菜豆泛肽基因在生物和非生物胁迫下的表达

差别筛选HgCl2胁迫处理的菜豆（Phaseolus vulgaris L.）幼苗叶片cDNA库,分离出1个重金属胁迫响应基因PvSR52克隆,其cDNA长度为281bp。cDNA和氨基酸序列同源性分析表明PvSR52编码一种多聚泛肽。Southern blot结果表明菜豆泛肽可能由少数基因编码。Northern blot分析表明多聚泛肽叶片中表达较少;重金属Hg、Cd和As等、过量的Zn和Cu及高温、病毒侵染和水杨酸等环境胁迫均能强烈地刺激其在叶片中的表达。推测泛肽水解系统在提高植物的抗塑性方面有重要作用。     

菜豆重金属胁迫响应基因:cDNA克隆及其表达分析

通过差别筛选HgCl2胁迫下的菜豆叶片cDNA库,分离出7组不同的cDNA克隆（Phaseolusvulgarisstress-relatedprotein,PvSR1～7）。cDNA序列和同源性分析结果表明：PvSR1编码富含脯氨酸细胞壁蛋白（PRP）,PvSR2和PvSR7编码新的HgCl2胁迫相关蛋白,PvSR3编码脱水蛋白（dehydrin）,PvSR4编码病原相关（PR）蛋白,PvSB5编码polyubiqui－tin,PvSR6编码DuaJ－like蛋白。HgCl2胁迫可强烈地请导PvSR2和PR蛋白基因的表达,并能提高PRP,、dehydrinlike和polyubiq－uitin基因的转录水平。这些蛋白质共同作用可能对维持细胞的正常代谢和抵抗重金属胁迫方面有重要作用。     

菜豆重金属响应基因PvSR2在烟草中的表达及镉抗性分析

重金属特异诱导基因PvSR2(Phaseolus vulgaris stress-related)是从法国菜豆中克隆出来的, 为了研究该蛋白能否提高植物的抗重金属能力, 将PvSR2基因插入到植物转化中间载体pCAMBIA2301中CaMV 35S启动子的下游, 用根癌农杆菌介导的叶盘法将其导入烟草中, 在含有100 mg/L Kan的MS培养基上筛选, 获得了转基因植株. PCR和Southern杂交结果表明PvSR2已整合在烟草基因组中, GUS和Northern分析表明PvSR2在转基因烟草中获得表达. 重金属抗性实验表明: 与野生型烟草相比, PvSR2转基因烟草具有较高的抗重金属镉(Cd)的能力. 组织Cd含量分析显示: 在低浓度Cd (0.5~0.75 mmol/L)处理时, Cd在PvSR2转基因烟草与野生型烟草根中的累积量没有明显的差别, 而在高浓度Cd(0.1 mmol/L)胁迫下, 转基因烟草根中Cd的累积量低于野生型烟草, 说明PvSR2的表达能够提高植物的抗重金属能力, 同时表明PvSR2可能与重金属在植物中的运输和积累有一定关系.     

菜豆病程相关蛋白基因在重金属胁迫下的表达分析

为探讨植物抗重金属的分子机理 ,差别筛选了 Hg Cl2 胁迫的菜豆 ( Phaseolus vulgaris L.)叶片 c DNA库 ,分离出一个重金属胁迫响应基因 Pv SR4克隆 .c DNA和氨基酸序列分析表明 Pv SR4编码一种细胞内病程相关蛋白 ,该蛋白具有 RNase活性 .Northern blot分析表明 Pv SR4基因在正常生长条件下的叶片中不表达 ,重金属 ( Hg、Cd、As、Zn和 Cu等 )和水杨酸能强烈地诱导其基因的表达 ,受伤也能促进该基因的转录 ,而热胁迫几乎没有调节作用 .推测 Pv SR4蛋白在诱导植物的抗逆性和抵抗重金属胁迫方面有重要作用     

水稻EPSP合酶cDNA克隆、序列分析及其拷贝数测定

根据本室分离的水稻EPSP合酶基因的基因组序列设计一对引物,利用RT-PCR方法首次从水稻(Oryza sativa L. subsp. indica)叶片的RNA中扩增获得了水稻编码EPSP合酶的全长为1 585 bp的cDNA片段,它含有一个完整的开放读码框,编码511个氨基酸,包括444个氨基酸组成的成熟肽序列以及N端的67个氨基酸组成的叶绿体转运肽序列.成熟肽氨基酸序列对比表明,除真菌来源的EPSP合酶变异较大外,其他来源的EPSP合酶同源性较高,均在51%以上.而叶绿体转运肽氨基酸序列同源性较低.Southern杂交表明水稻EPSP合酶基因在水稻基因组中以单拷贝形式存在.RT-PCR分析表明,水稻EPSP合酶基因在根、未成熟种子和叶片中均有转录表达,在叶片中表达量最高.     

