丹参咖啡酸-O-甲基转移酶基因(SmCOMT1)的克隆及其分析

依据丹参转录组数据库得到的咖啡酸-O-甲基转移酶基因序列设计特异性引物,采用RT-PCR方法从丹参分离得到一个新的COMT基因,命名为SmCOMT1(GenBank注册号为JF693491）。该基因cDNA全长1 158 bp,包含一个长为1 095 bp的开放阅读框,编码364个氨基酸。SmCOMT1 gDNA序列长2 275 bp,包含4个外显子和3个内含子。序列分析结果表明,SmCOMT1编码的多肽具有COMT的序列保守元件,与同科植物罗勒COMT编码的多肽高度同源,同源性达到89%。系统进化树分析表明,SmCOMT1与双子叶植物的COMT亲缘关系较近。qRT-PCR结果表明,SmCOMT1基因在丹参不同组织器官中差异表达,其中茎中的表达量最高,并且其表达受茉莉酸甲酯和病原菌的诱导,显示SmCOMT1基因可能在植物防御反应中发挥作用。     

朵丽蝶兰 MADS-box 基因 DtpsMADS1 的克隆与表达特性简

植物MADS-box基因家族编码高度保守的转录因子,参与了包括花器官发育和开花在内的多种发育进程。为阐释兰科植物成花的分子调控机制,根据MADS-box基因保守序列设计简并引物,用RACE方法从朵丽蝶兰花葶中克隆到1个MADS-box家族基因,该基因cDNA全长960 bp,包含37 bp 5′UTR,一个738 bp的开放阅读框(ORF)和185 bp 3′UTR,共编码245个氨基酸。序列和系统进化树分析表明,该基因与其他植物的MADS-box基因具有很高的同源性,属于AP1/FUL-like亚家族,命名为DtpsMADS1,GeneBank登录号为JQ065097。实时荧光定量PCR检测结果显示：DtpsMADS1具有明显的组织表达特异性;在根和叶中,DtpsMADS1在花前期和花后期表达量较高;苗期和盛花期表达量较低;DtpsMADS1在花葶中的表达趋势与根和叶相似;而在花器官中,DtpsMADS1只有痕量表达。由此推断,DtpsMADS1可能参与开花进程调控,而不参与花器官的形态建成。     

丹参ACC氧化酶基因(SmACO1)的克隆与序列分析

依据丹参转录组数据库序列信息,采用RT-PCR和染色体步移技术从丹参中首次克隆得到ACC氧化酶基因,命名为SmACO1(GenBank注册号为JQ026111)。该基因gDNA序列长1 347 bp,由3个外显子和2个内含子组成;cDNA全长1 117 bp,包含945 bp的开放阅读框,编码314个氨基酸残基。生物信息学分析显示SmACO1为无信号肽与跨膜结构域,且定位于细胞质的稳定亲水蛋白,含有Fe²⁺依赖的加氧酶结构域。实时荧光定量PCR结果表明,SmACO1基因在丹参不同组织器官中差异表达,花中表达量最高;其表达受到病原菌和茉莉酸甲酯的诱导,表明SmACO1基因可能在植物防御反应中发挥作用。     

黄龙病菌侵染过程中柑橘CsMYB基因克隆及表达分析

MYB类蛋白是一类与植物防卫反应有关的转录因子家族,本研究利用构建的甜橙健株与感染黄龙病的病株差减（SSH）文库,采用RACE技术克隆了一个MYB类基因的cDNA全长序列,命名为CsMYB（GenBank登录号为HQ841074）。柑橘CsMYB基因的cDNA全长为1 306 bp,生物信息学分析显示,该基因包括一个909 bp的完整开放读码框以及一个典型的26 bp poly-A,编码302个氨基酸,分子量为32.97 kD,等电点为8.5。同时,还有MYB类基因的保守特征区域,即在N端有两个典型的MYB DNA结合域：R2和R3。实时荧光定量PCR分析表明,柑橘CsMYB基因受到黄龙病菌侵染后的不同时期表达量不同,伴随着黄龙病病程的变化呈现不同的表达变化。推测CsMYB基因是一个转录因子,可能参与柑橘对黄龙病菌的防御反应过程。     

