In planta transformation of Arabidopsis thaliana

Transformants of Arabidopsis thaliana can be generated without using tissue culture techniques by cutting primary and secondary inflorescence shoots at their bases and inoculating the wound sites with Agrobacterium tumefaciens suspensions. After three successive inoculations, treated plants are grown to maturity, harvested and the progeny screened for transformants on a selective medium. We have investigated the reproducibility and the overall efficiency of this simple in planta transformation procedure. In addition, we determined the T-DNA copy number and inheritance in the transformants and examined whether transformed progeny recovered from the same Agrobacterium-treated plant represent one or several independent transformation events. Our results indicate that in planta transformation is very reproducible and yields stably transformed seeds in 7–8 weeks. Since it does not employ tissue culture, the in planta procedure may be particularly valuable for transformation of A. thaliana ecotypes and mutants recalcitrant to in vitro regeneration. The transformation frequency was variable and was not affected by lower growth temperature, shorter photoperiod or transformation vector. The majority of treated plants gave rise to only one transformant, but up to nine siblings were obtained from a single parental plant. Molecular analysis suggested that some of the siblings originated from a single transformed cell, while others were descended from multiple, independently transformed germ-line cells. More than 90% of the transformed progeny exhibited Mendelian segregation patterns of NPTII and GUS reporter genes. Of those, 60% contained one functional insert, 16% had two T-DNA inserts and 15% segregated for T-DNA inserts at more than two unlinked loci. The remaining transformants displayed non-Mendelian segregation ratios with a very high proportion of sensitive plants among the progeny. The small numbers of transformants recovered from individual T₁ plants and the fact that none of the T₂ progeny were homozygous for a specific T-DNA insert suggest that transformation occurs late in floral development.National Research Council of Canada Publication No. 38003     

Phosphomannose isomerase: A versatile selectable marker forArabidopsis thaliana germ-line transformation

A new selection system using mannose has been evaluated for germ-line transformation ofArabidopsis thaliana. Although mannose itself has no adverse effects on plant cells, it leads to an accumulation of mannose-6-phosphate, which depletes intracellular stores of inorganic phosphate. This results in an inhibition of plant cell growth. The selection system uses theEscherichia coli pmi gene that encodes phosphomannose isomerase (PMI). Transgenic plants carrying thepmi gene can detoxify mannose-6-phosphate by conversion to fructose-6-phosphate, an intermediate of glycolysis, via the PMI activity. Germ-line transformation ofA. thaliana followed by sterile selection on 2–5 mM of mannose resulted in the isolation of mannose-6-phosphate-resistant progeny in about 2.5% of the treated seed, consistent with transformation rates using other selection schemes. Integrative transformation was confirmed by Southern hybridization. Analysis of PMI enzyme activity demonstrated a 5-fold range of activity levels, although these differences had little effect on the ability to select transformed plants or on the growth of transformed plants on mannose. Finally, mannose selection using thepmi gene could be accomplished in sterile plates and in soil, making this an extremely versatile tool forA. thaliana transformation.     

The influence of matrix attachment regions on transgene expression in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> wild type and gene silencing mutants