西府海棠(Malus micromalus)MaMAPK基因的克隆及表达特性

依据高等植物MAPK基因的保守区设计简并引物,用 RT-PCR方法,首次从西府海棠幼苗叶片中克隆了促分裂原活化蛋白激酶(mitogen-activated protein kinase,MAPK)基因(MaMAPK)的cDNA全序列.Southern杂交结果表明在西府海棠中存在一个小的MAPK基因家族.20%PEG处理西府海棠幼苗不同时间后的Northern杂交分析表明,该基因在根系和叶片中均有表达,随着胁迫时间延长表达量增加,说明西府海棠MaMAPK基因在转录水平上受水分胁迫诱导表达.     

水稻EPSP合酶cDNA克隆、序列分析及其拷贝数测定

根据本室分离的水稻EPSP合酶基因的基因组序列设计一对引物 ,利用RT_PCR方法首次从水稻 (Oryzasati vaL .subsp .indica)叶片的RNA中扩增获得了水稻编码EPSP合酶的全长为 15 85bp的cDNA片段 ,它含有一个完整的开放读码框 ,编码 5 11个氨基酸 ,包括 44 4个氨基酸组成的成熟肽序列以及N端的 6 7个氨基酸组成的叶绿体转运肽序列。成熟肽氨基酸序列对比表明 ,除真菌来源的EPSP合酶变异较大外 ,其他来源的EPSP合酶同源性较高 ,均在 5 1%以上。而叶绿体转运肽氨基酸序列同源性较低。Southern杂交表明水稻EPSP合酶基因在水稻基因组中以单拷贝形式存在。RT_PCR分析表明 ,水稻EPSP合酶基因在根、未成熟种子和叶片中均有转录表达 ,在叶片中表达量最高     

沙冬青AmNAC3转录因子基因在抗旱性和抗寒性中的功能鉴定

为了研究强抗逆植物沙冬青Am NAC3转录因子基因在抗旱性和抗寒性中的功能,首先利用半定量RT-PCR方法对该基因进行了表达分析。结果表明,在室内培养的沙冬青幼苗中,Am NAC3有一定量的基础表达,在干旱胁迫下其转录水平明显上调,而在低温胁迫下其表达上调较弱。然后利用5'RACE技术获得该基因的5'端序列及全长cDNA序列,并利用RT-PCR方法克隆到其全长编码区(846bp)。将编码区片段构建到植物表达载体上,利用农杆菌介导法获得转基因拟南芥。进一步分析表明,转基因拟南芥对于干旱和低温胁迫的抗性表型与野生型无明显差异,但其离体叶片的失水率和气孔开度均大于野生型。此外,转基因幼苗中气孔开闭相关基因ABI1和ABI2的表达量降低。这些结果表明,Am NAC3可能主要在响应干旱胁迫和调节气孔开闭及叶片保水性中发挥功能,而在抵抗低温胁迫中无明显作用。     

茶树CsNCED2基因的克隆和表达分析

该研究以铁观音茶树品种叶片为材料,通过RT-PCR技术,克隆了茶树脱落酸(ABA)合成途径关键限速酶——9-顺式环氧类胡萝卜素裂解双加氧酶(9-cis-epoxycarotenoid dioxygenase,NCED)基因的全长cDNA序列。该基因cDNA全长1 931bp,包含1 821bp完整开放阅读框,共编码606个氨基酸残基。NCBI同源分析结果表明,与葡萄VvNCED2相似性最高(78%),命名为CsNCED2(NCBI登录号:MF765770)。氨基酸序列分析显示,其具有NCED家族的FLNO2258保守结构域,以及MIAHPKxDP和HDFAITE保守结构域序列;在保守区存在4个Fe2+活性组氨酸结合位点,N-端含有叶绿体转运肽。实时荧光定量PCR分析表明,CsNCED2基因在铁观音叶、茎和花中表达量较高;白茶萎凋和乌龙茶做青均可以诱导CsNCED2基因显著上调表达;除干旱胁迫抑制CsNCED2表达外,ABA和低温胁迫均能够诱导CsNCED2基因显著上调表达。表明CsNCED2基因在茶树ABA合成代谢以及胁迫响应中发挥重要作用。     

DnaJ—like基因在不同环境胁迫下的表达研究

ＰｖＳＲ６（Ｐｈａｓｅｏｌｕｓ ｖｕｌｇａｒｉｓ ｓｔｒｅｓｓ－ｒｅｌａｔｅｄ）基因编码一种菜豆ＤｎａＪ－ｌｉｋｅ蛋白。Ｎｏｒｔｈ－ｅｒｎ ｂｌｏｔ结果表明：ＰｖＳＲ６基因在未处理的菜豆叶片中表达较少,重金属（Ｈｇ＾２＋和Ｃｄ＾２＋）、机械损伤、ＵＶ、高温和水杨酸等环境胁迫能强烈地促进其基因的转录,推测ＤｎａＪ－ｌｉｋｅ蛋白在保护细胞膜和酶蛋白的结构和功能及提高植物的抗逆性方面有重要作用。     

Cloning and expression analysis of SKn-type dehydrin gene from bean in response to heavy metals