紫茎泽兰花蕾发育过程中类Beclin1基因的克隆表达分析

以紫茎泽兰不同发育时期花蕾为实验材料,通过光学显微观察、DNA ladder检测表明紫茎泽兰花蕾发育过程中绒毡层有PCD现象发生,自紫茎泽兰花蕾中克隆长为679 bp的Beclin1 cDNA基因部分片段,同烟草叶片的Beclin1基因序列（AY701316）同源性为98%,通过Northern blotting分析,在紫茎泽兰花蕾发育过程中细胞程序性死亡（PCD）相关Beclin1基因表达在花蕾发育第Ⅱ期和Ⅲ期较为旺盛,且在花蕾发育第Ⅱ期最强烈。本研究首次克隆并证实紫茎泽兰花蕾Beclin1基因与PCD有一定的相关性,为分析紫茎泽兰入侵机理提供新的思路和手段。     

飞机草花蕾中Beclin1基因的克隆与表达

本文以入侵植物飞机草的不同时期花蕾为材料,利用RT-PCR法扩增得到了与PCD相关的类Beclin1基因的部分cDNA序列(大约700bp),与烟草叶片中的基因序列（AY701316）同源性为95%;Northern blotting结果表明类Beclin1基因在花蕾发育中期的表达量高于初期和后期;通过DNA ladder检测表明在花蕾发育过程中伴随着PCD的发生,这些结果表明花蕾发育中期是PCD初期发生的活跃期,是绒毡层逐渐退化和花粉不断形成的过程。通过对生殖过程中的细胞程序性死亡的分子生物学研究,初步揭示了飞机草入侵过程与PCD的相互关系。     

毛果杨 NLP 基因家族生物信息学分析与鉴定简

NLP基因家族是一类特殊的转录因子,豆科植物根瘤的形成依赖于该基因家族的存在,在非豆科植物中具有调节植物硝酸盐吸收以及同化的功能。通过对毛果杨（Populus trichocarpa）基因组的生物信息学分析,共鉴定出14个毛果杨NLP基因家族成员,这些成员具有低亲水性的特点,基因结构保守,都含有RWP-RK以及PB1两个保守结构域。通过细胞定位预测,所有成员都定位在细胞核中。直系同源与旁系同源进化分析显示,NLP基因家族成员在漫长的进化过程中经历了严格的选择。染色体定位分析表明,毛果杨NLP基因家族成员坐落在毛果杨9条染色体之上,成员数量的扩增来自于杨柳科染色体自身的扩增事件。芯片数据分析结果显示,NLP基因家族成员在嫩叶,根和雄花中表达,部分基因在木质部以及种子萌发过程之中表达,但所有成员均不在成熟叶片中表达。     

番茄 DEAD-box RNA 解旋酶基因 SlDEAH1 的克隆及表达分析简

DEAD-box RNA解旋酶是一种特殊的RNA分子伴侣,参与了RNA代谢,包括前体RNA剪接、核糖体合成、RNA降解以及基因表达,并对植物的发育和抗性等也具有重要作用。根据已报道的拟南芥DEAD-box蛋白,通过同源比对,在NCBI据库中筛选得到一个DEAD-box RNA解旋酶同源蛋白,命名为SlDEAH1,并根据其基因序列设计特异引物,应用RT-PCR方法从野生型番茄（Solanum lycopersicum）AC⁺⁺中克隆得到了该基因的全长编码区序列。利用生物学网站、软件及实时荧光定量PCR方法,对其进行生物信息学、表达模式、胁迫及激素处理分析。结果表明：SlDEAH1包括2 073 bp的开放阅读框,编码690个氨基酸残基,其编码蛋白有9个保守结构基序,其所涉及到的ATP结合、ATP水解及RNA结合等功能对于解旋酶活性是至关重要的;表达模式分析表明SlDEAH1基因可能在野生型番茄萼片、叶片发育及果实成熟方面起到重要作用;高温、低温、脱水、伤害、盐胁迫不同程度的诱导了SlDEAH1的表达,但在根中该基因的表达受盐胁迫抑制;ABA、ACC、IAA、GA₃、MeJA和ZT均不同程度诱导了SlDEAH1的表达,其中ABA诱导效应最为明显。这些结果为进一步研究SlDEAH1在番茄发育和胁迫响应中的功能奠定了基础。     

