pFGC5941的改造及拟南芥NAC1和SIP1双基因反义表达载体的构建和遗传转化

拟南芥中的SIP1基因编码的蛋白与拟南芥盐胁迫应答中的关键蛋白SOS2存在互作关系,而NAC1为拟南芥中介导生长素信号促进其侧根发生的蛋白。本研究中我们将SIP1基因和NAC1正义基因以及SIP1基因和NAC1反义基因分别整合到一个经改造的具有2个35S启动子的可用于双基因表达的载体pFGC5941S中,构建了两个双基因表达载体pFGC5941S SIP1 NAC1 sense和pFGC5941S SIP1 NAC1 anti。并将这两个载体通过农杆菌介导的方法转化到野生型拟南芥中,共获得15株转基因植株。对这些转基因植株进行盐胁迫实验发现,在含75mmol·L-1 NaCl的MS培养基上,相比于野生型,pFGC5941S SIP1 NAC1 sense转基因植株主根增长,侧根数量明显增多,而pFGC5941S SIP1 NAC1 anti转基因植株长势与野生型苗相似。由此我们推测可能只有当SIP1和NAC1同时过表达时,才会促进盐胁迫下拟南芥侧根的发育。     

pFGC5941的改造及拟南芥NAC1和SIP1双基因反义表达载体的构建和遗传转化

拟南芥中的SIP1基因编码的蛋白与拟南芥盐胁迫应答中的关键蛋白SOS2存在互作关系,而NACl为拟南芥中介导生长素信号促进其侧根发生的蛋白。本研究中我们将SIPl基因和NAC1正义基因以及SIP1基因和NAC1反义基因分别整合到一个经改造的具有2个35S启动子的可用于双基因表达的载体pF—GC5941S中,构建了两个双基因表达载体pFGC5941S-SIP1-NAC1-sense和pFGC5941S-SIP1-NACl-anti。并将这两个载体通过农杆菌介导的方法转化到野生型拟南芥中,共获得15株转基因植株。对这些转基因植株进行盐胁迫实验发现,在含75mnlol·L-1 NaCl的MS培养基上,相比于野生型,pFGC5941S-SIP1-NAC1-sense转基因植株主根增长,侧根数量明显增多,而pFGC5941S-SIP1-NAC1-anti转基因植株长势与野生型苗相似。由此我们推测可能只有当SIP1和NAC1同时过表达时,才会促进盐胁迫下拟南芥侧根的发育。     

油菜BnCr4基因RNAi载体构建及植株转化

该实验构建了含甘蓝型油菜黄化相关基因BnCr4特异片段反向重复结构的RNA干扰(RNAi)载体pFGC5941-Cr4,通过根癌农杆菌介导转化油菜,获得47株抗Basta的抗性再生油菜植株,其中10株经PCR鉴定为阳性转基因植株.随机选取3株经鉴定的转基因阳性油菜植株进行半定量RT-PCR分析,结果显示,相对于非转基因的野生型油菜,3株转基因植株中BnCr4基因的表达量分别降低了78.5%、8.5%、11.8%,表明该干扰载体转入油菜能特异引起植株BnCr4基因表达量下降.     

MicroRNA directs mRNA cleavage of the transcription factor NAC1 to downregulate auxin signals for arabidopsis lateral root development

Although several plant microRNAs (miRNAs) have been shown to play a role in plant development, no phenotype has yet been associated with a reduction or loss of expression of any plant miRNA. Arabidopsis thaliana miR164 was predicted to target five NAM/ATAF/CUC (NAC) domain-encoding mRNAs, including NAC1, which transduces auxin signals for lateral root emergence. Here, we show that miR164 guides the cleavage of endogenous and transgenic NAC1 mRNA, producing 3'-specific fragments. Cleavage was blocked by NAC1 mutations that disrupt base pairing with miR164. Compared with wild-type plants, Arabidopsis mir164a and mir164b mutant plants expressed less miR164 and more NAC1 mRNA and produced more lateral roots. These mutant phenotypes can be complemented by expression of the appropriate MIR164a and MIR164b genomic sequences. By contrast, inducible expression of miR164 in wild-type plants led to decreased NAC1 mRNA levels and reduced lateral root emergence. Auxin induction of miR164 was mirrored by an increase in the NAC1 mRNA 3' fragment, which was not observed in the auxin-insensitive mutants auxin resistant1 (axr1-12), axr2-1, and transport inhibitor response1. Moreover, the cleavage-resistant form of NAC1 mRNA was unaffected by auxin treatment. Our results indicate that auxin induction of miR164 provides a homeostatic mechanism to clear NAC1 mRNA to downregulate auxin signals.     

