柠条锦鸡儿CkLEA1基因克隆及表达分析

植物受到逆境胁迫后,大量逆境响应基因会被诱导表达,LEA蛋白编码基因就是与植物抗旱、抗冷等非生物胁迫密切相关的一类基因.从已构建的柠条锦鸡儿干旱胁迫抑制性削减杂交文库中筛选到了一条LEA蛋白编码基因并进行了克隆.序列比对与系统进化分析显示该基因属于LEA3基因家族成员,命名为CkLEA1(GenBank登录号是KC309408).克隆得到该基因gDNA长469bp,包含两个外显子和一个内含子;cDNA长357bp,包含300bp的开放阅读框,推导编码99个氨基酸的蛋白质.利用荧光定量PCR技术对CkLEA1基因在各种逆境胁迫条件的表达情况进行初步研究表明,CkLEA1受干旱、ABA、冷、热、盐和碱等处理不同程度地诱导,推测其与柠条锦鸡儿响应逆境胁迫的机制有关.     

玉米钼辅助因子硫酸化酶基因启动子的克隆与功能验证

为克服组成型启动子启动外源基因过量表达引起的诸多问题,同源克隆(Mo-molybdopterin cofactor sulfurase)基因（ABA3）的启动子(ABA3s)序列,并用PlantCARE软件分析其非生物逆境应答元件, 实时定量PCR检测ABA3基因在非生物逆境诱导下的差异表达后。然后,用该启动子构建启动GUS（β-glucuronidase）基因的表达载体, 基因枪法转化玉米愈伤组织。经组织化学染色法检测其表达后, 在高渗、高盐、低温胁迫处理及ABA诱导下检测GUS酶荧光值与荧光素酶(内参)发光值的比值(GUS/LUC), 以此评价ABA3s启动子在非生物逆境胁迫下的启动活性。结果表明, ABA3基因在模拟干旱、低温、高温、高盐胁迫及ABA、乙稀诱导下差异表达, 说明该基因的启动子(ABA3s)具有非生物逆境诱导活性。序列分析表明, ABA3s启动子全长777 bp, 含有ARE、HSE、MBS、TGA、Circadian等多种非生物逆境胁迫应答元件。用ABA3s启动GUS基因构建的表达载体转化的玉米愈伤组织, 响应干旱、低温、高温、高盐胁迫等多种非生物逆境胁迫, 及ABA和乙稀诱导, GUS检测呈阳性。在8%甘露醇高渗条件下, GUS/LUC比值比空白对照高6倍。上述结果表明, ABA3s启动子具有非生物逆境诱导特性, 经进一步验证其功能后, 可用于玉米抗逆转基因研究。     

茶树花粉特异蛋白基因CsPSP1的分离及序列分析

利用cDNA-AFLP技术比较了茶树[Camellia sinensis(L.)O.Kuntze cv.Wulong]花蕾发育早期和晚期的基因表达,结果表明存在明显差异。以E12和M20为引物对在晚期发育花蕾中筛选出一条281 bp特异表达的差异条带TDF53(transcipt-derived-fragment,TDF)。RT-PCR分析表明该片段只在晚期发育花蕾中特异表达。用RACE方法延伸其末端序列,克隆并测序获得全长cDNA序列(GenBank登录号:DQ887753)。该基因全长2079 bp,开放阅读框1701 bp,编码567个氨基酸,其分子量为63 kDa。序列和结构的同源性分析表明:该基因编码的氨基酸序列与烟草、油菜的花粉特异蛋白等同源性较高,由此推定,该基因为编码茶树花粉特异蛋白的基因,并将分离到的花粉特异蛋白基因命名为CsPSP1。     

