转基因抗除草剂油菜对近缘作物的基因漂移

以转基因抗除草剂油菜 Q3和 HCN- 19为花粉供体材料 ,油菜近缘作物为花粉受体材料 ,在自然授粉条件下研究甘蓝型油菜与芸薹属近缘作物间的基因漂移频率。结果表明 ,油菜对芸薹属 6个种甘蓝、黑芥、埃芥、芥菜型油菜、白菜型油菜和甘蓝型油菜的基因漂移率分别为 0、0 .0 2 4 %～ 0 .2 4 3%、 0 .0 2 8%～ 0 .0 92 %、 0 .10 9%～ 0 .95 1%、 0 .4 79%～ 0 .879%、 1.2 5 2 %～2 .191%。且基因漂移频率受多种因素影响 ,其中与杂交亲和性、花期同步率、种植面积等高度相关。通过花粉将抗除草剂基因漂移给近缘作物 ,油菜是需要特别关注的作物     

不同类型油菜EST-SSR标记的通用性及其应用研究

以10个甘蓝型油菜、11个芥菜型油菜和7个白菜型油菜品种为材料,选用已报道的14对白菜EST-SSR引物和8对油菜EST-SSR引物,探索其在3种类型油菜中的通用性,并利用筛选出的在3类油菜中有通用性和多态性的EST-SSR标记对供试油菜品种进行聚类分析.结果表明:(1)选用的14对白菜EST-SSR引物和8对油菜EST-SSR引物,在供试的3种类型油菜中都有扩增,完全可用.(2)在白菜型、甘蓝型和芥菜型油菜品种中扩增显示出多态性的引物数分别为18、16 和14对,其中有10对引物在3种类型油菜品种间扩增产物具有多态性.(3)利用这10对扩增多态性EST-SSR引物对供试油菜品种聚类分析,结果显示,在遗传相似系数为0.67时,3种类型油菜品种分别独自聚为一大类,表明开发和建立不同类型油菜间可通用的EST-SSR标记是可行且有应用价值的.     

鉴别油菜细胞质新方法

1979年日本人志贺敏夫用甘蓝型油菜雄性不育遗传规律,通过品种间的杂交,按后代育性分离情况,将日本甘蓝型油菜划分为S型细胞质群和N型细胞质群两大类。我国于60年代中期开始大面积引进种植甘蓝型油菜,在生产上取得了很大的经济效益。70年代后期,尤其是80年代,又大量引进许多国外的低芥酸和低芥酸、低硫代葡萄糖甙的油菜品种,通过杂交也选育成许多新的生产用杂交种,这许许多多的油菜品种,其细胞质各属哪类,国内研究甚少。尤其是近些年来对于开展杂交油菜育种的     

油菜基因流网络的结构特性与小团体分析

为从系统角度掌握转基因油菜（Brassica campestris）基因流规律,基于常规油菜与十字花科植物杂交的有关文献,构建了油菜基因流网络拓扑图实例并分析其网络结构特性。研究结果表明,该网络节点度服从幂律分布,具有无标度特性。从随机攻击和恶性攻击两个方面对标准结构熵和网络效率2个指标的网络稳健性进行分析,结果显示在随机移除不到10%的顶点时网络表现较好的鲁棒性,但在受到选择性移除10%的顶点时,网络具有极弱的抗攻击性。基于软件UCINET对网络进行了小团体和结构同型性分析,可将网络中298个节点22类十字花科植物划分为2个小团体和5类结构角色,其中甘蓝型油菜在基因流网络小团体中具有关键性作用。这些研究结果可为揭示转基因油菜基因流规律提供新思路,同时也可对转基因油菜商业化种植采取合理的农业生产栽培管理措施提供参考。     

油菜基因流网络的结构特性与小团体分析

为从系统角度掌握转基因油菜(Brassica campestris)基因流规律, 基于常规油菜与十字花科植物杂交的有关文献,构建了油菜基因流网络拓扑图实例并分析其网络结构特性。研究结果表明, 该网络节点度服从幂律分布, 具有无标度特性。从随机攻击和恶性攻击两个方面对标准结构熵和网络效率2个指标的网络稳健性进行分析, 结果显示在随机移除不到10%的顶点时网络表现较好的鲁棒性, 但在受到选择性移除10%的顶点时, 网络具有极弱的抗攻击性。基于软件UCINET对网络进行了小团体和结构同型性分析, 可将网络中298个节点22类十字花科植物划分为2个小团体和5类结构角色, 其中甘蓝型油菜在基因流网络小团体中具有关键性作用。这些研究结果可为揭示转基因油菜基因流规律提供新思路, 同时也可对转基因油菜商业化种植采取合理的农业生产栽培管理措施提供参考。     

