FITC示踪在优化小麦花粉管通道转化方法中的应用

利用FITC(fluorescein is othiocyanate,异硫氰酸荧光素)标记的外源DNA对小麦进行了花粉管通道法转化,在荧光显微镜下观察了外源DNA进入小麦胚囊的情况,并初步研究了转化时间及转化溶液组成对DNA进入胚囊效率的影响。结果表明,外源DNA沿着花粉管生长过程中形成的花粉管通道进入胚囊;授粉45 min和60min进行转化外源DNA进入胚囊的几率较大,因此在此段时间开始转化较为合适;相对于TE缓冲液,将0.05%Silwet L-77和5%蔗糖作为转化溶液可以缩短DNA进入胚囊的时间,但不能提高外源DNA进入胚囊的几率。研究表明,使用FITC标记观察外源DNA进入胚囊效率的方法,可简便有效地应用于花粉管通道法转化条件的初步优化。     

利用花粉管通道法获得转雪花莲凝集素基因（sgna）小麦

利用适用于禾谷类作物的表达载体pGU4AGBar和pGBIU4AGBar,采用花粉管通道法, 将人工合成的雪花莲凝集素基因sgna导入了优良冬小麦品系西农2208和西农132,经PCR 和Southern blot鉴定,证明获得了20株导入了sgna基因的转基因植株,转化率约为0.2 8%～0.84%,并通过Western blot鉴定检测到了目的蛋白的表达。     

花粉管通道法转基因技术的细胞胚胎学机理探讨

本文从细胞胚胎学出发,从理论上对花粉管通道、花粉管通道法的转化机理进行了研究。认为,外源DNA进入胚囊的途径,即外源DNA沿着连接柱头与胚囊的花粉管外界面渗入胚囊;外源DNA转化的受体应为合子;外源DNA转化的时期应限定在精卵融合至合子分裂前这一段时期,此时合子细胞壁尚未封闭;外源DNA转化受体的机制可能是外源DNA与处于原生质体状态的合子的随机融合。强调在应用此方法时,应对植物雌蕊结构以及受精经历的时间有全面了解,并列出了一些重要植物授粉后受精过程各阶段的时间,对外源DNA导入部位和方法提出了建议,并分析了花粉管通道法转基因技术转化率较低的原因。     

Irreproducibility of the soybean pollen-tube pathway transformation procedure

The interest in developing tissue culture-independent genetic transformation methods for plants has been growth. The pollen-tube pathway transformation technique is one method; however, this method is controversial because it is difficult to duplicate and produces insufficient molecular evidence to confirm transformation. Our objective was to evaluate the robustness of the soybean pollen-tube pathway technique (Glycine max L. Merr.). Solutions of purified DNA constructs carrying abar marker gene and agus reporter gene or a gene of interest (npk1) were applied to severed styles of flowers 6–8 h after self-pollination. The experiment was repeated 3 summers in the field, in which 4 DNA constructs and 7 soybean genotypes were tested. A total of 4793 progeny seeds were harvested from 5590 individually treated soybean flowers. All seeds were germinated and screened for transformants with herbicide spray, histochemical GUS assay, and Southern blot analysis. Although 2% of progenies showed partial resistance to the herbicide, no positive plants were identified from GUS assay and Southern analysis. Our results indicate that soybean pollen-tube pathway transformation is not reproducible.     

Ovary-drip transformation: a simple method for directly generating vector- and marker-free transgenic maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.) with a linear <Emphasis Type="Italic">GFP</Emphasis> cassette transformation

The presence of selectable marker genes and vector backbone sequences has affected the safe assessment of transgenic plants. In this study, the ovary-drip method for directly generating vector- and selectable marker-free transgenic plants was described, by which maize was transformed with a linear GFP cassette (Ubi-GFP-nos). The key features of this method center on the complete removal of the styles and the subsequent application of a DNA solution directly to the ovaries. The movement of the exogenous DNA was monitored using fluorescein isothiocyanate-labeled DNA, which showed that the time taken by the exogenous DNA to enter the ovaries was shortened compared to that of the pollen-tube pathway. This led to an improved transformation frequency of 3.38% compared to 0.86% for the pollen-tube pathway as determined by PCR analysis. The use of 0.05% surfactant Silwet L-77 + 5% sucrose as a transformation solution further increased the transformation frequency to 6.47%. Southern blot analysis showed that the transgenic plants had low transgene copy number and simple integration pattern. Green fluorescence was observed in roots and immature embryos of transgenic plants by fluorescence microscopy. Progeny analysis showed that GFP insertions were inherited in T₁ generation. The ovary-drip method would become a favorable choice for directly generating vector- and marker-free transgenic maize expressing functional genes of agronomic interest.     