Many studies in both animal and plant systems have shown that matrix attachment regions (MARs) can increase the expression of flanking transgenes. However, our previous studies revealed no effect of the chicken lysozyme MARs (chiMARs) on transgene expression in the first generation transgenic Arabidopsis thaliana plants transformed with a β-glucuronidase gene (uidA) unless gene silencing mutants were used as genetic background for transformation. In the present study, we investigated why chiMARs do not influence transgene expression in transgenic wild-type Arabidopsis plants. We first studied the effect of chiMARs on transgene expression in the progeny of primary transformants harboring chiMAR-flanked T-DNAs. Our data indicate that chiMARs do not affect transgene expression in consecutive generations of wild-type A. thaliana plants. Next, we examined whether these observed results in A. thaliana transformants are influenced by the applied transformation method. The results from in vitro transformed A. thaliana plants are in accordance with those from in planta transformed A. thaliana plants and again reveal no influence of chiMARs on transgene expression in A. thaliana wild-type transformants. The effect of chiMARs on transgene expression is also examined in in vitro transformed Nicotiana tabacum plants, but as for A. thaliana, the transgene expression in tobacco transformants is not altered by the presence of chiMARs. Taken together, our results show that the applied method or the plant species used for transformation does not influence whether and how chiMARs have an effect on transgene expression. Finally, we studied the effect of MARs (tabMARs) of plant origin (tobacco) on the transgene expression in A. thaliana wild-type plants and suppressed gene silencing (sgs2) mutants. Our results clearly show that similar to chiMARs, the tobacco-derived MARs do not enhance transgene expression in a wild-type background but can be used to enhance transgene expression in a mutant impaired in gene silencing. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. Miguel F.C. De Bolle, Katleen M.J. Butaye Contributed equally to this work     

GFP基因在新疆小拟南芥和拟南芥中的表达分析

以质粒pMCB30为模板,扩增GFP基因,连接到载体pCMBIA2300-35S-OCS上,构建过量表达载体p35S:GFP,将其转入农杆菌GV3101.通过农杆菌介导法将p35S:GFP载体分别转入新疆特色植物小拟南芥和拟南芥中.T0代经含有卡那霉素的1/2MS培养基筛选,获得了T1代转基因小拟南芥2株,T1代转基因拟南芥9株.通过激光共聚焦显微镜观察,在转基因小拟南芥和拟南芥的根尖细胞中均可检测到GFP绿色荧光蛋白;对转基因植株进行PCR扩增,均可检测到GFP基因,表明GFP基因已成功转入小拟南芥和拟南芥中.该研究建立了小拟南芥的遗传转化体系,为进一步利用GFP基因和进一步研究小拟南芥的功能基因奠定基础.     

<Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> plants expressing human beta-defensin-2 are more resistant to fungal attack: functional homology between plant and human defensins

Human beta-defensin-2 (hBD-2) is a small antimicrobial peptide with potent activity against different Gram-negative bacteria and fungal/yeast species. Since human beta-defensins and plant defensins share structural homology, we set out to analyse whether there also exists a functional homology between these defensins of different eukaryotic kingdoms. To this end, we constructed a plant transformation vector harbouring the hBD-2 coding sequence, which we transformed to Arabidopsis thaliana plants, giving rise to A. thaliana plants indeed expressing hBD-2. Furthermore, we could demonstrate that this heterologously produced hBD-2 possesses antifungal activity in vitro. Finally, we could show that hBD-2 expressing A. thaliana plants are more resistant against the broad-spectrum fungal pathogen Botrytis cinerea as compared to untransformed A. thaliana plants, and that this resistance is correlated with the level of active hBD-2 produced in these transgenic plants. Hence, we demonstrated a functional homology, next to the already known structural homology, between defensins originating from different eukaryotic kingdoms. To our knowledge, this is the first time that this is specifically demonstrated for plant and mammalian defensins.     

