Fertile transgenic Lotus corniculatus resistant to the non‐selective herbicide phosphinothricin

Resistance to the non‐selective herbicide dl ‐phosphinothricin (PPT) was introduced into commercial Lotus corniculatus cv. Bokor by co‐cultivation of cotyledons with Agrobacterium tumefaciens AGL1 harbouring the binary vector pDM805 which contains the bialaphos resistance gene (bar) from Streptomyces hygroscopicus encoding phosphinothricin acetyltransferase (PAT) and the uidA gene encoding β‐glucuronidase. The half‐cotyledon explants were precultured on regeneration Murashige and Skoog's (MS) medium supplemented with 6‐benzyladenine (BA) and 1‐naphthaleneacetic acid (NAA) at 0.5 mg L^?1 each, 3 days prior to infection. Upon co‐cultivation, the explants were cultured on PPT‐free regeneration medium for 10 days, and then subcultured on regeneration/selection media with increasing PPT concentrations (5–7 mg L^?1) for about 18 weeks. Out of 480 initially co‐cultivated explants, 272 regenerated shoots survived the entire PPT selection procedure. Resistant shoots were grown further, multiplied by tillering that was additionally promoted by PPT and rooted on hormone‐free MS medium containing 5 mg L^?1 PPT. Established shoot cultures, continuously maintained on the same medium, have preserved PPT resistance up to now (more than 2 years). Transformed plants assessed in vitro and in a greenhouse were tolerant to the herbicide PPT at 300 mg L^?1 equivalent to more than twofold the recommended field dosage for weed eradication. Applied PPT treatment did not affect the activities of glutamine synthetase (GS; EC 6.3.1.2) and NADH‐dependent glutamate dehydrogenase (NADH‐GDH; EC 1.4.1.2) in transformed plants. However, PPT did increase the mobility of glutamine synthetase isoforms GS1 and GS2 as well as the inhibition of an additional high mobility GS (hmGS) activity. In untransformed plants, PPT treatment reduced total GS activity by 4.4‐fold while contrary the activity of NADH‐GDH was increased by ninefold. All transformed herbicide‐resistant plants were phenotypically normal and exhibited genomic stability, as were the untransformed plants analysed by flow cytometry. Under greenhouse conditions, they grew to maturity, flowered and set seeds. Stable integration and expression of the bar gene in T0 and T1 plants were confirmed by Southern and Western blot analysis, while integration of the reporter uidA gene did not occur. The bar gene was inherited in a Mendelian fashion by the progeny, as detected by PPT resistance. The production of PPT‐resistant plants may have significant practical applications in weed control in fields of L. corniculatus.     

Transformation of a grain legume (Lupinus angustifolius L.) via Agrobacterium tumefaciens-mediated gene transfer to shoot apices

Transgenic plants of Lupinus angustifolius L. (cvs. Unicrop and Merrit) were routinely generated using Agrobacterium-mediated gene transfer to shoot apices. The bar gene for resistance to phosphinothricin (PPT, the active ingredient of the herbicide Basta) was used as the selectable marker. After co-cultivation, the shoot apex explants were transferred onto a PPT-free regeneration medium and their tops were thoroughly wetted with PPT solution (2 mg/ml). The multiple axillary shoots developing from the shoot apices were excised onto a medium containing 20 mg/l PPT. The surviving shoots were transferred every second week onto fresh medium containing 20 mg/l PPT. At each transfer, the number of surviving shoots decreased, until it stabilized. Indeed, some of these chimeric shoots surviving the PPT selection, eventually produced new green healthier axillary shoots which could be transferred to soil. This whole process took from 5 to 9 months after co-cultivation. Average transformation frequencies of 2.8% for cv. Unicrop and of 0.4% for the commercial cultivar Merrit were achieved. Molecular analysis of T₀, T₁, and T₂ generations demonstrated stable integration of the foreign gene into the plant genome and expression of the integrated gene. Transformed plants of the T₁ and T₂ generations were resistant in glasshouse trials where the herbicide Basta (0.1 mg/ml) was sprayed onto whole plants. These results demonstrate that Agrobacterium-mediated gene transfer to preorganised meristematic tissue combined with axillary regeneration can form the basis of a routine transformation system for legume crop species which are difficult to regenerate from other explants.     