光皮桦miR164及其靶基因NAC1在低氮胁迫中的表达分析

氮是植物生长发育所必需的大量营养元素,植物缺氮后严重影响地上部分生物量的积累,因此,揭示植物如何抵抗或适应低氮胁迫的分子机制具有重要意义。杨树(Populus tremula × P. alba)NAC1(NAM, ATAF, CUC 1)基因位于调控网络上游,在低氮环境下调控下游关键基因的表达,进而调控根系生长以抵抗低氮胁迫。本文以光皮桦(Betula luminifera)G49-3无性系组培苗为材料,探讨了miR164及其靶基因NAC1对低氮胁迫的响应。通过RACE技术克隆了光皮桦NAC1基因(GenBank登录号：KT900889),全长1497 bp,编码358个氨基酸,N端具有高度保守的NAM结构域;运用5′-RACE验证了NAC1为miR164靶基因,切割位点在第10和11位碱基之间;采用qRT-PCR分析miR164与靶基因NAC1在低氮胁迫时的表达模式,发现miR164表达在根中的低氮处理前期(4 d)受到抑制,而后升高,而茎叶中表达模式与根不同;靶基因NAC1与miR164表达水平呈负相关,且在恢复实验组(重新添加全营养液)中,根中miR164表达上升,NAC1显示出相应的表达变化,暗示miR164及其靶基因NAC1可能在低氮胁迫响应中发挥调控功能。本研究结果有助于揭示miR164对NAC1在低氮胁迫响应中转录后水平的分子调控机制,为进一步研究miR164-NAC1在低氮胁迫响应中的功能提供有价值的信息。     

转拟南芥P5CS1基因增强羽衣甘蓝的耐旱性

为提高羽衣甘蓝的耐旱性,本文将拟南芥Δ1-吡咯啉-5-羧酸合成酶（P5CS1）基因经农杆菌介导转入羽衣甘蓝植株中,检测转基因株系与野生型植株在干旱胁迫下P5CS1 mRNA表达量、幼苗脯氨酸含量、株系根系性状、整株干重、鲜重和整株存活率。结果表明,在15%PEG6000渗透胁迫下,转基因植株的P5CS1基因mRNA表达量明显增加,转基因植株脯氨酸含量是野生型的2.4倍;主根长、最长侧根长、侧根数目、整株干重和鲜重均高于野生型,干重/鲜重则低于野生型,转基因植株的平均存活率为78%,极显著高于野生型。数据显示,AtP5CS1基因在羽衣甘蓝中的表达明显改善了转基因植株的耐旱性。     

Overexpressing the ANR1 MADS-box gene in transgenic plants provides new insights into its role in the nitrate regulation of root development

The expression of the ANR1 MADS-box gene was manipulated in transgenic plants to investigate its role in the NO(3)(-)-dependent regulation of root development in Arabidopsis thaliana. Constitutive overexpression of ANR1 in roots, achieved using GAL4 enhancer trap lines, resulted in more rapid early seedling development, increased lengths and numbers of lateral roots and increased shoot fresh weight. Based on results obtained with five different enhancer trap lines, the overexpression of ANR1 in the lateral root tips appears to be more important for this phenotype than its level of expression in the developing lateral root primordia. Dexamethasone-mediated induction of ANR1 in lines expressing an ANR1-GR (glucocorticoid receptor) fusion protein stimulated lateral root growth but not primary root growth. Short-term (24 h) dexamethasone treatments led to prolonged stimulation of lateral root growth, whether the lateral roots were already mature or still unemerged at the time of treatment. In split-root experiments, localized application of dexamethasone to half of the root system of an ANR1-GR line elicited a localized increase in both the length and numbers of lateral roots, mimicking the effect of a localized NO(3)(-) treatment. In both types of transgenic line, the root phenotype was strongly dependent on the presence of NO(3)(-), indicating that there are additional components involved in ANR1 function that are NO(3)(-) regulated. The implications of these results for our understanding of ANR1's mode of action in the root response to localized NO(3)(-) are discussed.     