烟草类锌指基因NtZFL基因的功能分析

从烟草cDNA中分离出一个类锌指基因NtZFL,开放读码框321 bp,编码106个氨基。QRT-PCR分析表明MV、H₂O₂、ABA、冷胁迫处理都提高了NtZFL在烟草的表达,Northern blot分析表明该基因在烟草的不同组织中具有组织特异性,在幼叶和花中表达量较高。亚细胞定位表明NtZFL蛋白是定位在细胞壁中的蛋白。NtZFL基因启动子驱动GUS基因转烟草植株显示在幼苗中整株有表达,但在根部和叶脉处表达量较高。     

鸡Z染色体上DMRT1基因的多重跨染色体剪接

性别决定与分化发育是同时涉及生命现象中两种细胞分裂(有丝分裂和减数分裂)形式的惟一的分化发育过程。对该过程中关键基因DMRT1的转录分析，发现位于鸡Z染色体上的DMRT1基因分别同时与4号染色体上的CENP C1基因、5号染色体上CD5R基因和2号染色体上37LRP/p40基因发生跨染色体剪接，由此构成了新的跨染色体剪接本DMRT1-CENP C1、DMRT1-CD5R和DMRT1-37LRP/p40。对其剪接位点的分析，发现两段染色体序列存在的重叠区可能在这种剪接中起着重要作用。DMRT1基因在转录过程中同时与多个染色体上基因发生多次跨染色体剪接的发现，无疑有助于对在转录水平上的多样性基因调控以及性别决定与分化发育等的认识开辟另一新途径。     

Two tobacco AP1-like gene promoters drive highly specific,tightly regulated and unique expression patterns during floral transition,initiation and development

The genetic engineering of agronomic traits requires an array of highly specific and tightly regulated promoters that drive expression in floral tissues. In this study, we isolated and characterized two tobacco APETALA1-like (AP1-like) promoters (termed NtAP1La and NtAP1Lb1) in transgenic plants using the GUS reporter system, along with tissue-specific ablation analyses. Our results demonstrated that the two promoters are active in floral inflorescences but not in vegetative apical meristems or other vegetative tissues, as reflected by strong GUS staining and DT-A-mediated ablation of apical shoot tips during reproductive but not vegetative growth. We also showed that the NtAP1Lb1 promoter was more active than NtAP1La in inflorescences, as the former yielded higher frequencies and greater phenotypic evidence of tissue ablation compared to the latter. We further revealed that both promoters were uniformly expressed in the meristems of stage 1 and 2 floral buds, but were differentially expressed in floral organs later during development. While NtAP1La was found to be active in stage 4–5 carpels, later becoming confined to ovary tissue from stage 9 onwards, NtAP1Lb1 activity was apparent in all floral organs from stages 3 to 7, becoming completely absent in all floral organs from stage 11 onward. Therefore, it seems that the two tobacco promoters have acquired similar but distinct inflorescence-, floral meristem- and floral organ-specific and development-dependent regulatory features without any leaky activity in vegetative tissues. These features are novel and have rarely been observed in other flower-specific promoters characterized to date. The potential application of these promoters for engineering sterility, increasing biomass production and modifying flower architecture, as well as their putative use in flower-specific transgene excision, will be discussed.     

白桦雌花序抑制性消减文库构建及EST分析

为研究白桦雌花序发育过程中特异基因的表达,以白桦雌花序样品为tester,雄花序样品为driver,利用SMART策略构建了白桦雌花序抑制性消减（SSH）文库。构建SSH文库的重组率为72%,插入片段的平均长度为400 bp左右。随机挑选文库克隆测序,获得150条EST序列,这些序列被GenBank的dbEST数据库收录,收录号为EE284580-EE284681,EE595316-EE595363。通过BlastX对EST进行功能注释,并对其中同源性较高的111条EST按功能进行分类,EST功能涉及了代谢、细胞防御、转录调节、能量代谢及信号传导等途径。发现了多个已知的控制花发育相关的EST,它们占已知功能EST的21%其功能涉及到调控花序形成和花分化、调控花粉与柱头亲和性以及调控花粉管发育等,包括MADS-box、S-locus F-box等基因。这些EST的获得为了解白桦花期基因表达,白桦花发育相关基因克隆和功能解析奠定了基础。     