A common transport system for methionine, L-methionine-DL-sulfoximine (MSX), and phosphinothricin (PPT) in the diazotrophic cyanobacterium Nostoc muscorum

We present evidence, for the first time, of the occurrence of a transport system common for amino acid methionine, and methionine/glutamate analogues l-methionine-dl-sulfoximine (MSX) and phosphinothricin (PPT) in cyanobacterium Nostoc muscorum. Methionine, which is toxic to cyanobacterium, enhanced its nitrogenase activity at lower concentrations. The cyanobacterium showed a biphasic pattern of methionine uptake activity that was competitively inhibited by the amino acids alanine, isoleucine, leucine, phenylalanine, proline, valine, glutamine, and asparagine. The methionine/glutamate analogue-resistant N. muscorum strains (MSX-R and PPT-R strains) also showed methionine-resistant phenotype accompanied by a drastic decrease in ³⁵S methionine uptake activity. Treatment of protein extracts from these mutant strains with MSX and PPT reduced biosynthetic glutamine synthetase (GS) activity only in vitro and not in vivo. This finding implicated that MSX- and PPT-R phenotypes may have arisen due to a defect in their MSX and PPT transport activity. The simultaneous decrease in methionine uptake activity and in vitro sensitivity toward MSX and PPT of GS protein in MSX- and PPT-R strains indicated that methionine, MSX, and PPT have a common transport system that is shared by other amino acids as well in N. muscorum. Such information can become useful for isolation of methionine-producing cyanobacterial strains.     

甜菜碱醛脱氢酶(BADH)基因转化小麦及其表达

采用基因枪法将山菠菜甜菜碱醛脱氢酶 (BADH)基因导入小麦 (TriticumaestivumL .)品种 ,并且得以表达。该基因由玉米Ubi1启动子控制。在盐胁迫条件下 ,多数转基因植株叶片的BADH活性比受体亲本提高 1～ 3倍 ,部分植株相对电导率比亲本明显低 ,表明转基因植株的细胞膜在胁迫时有受损较轻倾向。PCR和Southern杂交分析证实外源BADH基因已插入小麦基因组 ,平均转化频率为 4.1%。     

Basta tolerance as a selectable and screening marker for transgenic plants of Norway spruce

The bar gene conferring resistance to the herbicide Basta (containing phosphinothricin) was transferred to embryogenic cultures of Picea abies by particle bombardment and transformants were selected on Basta medium. In total, 83 9-month-old transgenic plants of Picea abies from six transformed sublines were analysed for continued tolerance to Basta. PCR analysis showed that the bar gene was present in all transformed plants but not in the control plants. Northern blot analysis showed differences in expression level among plants from the same subline as well as among sublines. A simple biotest for screening for Basta tolerance based on the colour change of detached needles induced by Basta was developed. The tolerance to Basta varied among the plants from different sublines. Needles from four of the sublines were resistant to 100 mg l⁻¹ phosphinothricin, a concentration inducing yellowing in control needles, while plants from the other two sublines were on average two to four times as resistant as untransformed control plants. The biotest enables rapid semi-quantitative monitoring for continued transgene expression in long-lived tree species. Received: 21 October 1999 / Revision received: 24 January 2000 / Accepted: 24 January 2000     

甜菜碱醛脱氢酶(BADH)基因转化小麦及其表达

Betaine aldehyde dehydrogenase (BADH) cDNA cloned from Atriplex hortensis L. in the plasmid pABH9 containing maize ubiquitin promoter and bar gene was transferred into wheat (Triticum aestivum L.) by microprojectile bombardment with 4.1% of average frequency of transformation. From 300 young embryo calli bombarded with the plasmid, 24 transgenic plants were obtained showing BADH gene integration by both PCR and Southern blotting analysis. Among the 24 transgenic plants, 13 exhibited higher BADH activity than the control. Some transgenic plants grew normally with healthy roots on the medium containing 0.7% NaCl while the control plants had very poor roots and finally died.     

Effect of phosphinothricin (glufosinate) on photosynthesis and photorespiration of C3 and C4 plants