水稻OsGSTL1启动子的分离和表达分析

从水稻基因组文库中筛选得到一个水稻GST基因,命名为OsGSTL1.半定量RT-PCR分析表明OsGSTL1基因的表达不受绿磺隆、乙烯利、脱落酸、水杨酸和茉莉酸甲酯的诱导,因此该基因可能与植物抗逆性无关.为了研究OsGSTL1启动子在植物体内的表达特性,将OsGSTL1起始位点5＇端上游不同长度的调控序列与报告基因GUS融合,并在洋葱表皮瞬间表达和拟南芥中稳定表达.研究表明：在洋葱表皮细胞中,160bp及更长的上游调控序列均能启动GUS基因的表达;而在转基因拟南芥中,含有2155 bp的上游序列的PGZ2.1：：GUS具有时空表达的特性,在转基因的早期幼苗中GUS基因在子叶中特异性表达,但在根中没有表达;而在幼苗生长的后期,根、茎、叶中都有少量的表达.但包含1 224 bp的上游序列的PGZ1.2：：GUS却表现为组成型表达的特性.由此推测,OsGSTL1启动子启动的基因表达可能与幼苗的营养代谢相关;而OsGSTL1启动子的时空表达相关元件可能位于OsGSTL1翻译起始位点5＇端上游-2155 bp至-1224 bp范围内.     

A MAP kinase kinase interacts with SymRK and regulates nodule organogenesis in Lotus japonicus

The symbiosis receptor kinase, SymRK, is required for root nodule development. A SymRK-interacting protein (SIP2) was found to form protein complex with SymRK in vitro and in planta. The interaction between SymRK and SIP2 is conserved in legumes. The SIP2 gene was expressed in all Lotus japonicus tissues examined. SIP2 represents a typical plant mitogen-activated protein kinase kinase (MAPKK) and exhibited autophosphorylation and transphosphorylation activities. Recombinant SIP2 protein could phosphorylate casein and the Arabidopsis thaliana MAP kinase MPK6. SymRK and SIP2 could not use one another as a substrate for phosphorylation. Instead, SymRK acted as an inhibitor of SIP2 kinase when MPK6 was used as a substrate, suggesting that SymRK may serve as a negative regulator of the SIP2 signaling pathway. Knockdown expression of SIP2 via RNA interference (RNAi) resulted in drastic reduction of nodules formed in transgenic hairy roots. A significant portion of SIP2 RNAi hairy roots failed to form a nodule. In these roots, the expression levels of SIP2 and three marker genes for infection thread and nodule primordium formation were downregulated drastically, while the expression of two other MAPKK genes were not altered. These observations demonstrate an essential role of SIP2 in the early symbiosis signaling and nodule organogenesis.     

The Arabidopsis thaliana ABC transporter AtMRP5 controls root development and stomata movement

In the present study, we investigated a new member of the ABC transporter superfamily of Arabidopsis thaliana, AtMRP5. AtMRP5 encodes a 167 kDa protein and exhibits low glutathione conjugate and glucuronide conjugate transport activity. Promotor- beta-glucuronidase fusion constructs showed that AtMRP5 is expressed mainly in the vascular bundle and in the epidermis, especially guard cells. Using reverse genetics, we identified a plant with a T-DNA insertion in AtMRP5 (mrp5-1). mrp5-1 exhibited decreased root growth and increased lateral root formation. Auxin levels in the roots of mrp5-1 plants were increased. This observation may indicate that AtMRP5 works as an auxin conjugate transporter or that mutant plants are affected in ion uptake, which may lead to changes in auxin concentrations. Experiments on epidermal strips showed that in contrast to wild type, the sulfonylurea glibenclamide had no effect on stomatal opening in mrp5-1 plants. This result strongly suggests that AtMRP5 may also function as an ion channel regulator.     

An Arabidopsis thaliana root-specific kinase homolog is induced by dehydration, ABA, and NaCl

Genomic and cDNA clones have been isolated for an Arabidopsis thaliana gene, ARSK1, that encodes a protein with structural similarities to serine/threonine kinases. Expression of ARSK1 is root specific and is induced by exposing roots to air during growth or by treatment of roots with ABA or NaCl. ARSK1 gene expression in transgenic plants is confined to cells in the tissues of the root as measured by β-glucuronidase (GUS) expression from an ARSK1 gene promoter—GUS gene construct. Transverse sections of the stained roots further defined the tissue-specificity; high levels of expression in the epidermal, endoepidermal and cortex regions, but no or very little expression in the vascular system. Another feature of the expression pattern of the ARSK1 gene was a gradual increase in the expression level along the root with the highest level of expression in the region closest to the root meristem. These studies suggest that ARSK1 may have a role in the signal transduction pathway of osmotic stress.     

