油菜烯醇酶基因的克隆与分析(英文)

烯醇酶(enolase)是糖酵解途径中的一个重要酶类,它能够催化磷酸甘油酸酯(2-PGA)生成磷酸烯醇丙酮酸酯(PEP)。我们通过RACE-PCR方法从油菜(Brassica napus L. )中克隆到了编码烯醇酶的全长基因。序列分析表明该基因全长cDNA为1624bp,拥有一个由444个氨基酸组成的开放读码框,所编码的蛋白质分子量为47.38kD,等电点为5.78。比较发现,油菜烯醇酶与已分离出的其他烯醇酶氨基酸序列有较高的同源性。Southern杂交结果显示烯醇酶以低拷贝形式在油菜基因组中存在。RT-PCR和Northern分析表明烯醇酶基因在100mmol/L盐浓度胁迫条件下表达量上升,而在低温诱导时表达量下降。该研究表明所克隆基因是植物烯醇酶基因家族的新成员。     

油菜烯醇酶基因的克隆与分析

烯醇酶(enolase)是糖酵解途径中的一个重要酶类,它能够催化磷酸甘油酸酯(2-PGA)生成磷酸烯醇丙酮酸酯(PEP).我们通过RACE-PCR方法从油菜(Brassica napus L.)中克隆到了编码烯醇酶的全长基因.序列分析表明该基因全长cDNA为1 624bp,拥有一个由444个氨基酸组成的开放读码框,所编码的蛋白质分子量为47.38 kD,等电点为5.78.比较发现,油菜烯醇酶与已分离出的其他烯醇酶氨基酸序列有较高的同源性.Southern杂交结果显示烯醇酶以低拷贝形式在油菜基因组中存在.RT-PCR和Northern分析表明烯醇酶基因在100 mmol/L盐浓度胁迫条件下表达量上升,而在低温诱导时表达量下降.该研究表明所克隆基因是植物烯醇酶基因家族的新成员.     

Differential response of oilseed rape (Brassica napus L.) cultivars to low boron supply

Three experiments were carried out on an alluvial sandy loam (Udifluvent) at Tonglu, Zhejiang Province, P.R. China from 1992 to 1995, to determine the genotypic range in boron (B) efficiency of 16 oilseed rape (Brassica napus L.) cultivars, to identify the B-efficient cultivars and to identify specific responses which can be utilised for selection in a breeding program. The 16 cultivars which included high-quality and conventional types differed significantly in survival, plant height, leaf area, shoot dry weight and seed yield; however, the ranking of the cultivars for their seed yield or other plant traits differed with B treatment. With severe B deficiency (CaCl2 extractable B < 0.26 mg/kg) and no boron applied, none of the cultivars exhibited significant B efficiency, with seed yield <300 kg/ha. With moderate B deficiency (CaCl2 extractable B 0.34 mg/kg or 0.17 kg B/ha applied), seed yield varied significantly among the cultivars from 397 to 1889 kg/ha in year 1 and from 616 to 1260 kg/ha in year 3. Zhongyou 821 and 92-13 were the most B-efficient and Wanyou 324, Huashuang 2 and Su 2051 were the most B-inefficient cultivars under moderate B deficiency. Significant differences were found among the cultivars in leaf B concentration; however, there was no close relationship between leaf B concentration and seed yield responses to B of oilseed cultivars. Of all the growth parameters measured, leaf area was the early indicator best correlated with subsequent seed yield and may be useful for evaluating the response of cultivars to low B supply. Contrary to current opinion, it was also found that high-quality oilseed rape cultivars were not all sensitive to low B supply nor were all conventional cultivars B-efficient.     

Variation in the glucosinolate content of vegetative tissues of Chinese lines of Brassica napus L

The glucosinolate content of leaves, stems and roots of a range of Chinese oilseed rape (Brassica napus L.) breeding lines was analysed. Total content and spectrum of individual glucosinolates varied widely, and there was no correlation between seed and vegetative tissue glucosinolate content. Lines with low seed glucosinolates (00) did not necessarily have low glucosinolate content in vegetative tissues; nor did high seed glucosinolate lines always have high vegetative tissue content. There was no correlation between the glucosinolate content of leaf, stem, and root in any given line. It appears that glucosinolate synthesis and accumulation is under tissue-specific control, and the mutation which blocks accumulation of glucosinolates in seeds does not influence other tissues. The responses of these lines to elicitors was also examined. Methyl jasmonate and salicylic acid treatments produced increases in leaf indolyl and aromatic glucosinolates respectively. However, the extent of such increases differed widely between the lines, and there were other, less consistent, effects on other classes of glucosinolate. There seems to be greater variation in glucosinolate accumulation in rape than has previously been reported, and the lines described here have considerable potential for evaluating the effects of manipulating glucosinolate profiles on pest and disease interactions.     