一个水稻多逆境响应基因OsMsr3克隆与表达分析

为深入探讨水稻对逆境的反应机理并寻找新的植物耐逆基因,采用Affymetrix水稻表达芯片(含51279个转录本)分析了培矮64S全基因组在不同逆境(高温、干旱、低温)胁迫下、不同生育时期叶片和穗中的表达谱,从中筛选出一个受多种逆境诱导表达的基因OsMsr3(Oryza sativa L.multiple stresses responsive gene3,GenBank登陆号为 FJ383169).定量实时PCR分析结果进一步证实了此基因在逆境条件下的诱导表达模式.用 RT-PCR方法扩增获得了包含其完整开放阅读框的cDNA克隆,序列分析表明,其ORF大小为480 bp,编码一个具有160个氨基酸残基的低分子量热激蛋白,推测分子量约为18.0 kD;pI约为6.8.对其编码的蛋白质进行分析,发现其羧基端存在一个HSP20的蛋白保守结构域,与其他植物中的低分子量热激蛋白的相似性介于33.7%～97.5%.对其可能的启动子序列分析,发现6类与逆境反应有关的顺式作用元件.推测该基因在逆境反应中起着重要的作用,进一步的研究正在进行中.     

高羊茅MAPK基因的克隆与表达分析

丝裂原活化蛋白激酶(M APK)是生物体内信号转导的重要组分,与生长、发育和逆境胁迫反应密切相关.为了研究草坪草对非生物逆境胁迫反应的分子机理,利用同源基因克隆法从4℃低温诱导的草坪草高羊茅(F estu-ca arund inacea Schreb.)幼苗cDNA文库中分离得到一个M APK的cDNA即F aMAPK 1,F aMAPK 1编码369个氨基酸残基的蛋白激酶,该蛋白激酶具有TEY的磷酸化基序.据推测的氨基酸序列的BLA ST同源性分析表明,F aM APK 1蛋白与水稻O sM APK 4蛋白的一致性为91.1%.N orthern杂交检测F aMAPK 1基因对逆境胁迫反应的结果表明冷(4℃)处理对根中F aMAPK 1基因的表达没有明显影响,但诱导叶中F aMAPK 1上调表达.而且低温(4℃)、高盐(250 mm o l/L N aC l)、干旱和100μm o l/L ABA都诱导叶中F aMAPK 1上调表达,表明F aM APK 1蛋白可能在高羊茅对非生物逆境胁迫的反应中起重要作用.     

蓖麻RcbZIP11基因克隆及表达特性研究

为探究蓖麻bZIP(basic leucine zipper)基因在响应非生物胁迫应答过程中的作用,研究基于蓖麻转录组数据,克隆到1条在低温胁迫下显著上调表达的bZIP基因,并将其命名为RcbZIP11(GenBank No. OQ506490)。RcbZIP11基因的编码区序列全长492 bp,其推导163个氨基酸,预测是1个亲水性蛋白质,具有保守的bZIP＿plant＿GBF1结构域。蛋白质的多序列对比显示,RcbZIP11蛋白质在进化过程中相对保守,进化树分析显示RcbZIP11与麻风树JcbZIP11蛋白质亲缘关系最近。亚细胞定位显示RcbZIP11蛋白质定位于细胞核,并成功克隆出RcbZIP11启动子序列,预测结果显示,该区域拥有光响应元件、逆境响应类元件和激素诱导类元件。RcbZIP11基因在蓖麻不同组织(真叶、子叶、茎和根)中均有表达,在子叶中相对表达量最高;且该基因在逆境胁迫下(干旱、盐、低温和ABA)的根和真叶中其相对表达量均高于0 h,说明RcbZIP11基因积极地参与蓖麻的非生物胁迫响应。综上,研究为进一步探究RcbZIP11基因在蓖麻逆境条件生长过程中的功能奠定...     

葡萄VvBAP1基因的克隆及表达特性分析

以抗性葡萄品种‘F-242’组培苗为材料, 利用同源克隆法克隆了葡萄VvBAP1基因。测序结果显示, VvBAP1扩增片段大小为531 bp, 可编码176个氨基酸序列。利用生物信息学分析VvBAP1基因编码的蛋白序列显示, 该蛋白分子量为19.43 kDa, 含有保守的钙离子依赖性的C2结构域; 等电点pI为9.42; 不稳定系数为37.09, 推测为稳定的亲水性蛋白; 含有多个丝氨酸/苏氨酸磷酸化位点。实时荧光定量PCR表明, 该基因在根茎叶中均有表达, 其中在叶片中表达量较高; 盐胁迫、低温等逆境因子及逆境相关的信号物质, 如水杨酸和一氧化氮均可诱导VvBAP1的表达, 其中低温对其表达量影响更为显著, 推测该基因参与了葡萄抵御逆境胁迫的过程, 尤其是与低温相关的过程。     

