后各个烟草株系的生物量、光合速率、叶绿素荧光参数、叶绿素含量、MDA和H2O2含量等指标。结果显示:(1)干旱胁迫下,转基因烟草株系的生物量、叶绿素含量、净光合速率、PSⅡ最大光化学效率及H2O2的清除能力均显著高于对照;(2)复水之后,烟草植株的各项生理指标都得到一定程度的恢复,而转基因株系相比于野生型恢复迅速,恢复能力更强。研究认为,超表达AER基因可以通过清除活性氧及其下游醛自由基来提高烟草的抗旱能力。     

过量表达谷胱甘肽转移酶基因对转基因拟南芥抗旱能力的影响

盐地碱蓬谷胱甘肽转移酶基因（OST）在拟南芥中过量表达后,在干旱胁迫下,转基因拟南芥植株的干重比野生型植株高,其总谷胱甘肽含量和谷胱甘肽库的氧化水平都比野生型植株的高,而丙二醛含量则比野生型的低。这些显示转基因拟南芥的抗干旱胁迫能力有所增强。     

Col生态型拟南芥AP3基因启动子克隆及植物表达载体构建

隶属于MADS-Box基因家族的拟南芥花器官B类特征基因APETALA3 (AP3)在花瓣和雄蕊中特异性地表达;AP3基因编码转录因子,与A类和C类特征基因协同作用控制双子叶植物花瓣和雄蕊的发育.研究表明AP3基因启动子为花特异表达启动子.因此,AP3基因启动子的克隆及功能鉴定对于园林植物与花相关的商业性状的定向改良具有重要作用.本文根据GenBank数据库报道的Ler生态型拟南芥(Arabido-psis thaliana) AP3基因启动子序列(U30729)设计了一对特异性扩增引物,基于PCR技术,用高保真的KOD-plus DNA聚合酶扩增了长度为1 767 bp的Col生态型拟南芥AP3基因启动子,并命名为pAtAP3,其GenBank登录号为FJ619533.Bl2seq在线分析表明pAtAP3与U30729序列的相似性达98%,与Col生态型拟南芥BAC克隆T12E18 (AL132971) 9 264～11 030之间的碱基序列相似性达100%,且该段序列的下游基因编码AP3蛋白(CAB81799),说明克隆序列为Col生态型拟南芥AP3基因的启动子.PLACE在线分析表明pAtAP3具有基本的启动子元件TATA-box和CAAT-box,还包含大量与花特异表达相关的顺式元件CArG1、CArG2、CArG3和anther-box等.本试验进一步构建了植物表达载体pAtAP3::GUS,为该启动子的功能鉴定奠定了基础.     

丁酸梭菌1，3-丙二醇氧化还原酶基因dhaT的克隆及在大肠杆菌中的表达

以丁酸梭菌（Clostridium butyricum）基因组DNA为模板,利用PCR技术扩增得到1,3-丙二醇氧化还原酶基因dhaT,将它连接到pMD18一T载体上,得到重组质粒pMD—dhaT,对此重组质粒进行序列测定,对其DNA序列分析表明,dhaT基因全长为1 158bp。将dhaT基因插入表达载体pSE-380中,构建成重组子pSE—dhaT,并在大肠杆菌JMl09中进行诱导表达。研究表明,以1,3-丙二醇为底物时,基因工程菌在37℃下,以1．0mmol／L IPTG诱导14h,酶活力达到16．28U／mL,比原始菌株提高5、6倍。     

拟南芥3个蛋白磷酸酶2C基因编码蛋白的亚细胞定位及组织表达分析

利用gateway技术从拟南芥中克隆了3个蛋白磷酸酶2C基因At5G66080、At1G68410和At5G06750,3个基因的ORF全长分别为1 158 bp、1 311 bp和1 182 bp,分别编码一条385、376和393个氨基酸残基的多肽.构建了3个基因的植物表达载体35S:GFP:At5G66080、35S:GFP:At1G68410和35S:GFP:At5G06750,采用基因枪法进行的洋葱表皮细胞GFP瞬时表达实验表明,荧光信号主要分布在细胞核上,显示这3个基因的产物可能在细胞核上发挥作用.利用实时荧光定量PCR研究At5G66080、At1G68410和At5G06750基因在不同组织中的表达特性,结果表明:3个基因在各个器官均有表达,但表达量不同;At5G66080、At1G68410和At5G06750基因在花中表达量最大;At5G66080和At5G06750基因在根、叶和叶柄中的表达量次之,在茎中的表达量最低;At1G68410基因在根中的表达量次之,在茎、叶和叶柄中的表达量较低.     