过表达或沉默棉花GhPCBER基因株系的获得及其茎叶木质素和木脂素含量研究

编码苯基香豆满苄基醚还原酶(phenylcoumaran benzylic ether reductase,PCBER)的基因PCBER属于PIP亚家族,是苯丙烷代谢途径中参与木脂素合成的关键基因。该研究构建了棉花GhPCBER基因的植物过表达载体并转化拟南芥,同时构建了VIGS(virus induced gene silencing,病毒诱导的基因沉默)载体转化棉花,采用实时荧光定量PCR技术对GhPCBER基因在不同组织中的表达进行分析;对野生型和转基因植株茎叶组织中的木质素和木脂素含量进行测定分析。结果表明:(1)成功构建了GhPCBER植物过表达载体pGWB17-GhPCBRE以及基因沉默重组载体pTRV2-GhPCBER;经遗传转化获得6株转棉花GhPCBER基因抗性拟南芥植株,同时获得15株GhPCBER基因沉默棉花植株(5株为一组)。(2)PCR检测表明,6株转基因拟南芥均为过表达株系,其中株系1、2、3相对表达量更高,且在茎、叶组织中的表达量分别较野生型提高了7～14倍和6～16倍,表明GhPCBER基因成功在拟南芥中过表达;GhPCBER基因沉默棉花植株的茎、叶组织中的表达量分别比野生型棉株约下降12%和26%,表明烟草脆裂病毒(TRV)体系(pTRV2-GhPCBER)成功抑制了GhPCBER基因的表达。(3)转GhPCBER基因拟南芥茎、叶中木质素和木脂素含量较野生型均显著降低;GhPCBER基因沉默棉花植株茎、叶中木质素和木脂素含量较野生型均极显著降低;组织化学染色观察发现GhPCBER基因沉默棉花植株茎秆颜色明显比野生型染色浅,也证明沉默基因棉花植株茎秆中的木质素含量减少。(4)苯丙烷代谢通路中8个相关基因的实时荧光定量PCR分析发现,过表达或抑制GhPCBRE基因均会导致苯丙烷代谢途径发生重新定向。     

High-frequency transformation ofArabidopsis thaliana byAgrobacterium tumefaciens

Incorporation of 5 mg/L silver thiosulphate into media for seed germination and callus induction, as used in the transformation protocol originally described by Valvekens et al. (1988), was found to increase the frequency of regeneration of transformants ofArabidopsis thaliana ecotypes C24 and Landsbergerecta by at least 10- to 100-fold. Other factors, such as density of the bacterial inoculation culture, density of the root explants and duration of bacteria-plant cocultivation period, were also found to influence the efficiency of recovery of transformants.     

Gene targeting in Arabidopsis thaliana.

Summary Gene targeting of a chromosomally integrated transgene in Arabidopsis thaliana is reported. A chimeric gene consisting of the promoter of the 35S RNA of CaMV, the polyadenylation signal of the octopine synthase gene and the coding region of the bacterial hygromycin phosphotransferase gene (hpt), which was rendered non-functional by deletion of 19 bp, was introduced into the genome of A. thaliana using Agrobacterium-mediated gene transfer. A total of 3.46 x 10⁸ protoplasts isolated from 17 independent transgenic Arabidopsis lines harbouring the defective chimeric hpt gene were transformed via direct gene transfer using various DNA forms containing only the intact coding region of the hpt gene. Out of 150 hygromycin-resistant colonies appearing in the course of these experiments, four were the result of targeted recombination of the incoming DNA with the defective chromosomal locus as revealed by PCR and Southern blot analysis. Comparison with the number of transformants obtained when an hpt gene controlled by a promoter and terminator from the nopaline synthase gene was employed results in a maximal ratio of homologous to non-homologous transformation in A. thaliana of 1 x 10^–4.     

Efficient transformation of Arabidopsis thaliana: comparison of the efficiencies with various organs,plant ecotypes and Agrobacterium strains