A heavy metal responsive gene PvSR3 (GenBank accession number U54703) encoding an acid dehydrin was isolated from a mercuric chloride-treated bean (Phaseolus vulgaris L.) leaf cDNA library by differential screening using cDNAs derived from treated and untreated plants. The PvSR3 cDNA is 981-bp long and has a 606-bp open-reading frame with a 202-residue-deduced amino acid sequence. The PvSR3 sequence contains two conserved repeats of the characteristic lysine-rich K segment (EKKGIMDKIKEKLPG) preceded by an 8-serine residue stretch, whereas the Y segment (DEYGNP) conserved motif is absent. The deduced protein has a calculated molecular weight of 23 kDa and an isoelectric point of 5.2. Sequence similarity and comparative analysis showed that PvSR3 shares 70 and 73% similarity with the dehydrin of poplar and pepper, respectively. Southern hybridizations indicated that PvSR3 was a low copy-number gene. Northern blot analysis revealed that PvSR3 mRNA was weakly detected in seedling leaves. However, the gene expression was strongly stimulated by heavy metals, such as mercury, cadmium, arsenic, and copper, whereas virus infection and salt had little effect on it. In contrast, PvSR3 was not responsive to drought or abscisic acid (ABA), and was downregulated by UV radiation. Furthermore, PvSR3 was upregulated by the exogenous signaling molecules, including salicylic acid (SA) and hydrogen peroxide (H2O2). It is suggested that PvSR3 is extremely related to heavy metal stress, and might play an important role in metal detoxification and resistance to the damage caused by heavy metals.     

Cadmium resistance in transgenic tobacco plants enhanced by expressing bean heavy metal-responsive gene <Emphasis Type="Italic">PvSR2</Emphasis>

PvSR2 (Phaseolus vulgaris stress-related gene) has been cloned from French bean and shown to be expressed specifically upon heavy metal treatment. In order to investigate the role of PvSR2 in plant, PvSR2 gene under the control of cauliflower mosaic virus 35S promoter was introduced into tobacco mediated with Agrobacterium tumefaciens LBA4404. The regenerated plantlets were selected on medium with 100 mg/L kanamycin. PCR and Southern blot analysis showed PvSR2 gene was integrated in tobacco genome. Gus and Northern blot analysis indicated PvSR2 gene was expressed in transgenic seedling. The heavy metal resistance assay showed that the transgenic tobacco seedlings with the PvSR2 coding sequence exhibited higher tolerance to Cd compared with wild-type (WT) under Cd exposure. The Cd content accumulated in root between transgenic and WT seedlings had no obvious difference at lower Cd external concentration (0.05-0.075 mmol/L CdCl2), whereas transgenic plant showed a lower root Cd content than the control at higher external Cd concentration (0.1 mmol/L CdCl2). These results suggested that the expression of PvSR2 can enhance the Cd tolerance, and PvSR2 may be involved in Cd transportation and accumulation at the test concentration of 0.1 mmol/L Cd.     

Cadmium resistance in transgenic tobacco plants enhanced by expressing bean heavy metal-responsive gene PvSR2

Heavy metal pollution such as Cd, Hg, Pb, As and Se is an increasing environment problem worldwide. These metals and metalloids have toxic effect on both plants and animals, which are strongly poisonous to metal-sensitive enzymes, resulting in growth inhibition and death of the organism[1]. Contamination of soils with heavy metals, either by natural causes or due to pollution, often has pronounced effects on the vegetation, resulting in the appearance of metallophytes, and heavy-metal tolera…     

Cloning and expression analysis of SKn-type dehydrin gene from bean in response to heavy metals

A heavy metal responsive gene PvSR3 (GenBank accession number U54703) encoding an acid dehydrin was isolated from a mercuric chloride-treated bean (Phaseolus vulgaris L.) leaf cDNA library by differential screening using cDNAs derived from treated and untreated plants. The PvSR3 cDNA is 981-bp long and has a 606-bp open-reading frame with a 202-residue-deduced amino acid sequence. The PvSR3 sequence contains two conserved repeats of the characteristic lysine-rich K segment (EKKGIMDKIKEKLPG) preceded by an 8-serine residue stretch, whereas the Y segment (DEYGNP) conserved motif is absent. The deduced protein has a calculated molecular weight of 23 kDa and an isoelectric point of 5.2. Sequence similarity and comparative analysis showed that PvSR3 shares 70 and 73% similarity with the dehydrin of poplar and pepper, respectively. Southern hybridizations indicated that PvSR3 was a low copy-number gene. Northern blot analysis revealed that PvSR3 mRNA was weakly detected in seedling leaves. However, the gene expression was strongly stimulated by heavy metals, such as mercury, cadmium, arsenic, and coppper, whereas virus infection and salt had little effect on it. In contrast, PvSR3 was not responsive to drought or abscisic acid (ABA), and was downregulated by UV radiation. Furthermore, PvSR3 was upregulated by the exogenous signaling molecules, including salicylic acid (SA) and hydrogen peroxide (H₂O₂). It is suggested that PvSR3 is extremely related to heavy metal stress, and might play an important role in metal detoxification and resistance to the damage caused by heavy metals.