Sequence‐level comparative analysis of the Brassica napus genome around two stearoyl‐ACP desaturase loci

We conducted a sequence‐level comparative analyses, at the scale of complete bacterial artificial chromosome (BAC) clones, between the genome of the most economically important Brassica species, Brassica napus (oilseed rape), and those of Brassica rapa, the genome of which is currently being sequenced, and Arabidopsis thaliana. We constructed a new B. napus BAC library and identified and sequenced clones that contain homoeologous regions of the genome including stearoyl‐ACP desaturase‐encoding genes. We sequenced the orthologous region of the genome of B. rapa and conducted comparative analyses between the Brassica sequences and those of the orthologous region of the genome of A. thaliana. The proportion of genes conserved (～56%) is lower than has been reported previously between A. thaliana and Brassica (～66%). The gene models for sets of conserved genes were used to determine the extent of nucleotide conservation of coding regions. This was found to be 84.2 ± 3.9% and 85.8 ± 3.7% between the B. napus A and C genomes, respectively, and that of A. thaliana, which is consistent with previous results for other Brassica species, and 97.5 ± 3.1% between the B. napus A genome and B. rapa, and 93.1 ± 4.9% between the B. napus C genome and B. rapa. The divergence of the B. napus genes from the A genome and the B. rapa genes was greater than anticipated and indicates that the A genome ancestor of the B. napus cultivar studied was relatively distantly related to the cultivar of B. rapa selected for genome sequencing.     

Effects of the triazole plant growth retardant BAS 111¨W on gibberellin levels in oilseed rape, Brassica napus

Three-week-old shoots of the spring oilseed rape cv. Petranova ( Brassica napus L. ssp. napus ) were found by combined gas chromatography-mass spectrometry to contain GA₁, GA₈, GA₁₅, GA₁₇, GA₁₉, GA₂₀, GA₂₄, GA₂₉, 3-epi-GA₁ and a previously uncharacterised C₁₉ dicarboxylic acid that is probably structurally related to GA₂₄. Shoots of the winter cultivar Belinda, harvested at the early flowering stage, contained the same GAs with the exception of the C₁₉ dicarboxylic acid and, in addition, GA₃₄ and GA₅₁ were identified. All material contained higher levels of GA₂₀ than of GA₁; the ratio of GA₁ to GA₂₀ was highest in shoots containing the largest proportion of young immature tissues. Soil treatment of cv. Petranova seedlings with the growth retardant BAS 111¨W [1-phenoxy-5,5-dimethyl-3-(1,2,4-triazol-1-yl)-hexan-4-ol] caused 80% reduction in height 18 days after treatment and the levels of all GAs were 20% or less that of control plants. Foliar treatment at the same dosage reduced height by 50% and caused an 85% or greater reduction in the concentrations of the GA₁ precursors GA₂₀, GA₁₉ and GA₄₄. However, the levels of GA₁, GA₈ and GA₂₉ were affected to a much smaller extent. Foliar application of BAS 111¨W to cv. Belinda 1 month after sowing resulted in only a 20% height reduction at flowering, but no uniform decrease in the concentrations of endogenous GAs at this stage.     

Barriers to gene flow from oilseed rape (Brassica napus) into populations of Sinapis arvensis

One concern over growing herbicide-tolerant crops is that herbicide-tolerance genes may be transferred into the weeds they are designed to control. Brassica napus (oilseed rape) has a number of wild relatives that cause weed problems and the most widespread of these is Sinapis arvensis (charlock). Sinapis arvensis seed was collected from 102 populations across the UK, within and outside B. napus-growing areas. These populations were tested for sexual compatibility with B. napus and it was found that none of them hybridized readily in the glasshouse. In contrast to previous studies, we have found that hybrids can be formed naturally with S. arvensis as the maternal parent. Six diverse B. napus cultivars (Capricorn, Drakkar, Falcon, Galaxy, Hobson and Regent) were tested for their compatibility with S. arvensis but no cultivar hybridized readily in the glasshouse. We were unable to detect gene transfer from B. napus to S. arvensis in the field, confirming the extremely low probability of hybridization predicted from the glasshouse work.     