Summary The efficiency of Agrobacterium-mediated transformation of Arabidopsis thaliana was compared with different organs, Arabidopsis ecotypes, and Agrobacterium strains. Efficiency of shoot regeneration was examined using hypocotyl, cotyledon and root explants prepared from young seedlings. Hypocotyl expiants had the highest regeneration efficiency in all of the four Arabidopsis ecotypes tested, when based on a tissue culture system of callus-inducing medium (CIM: Valvekens et al. 1988) and shoot-inducing medium (SIM: Feldmann and Marks 1986). Histochemical analysis using the ß-glucuronidase (GUS) reporter gene showed that the gusA gene expression increased as the period of preincubation on CIM was extended, suggesting that dividing cells are susceptible to Agrobacterium infection. In order to obtain transgenic shoots, hypocotyl explants preincubated for 7 or 8 days on CIM were infected with Agrobacterium containing a binary vector which carries two drug-resistant genes as selection markers, and transferred to SIM for selection of transformed shoots. Of four Arabidopsis ecotypes and of three Agrobacterium strains examined, Wassilewskija ecotype and EHA101 strain showed the highest efficiency of regeneration of transformed shoots. By combining the most efficient factors of preincubation period, Arabidopsis ecotype, tissue, and bacterial strain, we obtained a transformation efficiency of about 80–90%. Southern analysis of 124 transgenic plants showed that 44% had one copy of inserted T-DNA while the others had more than one copy.Abbreviations AIM Agrobacterium infection medium - CIM callus-inducing medium - CTAB cetyltrimethylammonium bromide - 2,4-D 2,4-dichlorophenoxy-acetic acid - GUS ß-glucuronidase - hph hygromycin phosphotransferase - IAA indole-3-acetic acid - IBA indole-3-butyric acid - 2ip N -(2-isopentenyl) adenine - NPTII neomycin phosphotransferase II - RIM root-inducing medium - 35S cauliflower mosaic virus 35S promoter - SIM shoot-inducing medium     

白蚁巢来源链霉菌T12的分离鉴定及其抗菌活性代谢产物

[目的] 探索黑翅土白蚁巢中链霉菌发酵产物的抗菌活性,并对其抗菌成分进行研究。[方法] 通过牛津杯法测试菌株发酵液对4种致病菌的抗菌活性,筛选出活性菌株T12;利用分子生物学16S rRNA序列分析确定T12的分类地位;运用多种色谱方法从乙酸乙酯粗提物中分离纯化活性化合物,利用质谱和核磁共振谱鉴定其化学结构;。[结果] T12被鉴定为Streptomyce sp.,当供试浓度为30 μg/滤纸片时,该菌发酵液的乙酸乙酯萃取物对金黄色葡萄球菌与白色念珠菌的抑菌效果显著,抑菌圈直径分别为20.1 mm和17.4 mm。从乙酸乙酯萃取物中分离得到2个单体化合物geldanamycin （1）和17-O-demethylgeldanamycin （2）。抗菌活性测试表明,在供试浓度30 μg/滤纸片时,化合物1和2表现出很好的抑菌活性,对金黄色葡萄球菌的抑制圈直径分别为14.6 mm和14.5 mm,与阳性对照硫酸庆大霉素的活性相当,对白色念珠菌的抑制圈直径分别为10.9 mm和13.9 mm,与阳性对照两性霉素的活性相当。[结论] 菌株T12具有开发为新型微生物源杀菌剂的应用价值。     

Genetic transformation of Arabidopsis thaliana zygotic embryos and identification of critical parameters influencing transformation efficiency.

Summary An efficient procedure for Agrobacterium-mediated transformation of zygotic embryos derived from three different Arabidopsis thaliana ecotypes has been developed. This procedure yielded an average transformation rate of 76% for ecotype C24, and 15–20% for ecotypes Landsberg-erecta and Columbia. A critical step for optimal transformation was the preculture of embryos on a phytohormone-containing medium. Light and electron microscopical studies showed that, during preculture, procambium cells of embryos became highly susceptible to Agrobacterium infection. Transformed cells developed calli and regenerated shoots within 4–5 weeks of culture. A total of 1500 fertile transgenic plants were regenerated. In regenerated plants the presence of inserted DNA was verified by genomic Southern blot analysis, assays of enzymatic activities of reporter genes (neomycin phosphotransferase II and -glucuronidase) as well as by genetic segregation tests. R1 progenies of 45 randomly chosen transformed lines and 150 independent regenerants did not show any somaclonal variations as ascertained by both morphological and cytological criteria. Short duration (7–8 weeks), high efficiency, reproducibility and low frequency of somaclonal variation makes the zygotic embryo transformation particularly well-suited for T-DNA tagging mutagenesis.     