Phosphinothricin (glufosinate), an irreversible inhibitor of glutamine synthetase, causes an inhibition of photosynthesis in C₃ (Sinapis alba) and C₄ (Zea mays) plants under atmospheric conditions (400 ppm CO₂, 21% O₂). This photosynthesis inhibition is proceeding slower in C₄ leaves. Under non-photorespiratory conditions (1000 ppm CO₂, 2% O₂) there is no inhibition of photosynthesis. The inhibition of glutamine synthetase by phosphinothricin results in an accumulation of NH₄ ⁺. The NH₄ ⁺-accumulation is lower in C₄ plants than in C₃ plants. The inhibition of glutamine synthetase through phosphinothricin in mustard leaves results in a decrease in glutamine, glutamate, aspartate, asparagine, serine, and glycine. In contrast to this, a considerable increase in leucine and valine following phosphinothricin treatment is measured. With the addition of either glutamine, glutamate, aspartate, glycine or serine, photosynthesis inhibition by phosphinothricin can be reduced, although the NH₄ ⁺-accumulation is greatly increased. This indicates that NH₄ ⁺-accumulation cannot be the primary cause for photosynthesis inhibition by phosphinothricin. The investigations demonstrate the inhibition of transmination of glyoxylate to glycine in photorespiration through the total lack of amino donors. This could result in a glyoxylate accumulation inhibiting ribulose-1,5-bisphosphate-carboxylase and consequently CO₂-fixation.Abbreviations GOGAT glutamine-2-oxoglutarate-amidotransferase - GS glutamine synthetase - PPT phosphinothricin - MSO methionine sulfoximine - RuBP ribulose-1,5-bisphosphate     

Nucleolus organizer regions (Nor loci) of Chinese wheats

Nucleolus organizer regions (Nor loci) of a range of Chinese wheat landraces and cultivars (Triticum aestivum L. em Thell.) were analysed using genomic DNA extracted from leaves. Only two allelic variants of the Nor-B1 locus were found on chromosome 1B (Nor-B1a and Nor-B1g), while Nor-B1g was probably introduced from North America in the early 1960s. The even more recent introduction of the rye allele Nor-R1 in the early 1980s was also revealed. Eight allelic variants of the Nor-B2 locus on chromosome 6B (Nor-B2a, b, d, f, h, o, p and s) were identified. A Chinese origin for the a, d, f, o, p and s alkies is evident although the d allele was successfully introduced into Australian wheats in the early 1900s. Nor-B2h and Nor-B2b are again very recent introductions into Chinese wheat breeding programs, the former from CIMMYT wheats and the latter in association with the introduction of the 1RS/1BL translocation from Europe. On the basis of the presence of different combinations of Nor-B1 and Nor-B2 alleles     

Inheritance and expression of introduced DNA in transgenic onion plants (Allium cepa)

Transgenic onion plants (Allium cepa) containing the Cauliflower mosaic virus 35s promoter (CaMV35s) and gfp gene construct encoding the visual green fluorescent reporter protein from pBINm gfp ER and the CaMV35s‐bar gene construct encoding resistance to the herbicide phosphinothricin from pCAMBlA3301 were produced by Agrobacterium‐mediated transformation. These plants weregrown to maturity and selfed in order to determine the expression and inheritance of the transgenes. CaMV35s regulation in onion, as observed by GFP expression, was essentially constitutive, and profiles of regulation were typical of those observed in dicotyledonous plants. Inhibition of CaMV35s regulated gene expression was only observed in one transformant. Both the expression of GFP and tolerance to phosphinothricin appeared to be inherited in a Mendelian fashion. Levels of expression in F1 offspring varied, presumably due to environmental and genetic factors. However, it appeared that copy number did strongly influence GFP protein production and expression. In the majority of plants there were no obvious detrimental phenotypic effects caused by the transgene, the integration event, or Somaclonal variation due to the need to perform tissue culture.     

A facile method for the direct synthesis of lanthionine containing cyclic peptides

Summary A series of disulfide bridged peptides were designed as potential inhibitors of protein-protein interactions. Following solid phase synthesis, completely deprotected linear peptides were first oxidized to their disulfide analogs and then transformed into their lanthionine equivalents via a base-assisted reaction in water. Peptides consisting of cystine bridges of lengthi, i+3, with and without discrimination of the chiral centers, were studied for this transformation. Lanthionine peptides were also obtained directly from the reduced linear peptides under mild alkaline treatment, and the reaction proceeded via disulfide bond formation. The extent of conversion of a disulfide bridge into its lanthionine counterpart varied according to the primary sequence. Product characterization revealed diastereomeric lanthionine formation. The presence of D-amino acids, peptide conformation, and/or position of the cystine bridge are among the factors determining the facility of this reaction. Elimination of the backbone proton beta to the sulfur atom followed by intramolecular thiol Michael addition is the most likely mechanism for this transformation.     