转HAL1基因番茄的耐盐性

利用农杆菌介导的叶盘法,把HAL1 基因转入番茄,Southern杂交检测得到转基因植株.耐盐实验表明, T1代转基因番茄在150 mmol/L的NaCl胁迫下仍有43%的发芽率,200 mmol/L的NaCl胁迫下发芽率为6%,而对照种子在100和150 mmol/L的NaCl胁迫下发芽率分别为11.0%和0.转基因番茄的电解质相对外渗率小于对照,而根冠比和叶绿素含量大于对照,转HAL1基因显著提高了番茄的耐盐性.盐胁迫下Na 、K 的累积状况表明,转基因番茄根、茎、叶的K /Na 均有所提高,根系的SK/Na增大,茎、叶的RSK/Na和RLK/Na减小,说明根系对K /Na 离子的选择吸收和运输能力加强.不但选择吸收K /Na ,而且表现出整株水平上的有利于耐盐的K /Na 区域化分配.     

Functional characterization of NtCDPK1 in tobacco

We previously showed that NtCDPK1, a tobacco cal-cium-dependent protein kinase, interacts with and phosphorylates the Rpn3 regulatory subunit of the 26S proteasome, and that both NtCDPK1 and Rpn3 are mainly expressed in rapidly proliferating tissues, in-cluding shoot and root meristem. In this study, we ex-amined NtCDPK1 expression in roots using GUS ex-pression in transgenic Arabidopsis plants, and investi-gated its function in root development by generating transgenic tobacco plants carrying a sense NtCDPK1 transgene. GUS activity was first detected in roots two days after sowing. In later stages, strong GUS expres-sion was detected in the root meristem and elongation zone, as well as the initiation sites and branch points of lateral roots. Transgenic tobacco plants in which NtCDPK1 expression was suppressed were smaller, and their root development was abnormal, with reduced lateral root formation and less elongation. These re-sults suggest that NtCDPK1 plays a role in a signaling pathway regulating root development in tobacco.     

超表达AVP1基因提高甜菜的耐低磷和耐盐抗旱性

为探讨H⁺-焦磷酸酶编码基因对甜菜磷吸收和抗性的影响，实现优良基因在甜菜基因工程中的利用，研究在甜菜中超表达拟南芥液泡膜H⁺-焦磷酸酶编码基因AVP1,对转基因甜菜分析其耐低磷、耐盐性和抗旱性。结果显示，AVP1基因在甜菜植株的叶片和块根中表达，且在逆境胁迫下增强表达量响应胁迫；低磷处理条件下，转基因甜菜与野生型甜菜相比具有更高的含磷量，可提高甜菜对磷的吸收利用效率；干旱、盐胁迫处理条件下，AVP1基因在转基因甜菜中显著上升，在盐胁迫或干旱处理条件下，转基因植株的生长受抑程度相对较轻。随着盐和干旱胁迫的加剧，转基因植株体内MDA含量与野生型植株相比较低而脯氨酸含量显著增加，AVP1基因可通过减轻逆境对甜菜细胞膜的损伤及提高甜菜细胞的渗透调节能力，进而增强甜菜对高盐和干旱胁迫的抗性。     

AtCYS1, a cystatin from Arabidopsis thaliana, suppresses hypersensitive cell death.

In plants, cysteine protease inhibitors are involved in the regulation of protein turnover and play an important role in resistance against insects and pathogens. AtCYS1 from Arabidopsis thaliana encodes a protein of 102 amino acids that contains the conserved motif of cysteine protease inhibitors belonging to the cystatin superfamily (Gln-Val-Val-Ala-Gly). Recombinant A. thaliana cystatin-1 (AtCYS1) was expressed in Escherichia coli and purified. AtCYS1 inhibits the catalytic activity of papain (Kd = 4.0 x 10-2 micro m, at pH 7.0 and 25 degrees C), generally taken as a molecular model of cysteine proteases. The molecular bases for papain inhibition by AtCYS1 have been analysed taking into account the three-dimensional structure of the papain-stefin B complex. AtCYS1 is constitutively expressed in roots and in developing siliques of A. thaliana. In leaves, AtCYS1 is strongly induced by wounding, by challenge with avirulent pathogens and by nitric oxide (NO). The overexpression of AtCYS1 blocks cell death activated by either avirulent pathogens or by oxidative and nitrosative stress in both A. thaliana suspension cultured cells and in transgenic tobacco plants. The suppression of the NO-mediated cell death in plants overexpressing AtCYS1 provides the evidence that NO is not cytotoxic for the plant, indicating that NO functions as cell death trigger through the stimulation of an active process, in which cysteine proteases and theirs proteinaceous inhibitors appear to play a crucial role.