蝴蝶兰PhTSJT1基因的克隆及在低温胁迫下的表达分析

本研究从蝴蝶兰叶片中克隆了茎部特异基因Ph TSJT1的全长序列(GenBank登录号为MF797883),并分析了其在不同组织及低温胁迫下的表达特性。结果表明,Ph TSJT1基因全长994 bp,编码239个氨基酸,属于Class-Ⅱ谷氨酰胺酰胺基转移酶超家族成员;同源性分析表明,该蛋白与多种植物的茎部特异蛋白和铝诱导蛋白有较高的同源性,进化上与小兰屿蝴蝶兰的茎部特异蛋白亲缘关系最近;该基因在营养器官中表达水平较高,在花器官中表达水平较低;13℃/8℃(昼/夜)的低温胁迫抑制PhTSJT1基因的转录表达,并随着低温胁迫时间的延长,Ph TSJT1基因的表达水平逐渐降低,在温度恢复正常时其表达水平升高;4℃冷胁迫低温条件下,PhTSJT1基因在处理1 h时,表达水平升高,处理8 h时表达水平最高,16 h后表达水平逐渐降低。由此推测,PhTSJT1参与4℃冷胁迫的分子调控。本研究不但有助于理解热带亚热带植物的耐冷机制,也为蝴蝶兰新品种的遗传改良提供帮助。     

西伯利亚蓼非特异性脂质转移蛋白编码序列的克隆及其盐胁迫下的表达

根据西伯利亚蓼地下茎抑制消减文库(SSH)中获得的非特异性脂质转移蛋白(non-specific lipid transfer protein, nsLTP)EST序列,应用RACE技术克隆了具有Poly A的全长cDNA序列.该序列全长604 bp,其5′非翻译区65 bp,3′非翻译区227 bp,开放阅读框编码103个氨基酸残基;序列分析表明,该基因具有N端信号肽,具有nsLTP家族共有的典型保守区域,属nsLTP家族基因,命名为PsnsLTPs;荧光定量PCR分析表明,PsnsLTPs在西伯利亚蓼叶、茎、地下茎中均有表达.在3%NaHCO3诱导表达下,该基因在地下茎中表达明显受盐胁迫的诱导,推测该基因在抵御盐胁迫时具有重要作用.     

水稻多逆境诱导基因OsMsr4的克隆与表达分析

为深入了解水稻逆境反应的分子机理和发现新的耐逆相关功能基因,采用Affymetrix水稻表达芯片分析超级稻两优培九母本培矮64S(Oryza sativa L.)不同生长发育时期、不同组织器官全基因组在低温、干旱、高温逆境胁迫下的表达水平,筛选出多个多因子诱导高表达特异基因(待另文发表).OsMsr4是其中一个在多种逆境条件,各生长发育时期与组织器官,其表达量均显著上调的基因,用实时定量PCR方法对其表达水平进行了进一步的分析,所得结果与基因芯片结果基本吻合.用 PCR方法扩增获得长为550 bp全长基因序列,其编码的144个氨基酸残基形成Cys2His2型双锌指结构蛋白,并且锌指结构的α-螺旋区含有植物锌指蛋白特定的保守序列QALGGH.因此,OsMsr4有可能是TFⅢA型锌指蛋白,作为转录因子参与各种环境胁迫应答反应,调控多个逆境相关基因表达.     

茶树CsCBF1基因克隆和转录活性分析

采用RACE技术克隆了一个受冷诱导的茶树CBF基因全长cDNA,命名为CsCBF1(GenBank登录号为EU563238)。CsCBF1cDNA全长序列为1 211bp,开放阅读框编码259个氨基酸。氨基酸序列分析表明,CsCBF1具有CBF家族典型的保守结构域,与其他植物的CBF具有较高的相似性;与拟南芥、辣椒和橡胶树编码的CBF相似性分别为56%、63%和56%。亚细胞定位结果表明,CsCBF1位于细胞核内。分别将10个CsCBF1缺失突变体与GAL4DNA结合域融合的结果显示,CsCBF1的羧基末端酸性结构域(第137位氨基酸至259位氨基酸)在酵母中具有转录激活活性。实时定量RT-PCR分析表明,CsCBF1基因受低温的快速诱导表达。     