Identification of a flower-specific cDNA,<Emphasis Type="Italic">RsPCP1</Emphasis>, encoding putative pollen coat protein from radish

To better understand the molecular control of floral development, we identified a flower-specific cDNA,RsPCPI, from Korean radish (Raphanus sativus). Based on nucleotide sequence analysis, this clone contains an open reading frame of 65 amino acids and shares 91% identity with a pollen coat protein from cabbage (Brassica oleracea). Southern analysis revealed thatRsPCPI is present as a single-copy gene or a member of a small gene family in the radish genome. BecauseRsPCPI mRNA was present exclusively in mature floral buds but not in young floral buds or in vegetative tissues, we propose that this gene is anther-specific.     

黄瓜离体子叶节花芽和营养芽分化中CFL基因的表达

CFL基因是从黄瓜中克隆到的拟南芥LEAFY(LFY)同源基因.以离体黄瓜子叶培养物成花为实验体系,利用mRNA原位杂交技术对CFL基因在花芽和营养芽分化过程中的时空表达进行了分析.结果如下:在花芽分化过程中,CFL基因在花原基形成、花器官原基分化及各轮花器官形成之初强表达,在花器官形成以后表达减弱或不表达;在营养芽分化过程中,CFL基因在分生组织、叶原基和幼叶中有明显表达,在成熟组织中不表达.结果说明CFL基因的表达在黄瓜子叶节花芽和营养芽分化中原基的分化形成是必需的.结果提示CFL基因可能参与细胞分裂调控和启动、营养性分生组织向花分生组织转变等过程.     

Characterization of waldmeister, a novel developmental mutant in Arabidopsis thaliana

A novel Arabidopsis thaliana (L.) Heynh. developmental mutant,waldmeister (wam), is described. This mutant was found in theprogeny arising from an Ac-Ds tagging experiment, but does notappear to be tagged by an introduced transposon. This recessivenuclear mutation maps between GAPB and ap1 on chromosome 1 andshows extreme morphological and physiological changes in bothfloral and vegetative tissues. Changes to the vegetative phenotypeinclude altered leaf morphology, multiple rosettes, stem fasciation,retarded senescence and disturbed geotropic growth. Changesto the floral phenotype include delayed flowering, increasednumber of inflorescences, determinate inflorescences, alterednumber and morphology of floral organs, chimeric floral organs,and ectopic ovules . wam was crossed to a number of previouslydescribed floral mutants: apetela 2, apetela 3, pistillata,agamous, and leafy. The phenotype of the double mutant was ineach case additive. In the case of agamous, however, the indeterminaterepetitive floral structure of agamous was lacking, emphasizingthe determinate inflorescence growth of wam. The extreme phenotypeof the wam mutant is suggestive of a disturbance to a gene ofglobal importance in the regulation of plant growth and development. Key words: Arabidopsis thaliana, waldmeister, developmental mutant, flower mutant     

Polycomb-Group Proteins and FLOWERING LOCUS T Maintain Commitment to Flowering in Arabidopsis thaliana

The switch from vegetative to reproductive growth is extremely stable even if plants are only transiently exposed to environmental stimuli that trigger flowering. In the photoperiodic pathway, a mobile signal, florigen, encoded by FLOWERING LOCUS T (FT) in Arabidopsis thaliana, induces flowering. Because FT activity in leaves is not maintained after transient photoperiodic induction, the molecular basis for stable floral commitment is unclear. Here, we show that Polycomb-group (Pc-G) proteins, which mediate epigenetic gene regulation, maintain the identity of inflorescence and floral meristems after floral induction. Thus, plants with reduced Pc-G activity show a remarkable increase of cauline leaves under noninductive conditions and floral reversion when shifted from inductive to noninductive conditions. These phenotypes are almost completely suppressed by loss of FLOWERING LOCUS C (FLC) and SHORT VEGETATIVE PHASE, which both delay flowering and promote vegetative shoot identity. Upregulation of FLC in Pc-G mutants leads to a strong decrease of FT expression in inflorescences. We find that this activity of FT is needed to prevent floral reversion. Collectively, our results reveal that floral meristem identity is at least partially maintained by a daylength-independent role of FT whose expression is indirectly sustained by Pc-G activity.