Tissue-specific and constitutive expression of a hypothetical gene At2g37610 in transgenic Arabidopsis

Hypothetical genes should play important roles in plant growth and development, although their biological functions await elucidation. One of these genes, namely At2g37610, caught our attention during the gene cloning of several salt-tolerant mutants. Promoter-GUS fusion analysis indicated a unique tissue-specific expression pattern of At2g37610 in Arabidopsis. Constitutive expression of the gene under 35S promoter caused obvious morphological changes in transgenic Arabidopsis plants, such as curled rosette leaves and bushy phenotype at maturity. Phenotypic characterization revealed that the cause of the bushy phenotype was the enhanced lateral bud outgrowth at the bottom region of the primary inflorescence, which is different from that of reported mutant plants (bushy or branched) such as max, axr1, and bus mutants. Together, these data suggest that At2g37610 is a possible novel gene related to the regulation of leaf development and shoot patterning.     

Crystal structure of the protein At3g01520, a eukaryotic universal stress protein‐like protein from arabidopsis thaliana in complex with AMP

Members of the universal stress protein (USP) family are conserved in a phylogenetically diverse range of prokaryotes, fungi, protists, and plants and confer abilities to respond to a wide range of environmental stresses. Arabidopsis thaliana contains 44 USP domain‐containing proteins, and USP domain is found either in a small protein with unknown physiological function or in an N‐terminal portion of a multi‐domain protein, usually a protein kinase. Here, we report the first crystal structure of a eukaryotic USP‐like protein encoded from the gene At3g01520. The crystal structure of the protein At3g01520 was determined by the single‐wavelength anomalous dispersion method and refined to an R factor of 21.8% (R_free = 26.1%) at 2.5 Å resolution. The crystal structure includes three At3g01520 protein dimers with one AMP molecule bound to each protomer, comprising a Rossmann‐like α/β overall fold. The bound AMP and conservation of residues in the ATP‐binding loop suggest that the protein At3g01520 also belongs to the ATP‐binding USP subfamily members. Proteins 2015; 83:1368–1373. © 2015 The Authors. Proteins: Structure, Function, and Bioinformatics Published by Wiley Periodicals, Inc.     

Structural and functional characterization of a novel phosphatase from the Arabidopsis thaliana gene locus At1g05000

The crystal structure of the protein product of the gene locus At1g05000, a hypothetical protein from A. thaliana, was determined by the multiple-wavelength anomalous diffraction method and was refined to an R factor of 20.4% (R(free) = 24.9%) at 3.3 A. The protein adopts the alpha/beta fold found in cysteine phosphatases, a superfamily of phosphatases that possess a catalytic cysteine and form a covalent thiol-phosphate intermediate during the catalytic cycle. In At1g05000, the analogous cysteine (Cys(150)) is located at the bottom of a positively-charged pocket formed by residues that include the conserved arginine (Arg(156)) of the signature active site motif, HCxxGxxRT. Of 74 model phosphatase substrates tested, purified recombinant At1g05000 showed highest activity toward polyphosphate (poly-P(12-13)) and deoxyribo- and ribonucleoside triphosphates, and less activity toward phosphoenolpyruvate, phosphotyrosine, phosphotyrosine-containing peptides, and phosphatidyl inositols. Divalent metal cations were not required for activity and had little effect on the reaction.     

拟南芥钙调素结合蛋白基因启动子的克隆及表达

采用PCR技术从拟南芥中克隆了SCBP60g基因的启动子,并与GUS报告基因融合构建重组表达载体,转化野生型拟南芥,对获得的转基因株系进行GUS组织染色,从基因调控水平上探讨其在功能方面的差异。结果显示:SCBP60g基因的启动子能指导GUS报告基因在拟南芥的根、茎、叶和花中表达,并且在这些部位的维管束表达较强。这种表达方式与LCBP60g基因的启动子指导的GUS基因组织化学染色有差异,表明这个启动子的表达调控具有一定的特异性。     