Differential expression of <Emphasis Type="Italic">Histone H3</Emphasis> gene in tea (<Emphasis Type="Italic">Camellia sinensis</Emphasis> (L.) O. Kuntze) suggests its role in growing tissue

Histone proteins are integral part of chromatin and their expression is typically linked to DNA replication in the S phase of cell cycle. Histone H3 is one of the four histones, along with H2A, H2B and H4, which forms the eukaryotic nucleosome octomer core. Using differential display of mRNA and rapid amplification of cDNA ends (RACE), a full-length Histone H3.1 cDNA (CsH3) was isolated from tea leaves. The open reading frame consisted of 411 nucleotides and deduced amino acid sequence comprised of 136 amino acid residues. CsH3 shared 79-82% and 98% identity at nucleotide and amino acid sequences, respectively with Histone H3 isolated from other plant species. During active-growth period of tea, higher expression was observed in apical buds that decreased gradually with increasing age of the leaf. During dormancy season, the expression of CsH3 was severely down-regulated in all the leaves studied. CsH3 was found to be down regulated in response to drought stress and ABA treatment and up-regulated by GA(3) treatment. A positive association of CsH3 abundance with active cellular growth suggested its role in plant growth and development.     

Isolation and characterization of Histone1 gene and its promoter from tea plant (Camellia sinensis)

One 1.2 kbp long sequence was cloned by using PCR with primers that were designed from cDNA sequence of CsH1 gene (Genbank: EU716314) from tea plant (Camellia sinensis). According to the 1.2 kbp sequence, a 0.6 kbp sequence was isolated from tea plant genomic DNA using DNA Walking Method. Sequence analysis revealed that the 1.2 kbp sequence is a CsH1 gene consisting of 1 exon and 2 introns, the border of exton and intron sequences conforming to the GT–AG rule, and the 0.6 kbp sequence was found to be the promoter of CsH1 gene which contains basic promoter elements, TATA-box and CAAT-box. Abscisic acid responsiveness cis-acting element, elictor-responsive element, GA response element, light response cis-acting element and TC-rich repeats were also represented. To further study the activity of this promoter, the sequence was used to drive a GUS fusion gene in Agrobacterium-mediated transformation of tea plant somatic embryos, leaf discs and calli of tobacco (Nicotiana tabacum L.) where a high level of GUS expression was both observed in the tobacco calli and tea plant somatic embryos. These results suggest that the CsH1 gene promoter isolated is capable of conferring nuclear gene expression.     

Molecular cloning and characterization of vernalization-related (ver) genes in winter wheat

The enriched cold-induced cDNA library of 1 × 10⁴ plaque-forming units (pfu. was prepared using cDNAs from cold-induced winter wheat, subtracted with mRNA of the control (non cold-induced). Results of the hybridization in situ of differential screening with probes of the control, the vernalized and devernalized wheat cDNAs showed that verc 17 ( verc : vernalization-relatcd cDNA clone) is specific for the veinalization. The insert of lambda of 10 recombinant was subcloned into the sites between Bam HI and Hind III in a pUC 19 plasmid. Analysis by northern blotting with a probe from verc 17 indicated that the verc 17 has negative signals for the control and the devernatized mRNA, but a positive signal for the mRNA of vernalized wheat at about 1.8 kb. The sequence had 20 restriction sites, covered by 17 enzymes. The ver 17 gene showed some homology with the P. yeolii major merozoite surface-antigen gene.     