An improved procedure for transformingArabidopsis thaliana (Landsbergerecta) root explant

Agrobacterium tumefaciens-mediated transformation has been widely used in molecular characterization of genes inArabidopsis thaliana. A number of procedures have been developed for transformation ofArabidopsis explants usingAgrobacterium. This paper describes an improved protocol for transformation ofArabidopsis thaliana root explants. Most significantly, using this protocol one can achieve efficient root regeneration of transformation in Landsbergerecta, an ecotype which is widely used in genetic and molecular analyses and which has been difficult to transform in the past. Additional modifications allow easy production of roots for transformation and regeneration of large numbers of transformation t shoots.     

Infiltration with <Emphasis Type="Italic">Agrobacterium</Emphasis> — the method for stable transformation avoiding tissue culture

A number of in planta transformation protocols that avoid long culture under sterile conditions were developed for Arabidopsis thaliana. The most widely used methods are based on vacuum infiltration and floral dip. These methods were adapted for transformation of other species as well. Successful in planta transformations of alfalfa, radish, pakchoi and petunia were reported recently. In this short review we present several modified procedures originally developed for Arabidopsis thaliana and in some cases adapted to other species. We emphasize the crucial parameters involved in in planta transformation. We also describe here the studies attempting to shed light on the mechanisms and estimating the cellular target of transformation, which may help in transforming new plant species.     

A “Nonsterile” Method for Selecting and Growing <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> Transformants (T<Subscript>2</Subscript> Transgenic Lines) Resistant to Kanamycin

A breakthrough in transgenic Arabidopsis thaliana research was the development of the floral dip transformation protocol, a simple and reliable method of obtaining transformants, T₁ transgenic lines, at high efficiency while avoiding the use of tissue culture. However, the traditional protocol (a “sterile” method) of obtaining T₂ transgenic lines has not evolved along with improvements in transformation technology as it continues to be laborious and time-consuming. In this study, we report on the development of an improved protocol (a “nonsterile” method) for selecting and growing A. thaliana transformants (T₂ transgenic lines) resistant to kanamycin under nonsterile conditions. This protocol involves the use of a simple yet specialized device that will aid in solium selection of T₂ transgenic lines that can be rapidly grown in a hydroponic system. The “nonsterile” method reduces labor and time involved as compared to the “sterile” method; moreover, it is easy to set up and maintain. This method may also be applicable to other selecting agents, and perhaps to other plants.     

Glyphosate Resistance as a Versatile Selection Marker for <Emphasis Type="Italic">Arabidopsis</Emphasis> Transformation

Molecular genetic studies on the model plant Arabidopsis thaliana often involve multiple rounds of Agrobacterium-mediated transformation. Such procedures require multiple marker genes that would allow for efficient selection of transgenic plants in each cycle of transformation. Here, we report on a selection marker cassette based on a codon-modified glyphosate N-acetyltransferase (GAT) gene whose expression is driven by a powerful EL2Ω promoter. After introduction of the GAT expression cassette into A. thaliana via Agrobacterium-mediated transformation, glyphosate-resistant primary transformants are efficiently selected by glyphosate, either added to the culture medium or by spraying a glyphosate solution onto seedlings grown in soil. Robust glyphosate-resistant phenotypes are always associated with the presence of the GAT cassette. In addition, RT-PCR analysis of T₂ transformants has demonstrated that resistance to glyphosate is associated with higher levels of GAT expression. Resistance conferred by GAT is specific to glyphosate and not to other commonly used selection chemical compounds. These results demonstrate the versatility of the GAT cassette suitable for both large-scale, soil-based selection system of transgenic plants as well as their characterization in vitro.     