拟南芥光敏色素A反义RNA载体的构建及转化

光敏色素A是植物远红光信号的关键受体,在植物光信号转导途径中起重要作用。一些具有重要功能的基因(如生长素反应因子8:auxin response factor 8,ARF8)受到PhyA调控。本实验拟通过构建PhyA基因反义株系,研究PhyA调控ARF8等重要功能基因表达的机理。以培养7 d的拟南芥幼苗为材料提取RNA,利用RT-PCR技术扩增出PhyA的全长CDS,将其反向插入表达载体pMD1得到反义表达载体pMD1-PhyA CDSR,并通过农杆菌介导转化拟南芥,经卡那霉素抗性平板筛选和PCR鉴定得到13个PhyA转基因株系。pMD1-PhyA CDSR及其转基因株系的获得为研究PhyA调控ARF8等基因表达的机理奠定了材料基础。     

普通小麦中双脱氢抗坏血酸还原酶(TaDHAR)基因的克隆与生化特性分析

利用同源克隆技术从六倍体普通小麦中获得了两个不同的双脱氢抗坏血酸还原酶(TaDHAR)基因的cDNA克隆。器官表达模式分析表明,这两个TaDHAR基因(暂时命名为TaDHAR1和TaDHAR2)在小麦根、茎、叶、幼穗以及开花后10d、20d和30d的种子中均有表达,为组成型表达基因。原生质体表达实验表明,两个基因的产物均可能定位在细胞质中。在细菌中表达并提纯了两个基因的重组蛋白。体外生化测定表明两个重组蛋白均具有将双脱氢抗坏血酸还原成抗坏血酸的能力,其最适pH为7.5,在37oC时的活性比25oC高,但25oC条件下pH6.0和7.0时,两个DHAR蛋白的活性显著不同。本研究的结果为进一步揭示TaDHAR基因在小麦抗坏血酸代谢中的生理作用奠定了基础。     

Cloning and molecular analysis of the Arabidopsis gene Terminal Flower 1

The Arabidopsis gene Terminal Flower 1 (TFL1) controls inflorescence meristem identity. A terminal flower (tfl1) mutant, which develops a terminal flower at the apex of the inflorescence, was induced by transformation with T-DNA. Using a plant DNA fragment flanking the integrated T-DNA as a probe, a clone was selected from a wild-type genomic library. Comparative sequence analysis of this clone with an EST clone (129D7T7) suggested the existence of a gene encoding a protein similar to that encoded by the cen gene which controls inflorescence meristem identity in Antirrhinum. Nucleotide sequences of the region homologous to this putative TFL1 gene were compared between five chemically induced tfl1 mutants and their parental wild-type ecotypes. Every mutant was found to have a nucleotide substitution which could be responsible for the tfl1 phenotype. This result confirmed that the cloned gene is TFL1 itself. In our tfl1 mutant, no nucleotide substitution was found in the transcribed region of the gene, and the T-DNA-insertion site was located at 458 bp downstream of the putative polyadenylation signal, suggesting that an element important for expression of the TFL1 gene exists in this area. Received: 14 November 1996 / Accepted: 29 November 1996     

Kinetic properties and inhibition of Trypanosoma cruzi 3-hydroxy-3-methylglutaryl CoA reductase

A detailed kinetic analysis of the recombinant soluble enzyme 3-hydroxy-3-methylglutaryl CoA reductase (HMGR) from Trypanosoma cruzi has been performed. The enzyme catalyzes the normal anabolic reaction and the reductant is NADPH. It also catalyzes the oxidation of mevalonate but at a lower proportion compared to the anabolic reaction. We report that the catalytically active species of HMGR in solution is the tetrameric form. Fluvastatin inhibited competitively the enzyme while cerivastatin binds by a mechanism which is more accurately described by a biphasic process characteristic of a class of ‘slow, tight-binding’ inhibitors.     

拟南芥HECT E3s家族基因表达模式和功能的初步研究

利用GUS组织化学染色法,研究由拟南芥泛素蛋白连接酶HECT家族基因(UPLs)启动子起始的β-葡萄糖苷酸酶报告基因(GUS)的表达模式。结果表明:UPLs家族中6个成员的启动子在拟南芥植株的不同组织和不同时期均有所表达,且在莲座叶发育的早期和衰老期表现出较高活性。进一步观察upl3和upl4突变体发现,upl3和upl4突变体除了upl3有较明显的叶型变化,两者均表现为延迟衰老现象;且突变体中衰老相关基因的表达水平不同于野生型。研究推测UPL3和UPL4可能参与了叶片生长发育过程的调控,同时还参与调控植株衰老进程。