一个新的茶树黄酮醇合酶基因的克隆和表达分析

Cs—COR113（GenBank登录号：FE942098）为一受冷诱导的茶树黄酮醇合酶基因的cDNA片段,采用RACE技术克隆了这一基因的全长cDNA,命名为CsFLS（GenBank登录号：FJ577509）。CsFLScDNA序列全长为1303bp,5＇-UTR和3’-UTR分别长91bp和175bp,包含一个编码336个氨基酸的完整开放阅读框。序列分析显示,CsFLS与烟草、矮牵牛、欧芹、拟南芥的黄酮醇合酶的同源性分别为74％、75％、75％和63％,含有2-酮戊二酸依赖性双加氧酶家族2个保守的基序,以及与黄酮醇合酶正确折叠有关的2个保守的甘氨酸残基。CsFLS的表达受低温诱导,但不受ABA诱导。     

茶树细胞周期蛋白基因的克隆与表达

以茶树萌动芽为材料,采用SMART-RACE PCR技术从茶树萌动芽中获得了茶树细胞周期蛋白基因的全长cDNA序列(命名为CsCYC1),并用实时定量PCR方法(qRT- PCR)研究了该基因在茶树越冬芽休眠到萌发后不同阶段的表达模式.结果显示:(1)该基因全长1956 bp,包含1320 bp的开放阅读框(ORF),编码439个氨基酸残基.(2) CsCYC1预测分子量为49.35 kD,具有细胞周期蛋白家族典型的保守cyclin-box结构域和三维结构.(3)系统进化分析结果表明,CsCYC1的氨基酸序列与葡萄、蓖麻、毛果杨、琴叶鼠耳芥、拟南芥等的相似性分别为77％、74％、72％、68％和67％.(4)实时荧光定量PCR分析显示,CsCYC1基因在茶树越冬芽休眠期的表达量远低于恢复生长期,在萌发期表达量最高,说明该基因与茶树越冬芽休眠的解除关系密切.     

Expression analysis of a chicory fructan 1-exohydrolase gene reveals complex regulation by cold

The gene for a recently identified cDNA, 1-FEH IIa, encoding a fructan 1-exohydrolase was isolated and cloned from Cichorium intybus and a 1149 bp promoter fragment was characterized. An analysis of the genomic 1-FEH IIa sequence indicated that the gene (FEHIIa) consists of six introns and seven exons, which is similar to plant invertase genes. Like invertase genes, FEHIIa also contains the 9 nt mini-exon encoding the tripeptide DPN. A database search for cis-acting response elements within its promoter identified multiple elements that appear to have relevance to cold-induced expression of the gene in field-grown roots. Promoter analysis by transient expression assay demonstrated that the FEHIIa gene promoter is highly expressed in etiolated Cichorium leaves and cold-stored roots, which correlated well with the high level expression detected by RNA blot analysis. Cold also enhanced FEHIIa reporter gene expression in green leaves, however, the reporter gene activity was much lower compared with similar induction experiments in etiolated leaves. Promoter deletion analysis demonstrated the presence of potential cold-responsive ABRE and/or CRT/DRE elements in the -22 to -172 region, while regions -933 to -717 and -493 to -278 contain elements that can down-regulate expression at the conditions used. Characterization of the FEHIIa promoter may provide tools to study cold-induced expression and to increase freezing tolerance in agricultural crops.     

茶树CsGME1基因的克隆与逆境胁迫响应分析

该研究基于茶树转录组和基因组信息,以茶树‘龙井43’为实验材料,从其cDNA中克隆获得茶树CsGME1基因,并对其蛋白序列特征、基因表达模式及其在不同非生物胁迫下的表达水平进行实时荧光定量分析。结果显示:(1)茶树CsGME1开放阅读框长度为1131 bp,编码376个氨基酸;该序列与多个相关物种的GME氨基酸序列一致性为94.25%,均含有NAD结合域。(2)进化树分析表明,茶树CsGME1基因与番茄SlGME1亲缘关系较近,与水稻OsGME2亲缘关系最远。(3)CsGME1蛋白属于亲水性蛋白,理论相对分子量为42046.84 Da,理论等电点为5.73,具有4个无序化区域,无序化程度较低;CsGME1蛋白二级结构由39.25%α-螺旋,13.26%延伸主链,5.84%β-转角和41.38%随机卷曲组成;三级结构分析结果显示,CsGME1包含螺旋和随机卷曲,与二级结构吻合。(4)荧光定量分析结果显示,在高温(38℃)、低温(4℃)、干旱(20%PEG)和高盐(200 mmol·L-1 NaCl)4种非生物胁迫处理下,茶树CsGME1基因均有响应,且表达存在差异,推测CsGME1参与了茶树的逆境胁迫响应过程。