Dehiscence-related expression of an Arabidopsis thaliana gene encoding a polygalacturonase in transgenic plants of Brassica napus

Pod dehiscence in Arabidopsis thaliana is accompanied by an increase in the expression of a polygalacturonase (PG). The gene encoding this mRNA has been characterized and shown to have extensive homology to a similar PG gene from Brassica napus . The A. thaliana PG promoter was fused to β -glucuronidase (GUS) and the expression of this reporter gene analysed in transgenic B. napus plants. The GUS activity was detected throughout the dehiscence zone of pods from 35 d after anthesis and expression was restricted to those cells that undergo cell separation. Expression was also detectable at the junction between the seed and the funicular tissue and in mature anthers of flowers. Transgenic plants containing the PG promoter fused to barnase were sterile as a consequence of the anthers failing to undergo dehiscence. Fertilization of PG-barnase plants resulted in the development of pods that exhibited a reduced capacity to shatter. The role of PG during cell separation processes in plants is discussed.     

甘蓝型油菜花粉离体培养

通过对甘蓝型油菜花粉发育阶段和活力的检测确定花粉发育的时期,分离出单核晚期花粉进行离体培养.结果表明,(1)筛选出适合油菜小孢子花粉离体培养的液体培养基为T_1+怀特维生素(White's vitamins)+2%椰子汁+0.5 mol/L麦芽糖,在此培养基上花粉的成熟率可达25.1%,萌发率达6.3%.(2)筛选出适合成熟花粉离体萌发液体培养基为0.6 mol/L麦芽糖+1.6 mmol/L硼酸+2.9 mmol/L硝酸钙+29.6 μmol/L VB_1,在此培养基上,自然成熟花粉的萌发率可达75.2%.将离体培养成熟的花粉培养在萌发培养基,萌发的花粉占成熟花粉的66.3%.     

中国甘蓝型油菜遗传多样性的RAPD分子标记

本文利用ＲＡＰＤ方法和统计学分析,对我国７省市和国外引进的总计４０份甘蓝型油菜品种的遗传多样性进行了研究。结果表明,４０个品种的甘蓝型油菜存在着广泛的遗传变异,根据ＲＡＰＤ指纹图谱,通过在ＤＮＡ分子水平上的聚类分析可以将它们分为３大类群,反映出这些品种之间的亲缘关系,并对如何引进甘蓝型油菜资源进行了初浅的讨论。     

Agrobacterium tumefaciens-mediated transformation of Brassica napus winter cultivars

An efficient protocol for Agrobacterium tumefaciens-mediated transformation of six commercial Brassica napus winter cultivars is described. Two B. napus spring cultivars were analysed for comparison. Five strains of A. tumefaciens with different combinations of nopaline and octopine chromosomal backgrounds and virulence plasmids were used for cocultivation. Selection of putative regenerated transgenic plants was performed on kanamycin- or hygromycin-containing media. The scores of transgenic plants were calculated on the basis of GUS (-glucuronidase) activity, detected by the histochemical X-Gluc test. Target tissue derived from the cut surface of cotyledon petioles resulted in successful transformation with all the winter cultivars tested. Target tissue from hypocotyl segments resulted in a successful transformation with only one winter cultivar. The transformation rates for B. napus winter cultivars in this study were higher than in previous reports. Southern blot analysis revealed that integration of marker genes occurred in single and in multiple copies and at multiple loci in the genome. The transgenic plants all grew normally and developed fertile flowers after a vernalization period. After self-pollination, Southern blot analysis of selected GUS active F1 plants revealed that introduced marker genes were stably inherited to the next generation. These data demonstrate that morphologically normal, fertile transgenic plants of B. napus winter cultivars can be achieved with both nopaline- and octopine-derived A. tumefaciens strains. This protocol should have a broad application in improvement of Brassica napus winter cultivars by introduction of foreign genes     

Variation in the glucosinolate content of oilseed rape (Brassica napus L.) leaves

The glucosinolate content of oilseed rape {Brassica napus) leaves was monitored over the growth period 30–70 days after planting, and a comparison made between a single-low cultivar (low in erucic acid), Bienvenu, and a double-low cultivar (low in erucic acid and glucosinolate), Cobra. In older, fully-expanded leaves the glucosinolate concentration was very low (< 0.3 μmol/ml tissue water) and did not alter during the course of the experiment. In developing sixth leaves glucosinolate content increased rapidly and reached a maximum concentration (4–5 μmol/ml tissue water) 40 days after planting (6 days after leaf emergence). The concentration then declined, to about 1 μmol/ml after 60 days although the total glucosinolate content in leaves continued to increase until 50 days; much of the reduction in concentration was simply a result of leaf expansion. No major differences were seen between the two varieties in total glucosinolate content or in the individual compounds present. Cv. Cobra developed more quickly than cv. Bienvenu so direct comparison between leaves of the two cultivars was complex. When comparing the glucosinolate content of oilseed rape leaves, between cultivars or between treatments, it is vital to ensure that carefully matched leaves of comparable developmental age are selected.     