外源DNA导入普通小麦变异后代有色小麦的营养品质分析和验证

通过对花粉管通道途径将红高粱的总DNA导入普通小麦品种济核916获得的白粒、紫粒、黑粒等不同粒色的变异后代的营养品质分析表明,蛋白质、氨基酸、矿质营养元素、可溶性糖含量比受体济核916均有不同程度的改善,说明它们有一定的利用价值。RAPD、醇溶蛋白电泳结果初步证实外源遗传物质确实已经整合到了受体的基因组中。     

几丁质酶基因导入西瓜植株及其抗病性鉴定研究

利用西瓜有性生殖过程 ,将携带有外源几丁质酶基因的质粒DNA涂抹在授粉后的柱头上 ,使其沿花粉管通道进入到生殖细胞 ,得到转化处理种子。转化T1代植株经除草剂Basta筛选和PCR扩增获得转化植株。对T3 代株系进行田间自然发病和人工接种鉴定获得 3个抗枯萎病的株系。结果表明 :几丁质酶对镰刀菌引起的西瓜枯萎病有一定的抑制作用 ,利用花粉管通道法直接导入西瓜活体植株的技术是可行的。     

Construction of phosphomannose isomerase (PMI) transformation vectors and evaluation of the effectiveness of vectors in tobacco (Nicotiana tabacum L)

Phosphomannose isomerase (pmi) gene isolated from Escherichia coli allows transgenic plants carrying it to convert mannose-6- phosphate (from mannose), a carbon source that could not be naturally utilized by plants into fructose-6-phosphate which can be utilized by plants as a carbon source. This conversion ability provides energy source to allow the transformed cells to survive on the medium containing mannose. In this study, four transformation vectors carrying the pmi gene alone or in combination with the β-glucuronidase (gusA) gene were constructed and driven by either the maize ubiquitin (Ubi1) or the cauliflower mosaic virus (CaMV35S) promoter. Restriction digestion, PCR amplification and sequencing were carried out to ensure sequence integrity and orientation. Tobacco was used as a model system to study the effectiveness of the constructs and selection system. PMI11G and pMI3G, which carry gusA gene, were used to study the gene transient expression in tobacco. PMI3 construct, which only carries the pmi gene driven by CaMV35S promoter, was stably transformed into tobacco using biolistics after selection on 30 g 1(-1) mannose without sucrose. Transgenic plants were verified using PCR analysis. ABBREVIATIONS: PMI/pmi - Phosphomannose isomerase, Ubi1 - Maize ubiquitin promoter, CaMV35S - Cauliflower mosaic virus 35S promoter, gusA - β-glucuronidase GUS reporter gene.     

Characterization of three homoeologous cDNAs encoding chloroplast-targeted aminolevulinic acid dehydratase in common wheat

In the tetrapyrrole biosynthetic pathway of higher plants, 5-aminolevulinic acid (ALA) is metabolized by ALA dehydratase (ALAD). Here, we isolated ALAD1 cDNA from common wheat (Triticum aestivum L.) and its diploid progenitors, and produced transgenic tobacco plants expressing the wheat ALAD1 gene. The ALAD1 genes were highly conserved among wheat relatives, and three homoeologous loci of wheat ALAD1 (TaALAD1) were equally transcribed in common wheat. A transient expression assay of a TaALAD1-GFP (green fluorescent protein) fusion protein suggested that TaALAD1 is localized in chloroplasts. Overexpression of TaALAD1 in transgenic tobacco resulted in a significant increase in ALAD activity in leaves. Moreover, the transgenic tobacco showed vigorous growth and increased survival rate on medium containing ALA at herbicidal concentrations. These results indicate that wheat ALAD1 has catalytic activity in metabolizing ALA in plastids, and that ectopic expression of TaALAD1 in transgenic plants increases their tolerance to ALA application at high concentrations.     

Rapid Production of Multiple Independent Lines of Fertile Transgenic Wheat (Triticum aestivum)

Improvement of wheat (Triticum aestivum) by biotechnological approaches is currently limited by a lack of efficient and reliable transformation methodology. In this report, we detail a protocol for transformation of a highly embryogenic wheat cultivar, Bobwhite. Calli derived from immature embryos, 0.5 to 1 mm long, were bombarded with microprojectiles coated with DNA containing as marker genes the bar gene, encoding phosphinothricin-resistance, and the gene encoding [beta]-glucuronidase (GUS), each under control of a maize ubiquitin promoter. The bombardment was performed 5 d after embryo excision, just after initiation of callus proliferation. The ability of plantlets to root in the presence of 1 or 3 mg/L of bialaphos was the most reliable selection criteria used to identify transformed plants. Stable transformation was confirmed by marker gene expression assays and the presence of the bar sequences in high molecular weight chromosomal DNA of the resultant plants. Nine independent lines of fertile transgenic wheat plants have been obtained thus far, at a frequency of 1 to 2 per 1000 embryos bombarded. On average, 168 d elapsed between embryo excision for bombardment and anthesis of the T0 plants. The transmission of both the resistance phenotype and bar DNA to the T1 generation verified that germline transformation had occurred.     