Flavonols are not essential for fertilization in Arabidopsis thaliana

Flavonols are plant metabolites suggested to serve a vital role in fertilization of higher plants. Petunia and maize plants mutated in their flavonol biosynthesis are not able to set seed after self-pollination. We have investigated the role of these compounds in Arabidopsis thaliana. Like in all other plant species, high levels of flavonols could be detected in pollen of wild-type A. thaliana. No flavonols were detected in reproductive organs of the A. thaliana tt4 mutant in which the chs gene is mutated. Surprisingly, this mutant did set seed after self-fertilization and no pollen tube growth aberrations were observed in vivo. The role of flavonols during fertilization of Arabidopsis is discussed.Abbreviations CHS chalcone synthase - TLC thin-layer chromatography     

High-efficiency <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation of heat inducible sHSP18.2-GUS in <Emphasis Type="Italic">Nicotiana tabacum</Emphasis>

The chimerical gene, Arabidopsis thaliana sHSP18.2 promoter fused to E. coli gusA gene, was Agrobacterium rhizogenes-mediated transformed into Nicotiana tabacum as a heat-regulatable model, and the thermo-inducible expression of GUS activity in N. tabacum transgenic hairy roots was profiled. An activation of A. rhizogenes with acetosyringone (AS) before cocultured with tobacco's leaf disc strongly promoted transgenic hairy roots formation. Transgenic hairy roots formation efficiency of A. rhizogenes precultured with 200 μM AS supplementation was 3.1-fold and 7.5-fold, respectively, compared to the formation efficiency obtained with and without AS supplementation in coculture. Transgenic hairy roots transformed with different AS concentration exhibited a similar pattern of thermo-inducibility after 10 min to 3 h heat treatments detected by GUS expression. The peak of expressed GUS specific activity, 399,530 pmol MUG per mg total protein per min, of the transgenic hairy roots was observed at 48 h after 3 h of 42°C heat treatment, and the expressed GUS specific activity was 7–26 times more than that reported in A. thaliana, tobacco BY-2 cells and Nicotiana plumbaginifolia. Interference caused by AS supplementation on the growth of transgenic hairy roots, time-course of GUS expression and its expression level were not observed.     

Genetic transformation of Arabidopsis lyrata: specific expression of the green fluorescent protein (GFP) in pistil tissues

Arabidopsis thaliana has become widely used as a model system for plant biology. Recent phylogenetic studies led to a severe revision of the systematic relationships across species of the Brassicaceae family. This provided an opportunity to examine close relatives of A. thaliana and to study the function and molecular evolution of genes that play roles in ecology and speciation. In this context, developing tools to genetically transform “non-model plants” appears as a major issue to ascertain gene function. Here, we report a method to transform A. lyrata, one of the closest relatives of A. thaliana.     

内生真菌KLBMP0506对拟南芥的促生作用

【目的】研究植物内生菌Wickerhamomyces sp.KLBMP0506对拟南芥（Arabidopsis thaliana）的促生作用及潜在的促生机制。【方法】本研究以野生型拟南芥为试验材料,将其与菌株KLBMP0506进行平板共培养及盆栽接种试验,并测定拟南芥鲜重、干重、主根长、侧根数、叶绿素含量和可溶性糖含量等生长、生理指标,同时对筛选的与拟南芥侧根、主根形成及生长素合成和运输相关的11个基因进行实时荧光定量聚合酶链式反应（quantitative real-time polymerase chain reaction,qRT-PCR）分析。【结果】接种目的菌株KLBMP0506后,平板试验的拟南芥鲜重及侧根、盆栽试验的拟南芥鲜重、干重、茎长、叶绿素含量和可溶性糖含量均有一定程度的增加;分隔平板试验及菌株KLBMP0506发酵液中促生活性物质分析显示,该菌株产生的挥发性有机物质及其发酵液中的正丁醇和乙酸乙酯提取物均对拟南芥有明显的促生作用;此外,qRT-PCR分析显示KLBMP0506处理后,拟南芥中与侧根形成相关基因ABI4、FLA1的表达出现不同程度的下调,与生长素合成、运输相关基因AUX1、EIR1、YUC4的表达整体呈上调趋势,表明菌株KLBMP0506可能通过调控拟南芥中与侧根形成以及与生长素合成和运输相关基因的表达,而实现对拟南芥的促生作用。【结论】本研究明确了菌株KLBMP0506对模式植物拟南芥的促生作用,为其开发成为微生物菌肥提供理论依据。