Pathways of infection of Brassica napus roots by Leptosphaeria maculans

Infection of Brassica napus cotyledons and leaves by germinating ascospores of Leptosphaeria maculans leads to production of leaf lesions followed by stem cankers (blackleg). Leptosphaeria maculans also causes root rot but the pathway of infection has not been described. An L. maculans isolate expressing green fluorescent protein (GFP) was applied to the petiole of B. napus plants. Hyphal growth was followed by fluorescence microscopy and by culturing of sections of plant tissue on growth media. Leptosphaeria maculans grew within stem and hypocotyl tissue during the vegetative stages of plant growth, and proliferated into the roots within xylem vessels at the onset of flowering. Hyphae grew in all tissues in the stem and hypocotyl, but were restricted mainly to xylem tissue in the root. Leptosphaeria maculans also infected intact roots when inoculum was applied directly to them and hyphae entered at sites of lateral root emergence. Hyphal entry may occur at other sites but the mechanism is uncertain as penetration structures were not observed. Infection of B. napus roots by L. maculans can occur via above- and below-ground sources of inoculum, but the relative importance of the infection pathways under field conditions is unknown.     

秋水仙碱对甘蓝型油菜离体小孢子胚胎发生的影响

研究了秋水仙碱不同浓度和处理时间对甘蓝型油菜23个基因型离体小孢子胚胎发生的影响.3个基因型的小孢子被10、50和100mg/L秋水仙碱处理24h或48h,胚产量是2.55～14.75胚/蕾,10～50mg/L处理72h则是0.94～2.43胚/蕾.这表明处理72h对小孢子胚发生有抑制作用.用200、400、500和800mg/L处理2个基因型小孢子16～48h,胚产量为0.6～1.33胚/蕾,未处理对照是6.25和9.36胚/蕾.可见200～800mg/L浓度对胚再生有不同程度的阻碍效应.结果还证明,小孢子对秋水仙碱的反应与其基因型有关.当用10、20、50和100mg/L处理48h时,22B5-6和903-3小孢子的胚产量为37.09～69.47胚/蕾,而F1-29、W592和SF10-12是0.28～1.45胚/蕾,相互之间差异很大.秋水仙碱处理小孢子的目的是使其再生植株的染色体高频率加倍,因此应根据胚产量和染色体加倍率来确定秋水仙碱浓度和处理时间.本试验中,采用10～50mg/L处理48h或者用100mg/L处理24h,约80%基因型的小孢子胚产量在5胚/蕾以上,约70%基因型的再生植株加倍率达60%以上,可有效地用于油菜遗传和育种研究等领域.     

Acetolactate synthase from Brassica napus: Immunological characterization and quaternary structure of the native enzyme

Acetolactate synthase (ALS, AHAS; EC 4. 1. 3. 18) from Brassica napus has been partially purified and characterized using polyclonal antibodies. Following denaturing sodium dodecyl sulphate polyacrylamide gel electrophoresis and western blot analysis, 65 and 66 kDa ALS subunit polypeptides were immunologically detected, along with a novel 36 kDa polypeptide which cross-reacted with the anti-ALS antibody. Partial peptide sequencing of the 36 kDa peptide revealed significant similarity to plant aldolase proteins. ALS activity from stromal extracts fractionated by gel filtration chromatography as a single species of estimated molecular mass of 124 kDa, while comparative sedimentation coefficient in glycerol gradients indicated a corresponding molecular mass of 132 kDa. The results suggest that the native enzyme is a dimer of 65 and/or 66 kDa subunits. Anion exchange chromatography resolved two classes of ALS activity of equal native molecular weight, but which exhibited different properties with respect to subunit structure, sensitivity to inhibition by chlorsulfuron and feedback inhibition by branched chain amino acids.     

The effect of modifying the glucosinolate content of leaves of oilseed rape (Brassica napus ssp. oleifera) on its interaction with specialist and generalist pests

Twenty eight Brassica napus lines were developed which had contrasting leaf glucosinolate profiles to those found in commercial oilseed rape cultivars. The lines varied both in the total amount of aliphatic glucosinolates and in the ratio of different side chain structures. The lines were used in field experiments to assess the manner by which glucosinolates mediate the interactions between Brasssica and specialist pests (Psylliodes chrysocephala and Pieris rapae) and generalist pests (pigeons and slugs). Increases in the level of glucosinolates resulted in greater damage by adult flea beetles (P. chrysocephala) and a greater incidence of Pieris rapae larvae, but reduced the extent of grazing by pigeons and slugs. Decreasing the side chain length of aliphatic glucosinolates and reducing the extent of hydroxylation of butenyl glucosinolates increased the extent of adult flea beetle feeding. The implications of modifying the glucosinolate content of the leaves of oilseed rape and the role of these secondary metabolites in plant/herbivore interactions are discussed.