Gynoecium structure and extra-gynoecial pollen-tube growth in an apocarpous species, <Emphasis Type="Italic">Sagittaria trifolia</Emphasis> (Alismataceae)

Apocarpy is regarded as an original feature obtained during the evolution of angiosperms. Compared with syncarpous plants, apocarpous plants have some adaptive disadvantages in apocarpous plants, for example, the number of offspring is lower under conditions of uneven pollen-tube distribution. However, in some apocarpous species, extra-gynoecial pollen-tube growth (EGPG) may remedy this disadvantage. We conducted micro-observations and field studies of Sagittaria trifolia, to investigate the gynoecium structure and the pathway of pollen-tube growth in the entire gynoecium. In a single-carpel pollination experiment, we found that the extra-gynoecial pollen tubes from a carpel of S. trifolia were able to fertilize approximately 13 carpels. Simulated EGPG in the entire gynoecium of S. trifolia revealed that its effect on the seed set could be divided into two stages: stage of low/high-level stigmas pollination, in which the cutoff point was about 0.1. The seed set would be markedly improved during the low-level stigmas pollination stage by EGPG when the maximum distance of extra-gynoecial pollen tubes could span three carpels, as in the present experiment. Our simulation also showed that the high pollen load could enhance the effect of EGPG on the seed set, and if the number of germinating pollen is triple the carpel number in the gynoecium, a 100% seed set rate would be obtained when approximately 50% of the stigmas are pollinated.     

辐照外源DNA导入番茄两种同工酶的研究

采用聚丙烯酰胺梯度凝胶电泳对辐照外源DNA导入番茄的受体后代进行过氧化物酶和细胞色素氧化酶同工酶研究,并对供体叶形在受体后代中的表达和后代株高进行分析。研究表明,多数受体后代与受体对照的两种同工酶图谱差异较大而与供体对照的两种同工酶图谱较为相似,这与它们在外观性状（叶形和株高）上的差异是吻合的。受体后代与体供在同工酶图谱上的相似性以及供体外观性状在受体后代的表达表明了外源DNA已经导入受体,并得到整合表达,说明辐照外源DNA导入技术是改良番茄品种,丰富育种材料的一条有效途径,在番茄选育新品种方面有良好的应用前景。     

Characteristics of a plant deleterious rhizosphere pseudomonad and its inhibitory metabolite(s)

A cell-free culture filtrate of the plant growth inhibitory bacterial isolate Å313, identified as Pseudomonas fluorescens, was tested for its effect on wheat root elongation in vitro, with and without various pretreatments. The filtrate showed a strongly inhibitory effect on root elongation and could be heated to 100°C for 5 min or incubated at a pH within the range of 4–10 without losing its activity. Unlike other root growth-inhibitory bacterial metabolites the effect of the filtrate was not reversed by methionine, nor was any inhibitory activity present in the water phase after extraction with chloroform. The inhibitory agent(s) was formed when the bacterium was grown in an artificial medium as well as in root exudates from wheat. Two wheat cultivars differing in reaction to inoculation with living cells of Å313 showed the expected difference in growth reduction when exposed to culture filtrate, indicating a cultivar difference in sensitivity to the metabolite(s) formed by the bacterium. Isolate Å313 invaded intercellular spaces of the root cortex of gnotobiotically grown wheat plants, but did not produce pectolytic enzymes in vitro, nor induce a hypersensitive response in tobacco plants.     

Transgenic Tobacco Plants Constitutively Overexpressing a Rice Thaumatin-like Protein (PR-5) Show Enhanced Resistance to Alternaria alternata

Overexpression of antifungal pathogenesis-related (PR) proteins in crop plants has the potential for enhancing resistance against fungal pathogens. Thaumatin-like proteins (TLPs) are one group (PR-5, permatins) of antifungal PR-proteins isolated from various plants. In the present study, a plasmid containing a cDNA of rice tlp (D34) under the control of the CaMV-35S promoter was introduced into tobacco plants through Agrobacterium-mediated transformation system. A considerable overproduction of TLP was observed in transformed tobacco plants by Western blot analysis. There was a large accumulation of tlp mRNA in transgenic plants as revealed by Northern blot analysis. Southern blot analysis of the DNA from transgenic tobacco plants confirmed the presence of the rice tlp gene in the genomic DNA of transgenic tobacco plants. Immunoblot analysis of intracellular and extracellular proteins of transgenic tobacco leaves using a Pinto bean TLP antibody demonstrated that the 23-kDa TLP was secreted into the extracellular matrix. T₂ progeny of regenerated plants transformed with TLP gene were tested for their disease reaction to Alternaria alternata, the brown spot pathogen. Transgenic tobacco plants expressing TLP at high levels showed enhanced tolerance to necrotization caused by the pathogen. This revised version was published online in July 2006 with corrections to the Cover Date.     