A facile method for the direct synthesis of lanthionine containing cyclic peptides

A series of disulfide bridged peptides were designed as potential inhibitors of protein-protein interactions. Following solid phase synthesis, completely deprotected linear peptides were first oxidized to their disulfide analogs and then transformed into their lanthionine equivalents via a base-assisted reaction in water. Peptides consisting of cystine bridges of length i, i+3, with and without discrimination of the chiral centers, were studied for this transformation. Lanthionine peptides were also obtained directly from the reduced linear peptides under mild alkaline treatment, and the reaction proceeded via disulfide bond formation. The extent of conversion of a disulfide bridge into its lanthionine counterpart varied according to the primary sequence. Product characterization revealed diastereomeric lanthionine formation. The presence of D-amino acids, peptide conformation, and/or position of the cystine bridge are among the factors determining the facility of this reaction. Elimination of the backbone proton beta to the sulfur atom followed by intramolecular thiol Michael addition is the most likely mechanism for this transformation.     

Resistance to wheat streak mosaic virus in transgenic wheat expressing the viral replicase (NIb) gene

Wheat (Triticum aestivum L. cv. Hi-Line) immature embryos were transformed with the replicase gene (NIb) of wheat streak mosaic virus (WSMV) by the biolistic method. Six independent transgenic plant lines were analyzed for transgene expression and for resistance to mechanical inoculation of WSMV at R3 or R4 generation. Four out of the six lines showed various degree of resistance to WSMV. These lines had initially milder symptoms than controls, and the new growth ranged from milder symptoms, a substantial delay in symptom development, or asymptomatic. Two lines displayed higher resistance with very mild virus symptoms after inoculation and the new growth of 72% and 32% plants from these lines were asymptomatic and had no detectable virus through the plant life cycle. Interestingly, five out of the six transgenic lines had no detectable transgene mRNA expression by RNA gel blot hybridization. The only line that had detectable transgene mRNA did not show delay in the symptom development but had overall milder symptom to the virus.     

转基因白桦外源基因的多重PCR快速检测

根据转化的载体序列上T-DNA中的目的基因bt,选择性筛选标记基因nptⅡ和报告基因gus设计三对特异性引物,PCR产物片断大小分别为247、449、668 bp,应用多重PCR (mutiplex-PCR)的方法同步检测18株转基因白桦中三个基因的整合状况;用阳性对照为模板,对单重PCR（simplex-PCR）和多重PCR的各项指标进行比较。结果表明多重PCR检测多个外源基因在敏感性方面与单重PCR相比并没有减弱,而且略有提高;对18株样品的多重PCR同步检测无假阳性出现,结果准确,同时在操作中具有减少污染,缩短时间和节约成本等优点。因此,在对转基因白桦的外源基因的定期检测中,多重PCR是一种非常有效而便捷的方法,可以为转基因的拷贝数,T-DNA旁侧序列特征等转基因整合特性方面的研究提供数据。     

A facile method for the construction of synthetic genes

A simple protocol for rapid assembly of chemically synthesized deoxyoligonucleotides into double stranded DNA is described. Several parameters of a ligation-free method were investigated to allow efficient assembly of a large number of oligonucleotides into double stranded DNA by polymerase chain reaction. Synthesis of a 701 bp DNA was carried out in a single reaction by assembling 28 oligonucleotides designed with partial overlaps at complementary ends. An estimate of error rate was made by sequencing several independent clones of the synthesized DNA     

水稻几丁质酶基因导入芥菜型油菜的研究

以芥菜型油菜 (BrassicajunceaL .)下胚轴为转化材料 ,通过根癌农杆菌 (Agrobacteriumtumefaciens)介导将水稻的几丁质酶基因 (Ricechitinasegene)导入“泸洲四陵”油菜品种中 ,获得抗潮霉素的再生转基因植株 ,并讨论了影响油菜再生及转化效率的几个因素。对部分经潮霉素筛选得到的再生植株进行了多次重复PCR检测 ,发现其中 40 %以上的潮霉素抗性植株均表现出较强的阳性反应 ,初步证明几丁质酶基因已整合到油菜细胞核基因组中。     

The action of 2-amino-4-(methylphosphinyl)-butanoic acid (phosphinothricin) and its 2-oxo-derivative on the metabolism of cyanobacteria and higher plants

When adequate concentrations of phosphinothricin (a potent inhibitor of glutamine synthetase) are added to Anacystis nidulans cells suspended in nitrate medium, ammonia excretion into the medium takes place. Similarly, when phosphinothricin is added to nitrogen fixing cultures of Anabaena ATCC 33047, ammonia is also released at high rates. Methionine sulphoximine, phosphinothricin and its 2-oxo-derivative (1 mM) stimulate ammonia production and cause a sharp drop in glutamine and asparagine concentrations, when fed to leaves of Triticum, Pisum and Helianthus. Less pronounced effects were detected with the leaves of a C₄ plant Zea.