Detection of vector- and selectable marker-free transgenic maize with a linear GFP cassette transformation via the pollen-tube pathway

The pollen-tube pathway is feasible to transform vector- and selectable marker-free linear gene cassettes into plants to address the biosafety issues. However, its transformation frequency is low and the screening of selectable marker-free transformants by PCR analysis is time-consuming and expensive. In this study, a linear GFP cassette (Ubi-GFP-nos) flanked by 25bp T-DNA borders was transformed into maize via the pollen-tube pathway. The forepart of each maize ear was divided into five segments (segments I-V) at an interval of two rows of kernels. The segments that were most likely to contain transgenic kernels were identified by monitoring GFP expression in the immature embryos. A total of 21 ears were transformed with the linear GFP cassette. Seven out of 19 ears exhibited positive GFP expression in the immature embryos. Transgenic kernels were primarily identified in segments III and IV. A total of 121 plants derived from kernels located within segments III and IV of the remaining two ears were screened by PCR analysis. Six plants (4.96%) showed the presence of the GFP cassette. Southern blot analysis showed that the transgenic plants had simple integration patterns. The identification of transgenic kernels would facilitate PCR screening for marker-free transgenic plants.     

陕西省烟草灰霉病病原及云芝多糖对其防治研究

采用形态学观察和分子鉴定方法对2011年在陕西省发生的一种烟草未知病害的病原菌进行鉴定。从病叶组织分离纯化得到病原菌,通过致病性测定以及人工接种后再分离病菌,证明编号LJL007的菌株为该病的致病菌。依据病原菌的形态学和培养特征,将菌株LJL007鉴定为灰葡萄孢Botrytis cinerea Pers.,其有性型为富氏葡萄孢盘菌Botryotinia fuckeliana Whetzel。通过核糖体DNAITS序列分析,分离菌株LJL007序列(登录号:HM17900)与富氏葡萄孢盘菌序列(登录号:HM849615)同源性达100%,进一步证明该病原菌是灰葡萄孢Botrytis cinerea。云芝多糖在离体条件下,对灰葡萄孢的菌丝生长和孢子萌发均无直接抑制作用。云芝多糖对烟草灰霉病有较好预防保护作用,其预防效果可达56.29%。云芝多糖可显著提高烟草体内几丁质酶和β-1,3-葡聚糖酶活性,其活性峰值分别比对照提高56.89%和429.83%,说明云芝多糖可诱导植物产生抗病性。     

Evidence for the plasma membrane localization of Al-activated malate transporter (ALMT1)

Aluminum (Al)-activated malate transporter (ALMT1) was recently identified from wheat (Triticum aestivum). Heterologous expression of ALMT1 led to higher malate exudation that is associated with enhanced Al tolerance in transgenic plants. Here, we show the first direct evidence that ALMT1 is localized in the plasma membrane of Al-tolerant wheat. Phase partitioning experiments showed that this transporter was associated with the plasma membrane fraction. ALMT1 was detected in an Al-tolerant wheat line even without Al treatments. Analysis of transient expression of ALMT1::green fluorescent protein (GFP) in onion and tobacco cells further confirmed this ALMT1 localization.     

Tissue-specific expression of a wheat high molecular weight glutenin gene in transgenic tobacco.

The expression of a wheat genomic clone containing the entire coding sequence of the high molecular weight glutenin subunit 12 gene flanked by 2.6 kilobases of 5' and 1.5 kilobases of 3' sequences has been studied after introduction into tobacco. Seeds of different tobacco plants containing the full-length wheat genomic clone accumulated different amounts of intact high molecular weight glutenin subunit mRNA and of a polypeptide displaying the solubility, molecular weight, and antigenic properties of the high molecular weight glutenin subunit 12. The wheat protein accumulated without obvious degradation products and constituted up to approximately 0.1% of the total tobacco endosperm protein. Restriction fragments corresponding to 2.6 kilobases, 1.4 kilobases, and 433 base pairs of high molecular weight glutenin 5' upstream sequence were fused to the coding sequence of the chloramphenicol acetyltransferase (CAT) gene in the vector polyCATter and transferred into tobacco. Chloramphenicol acetyltransferase enzyme activity was detected only in the seed endosperm tissue of the transformed plants. It was detected in tobacco seeds 8 days after anthesis and persisted until seed maturity. It is concluded that 433 base pairs of high molecular weight glutenin upstream sequence are sufficient to confer endosperm-specific expression of this monocot gene in the dicot tobacco.