转基因油菜的基因流及生态风险

综合评述了转基因油菜的基因流及其生态风险.油菜作为最早的转基因作物之一目前已在加拿大和澳大利亚大面积商业化应用.（常）异花授粉作物油菜的天然异交率可达30%左右,也易与其它芸苔属作物杂交,因此转基因油菜的生态风险已引起各国科学家的高度重视.转基因油菜主要通过与其野生近缘种的花粉交换和与非转基因油菜的花粉交换两种方式进行花粉的输出.基因可能逃逸到相关野生近缘种,但在大田环境下能够得到杂种的可能性很小;由于基因的漂流在油菜田块间确实存在,因此在种植转基因油菜的过程中必须考虑其间隔距离.     

转基因抗除草剂油菜对十字花科杂草的基因漂移

以转基因抗除草剂油菜Q3为花粉供体材料,油菜远缘杂草为花粉受体材料,在自然传粉和人工辅助授粉条件下研究甘蓝型油菜与十字花科杂草间的基因漂移频率。结果表明,以转基因油菜为父本,十字花科杂草荠菜、碎米荠、播娘蒿、诸葛菜、风花菜、遏蓝菜和菜为母本,杂交高度不亲和,基因漂移率为0 % ,无生态风险,但对野芥菜的基因漂移率高达0 .885 %。野芥菜是我国大部分地区的常见杂草,种类繁多,分布范围广,大面积种植转基因抗除草剂油菜对野生芥菜的基因污染应引起高度重视。     

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.     

RFLP和AFLP分析白菜型油菜和甘蓝型油菜遗传多样性及其在油菜改良中的应用价值

采用RFLP和AFLP标记对来自中国和欧美的7份甘蓝型油菜和22份白菜型油菜进行了遗传多样性分析。在这29份材料中,166个酶-探针组合和2对AFLP引物共检测到1477个RFLP标记和183个AFLP标记。RFLP数据显示以拟南芥EST克隆作探针比用油菜基因组克隆做探针能检测到更多的多态性位点,且采用EcoR Ⅰ或BamH Ⅰ酶切比HindⅢ酶切多态性好,白菜型油菜和甘蓝型油菜中基因的拷贝数平均都为3个左右。UPGMA聚类分析表明中国白菜型油菜的遗传多样性比甘蓝型油菜和欧美白菜型油菜丰富,欧美甘蓝型油菜与欧美白菜型油菜聚为一类,而与中国甘蓝型油菜差异更大。中国白菜型油菜丰富的遗传多样性为中国甘蓝型油菜的改良提供了宝贵的资源,揭示了利用白菜型油菜A基因组和甘蓝型油菜A基因组间亚基因组杂种优势的可能性。     

合成甘蓝型油菜中双隐性雄性核不育材料的发现及遗传规律分析

从甘蓝型油菜与白菜型油菜的种间杂交获得的甘蓝型油菜(Brassica napus)中发现了雄性不育单株,兄妹交株系和不育株与甘蓝型油菜常规杂交F1和F2株系的育性分离分析表明,该不育材料属于双隐性雄性核不育类型.利用育性分离株系的可育株自交和可育株与不育株间兄妹交等方法筛选出7个纯合可育株系,等位测验表明这7个纯合可育株系(B1～B7)中存在两种基因型:Ms1Ms1ms2ms2和ms1ms1Ms2MS2.该材料对油菜核不育基因定位和杂种优势利用研究有重要意义.     

Mitigation using a tandem construct containing a selectively unfit gene precludes establishment of Brassica napus transgenes in hybrids and backcrosses with weedy Brassica rapa

Transgenic oilseed rape ( Brassica napus ) plants can interbreed with nearby weedy Brassica rapa , potentially enhancing the weediness and/or invasiveness of subsequent hybrid offspring. We have previously demonstrated that transgenic mitigation effectively reduces the fitness of the transgenic dwarf and herbicide-resistant B. napus volunteers. We now report the efficacy of such a tandem construct, including a primary herbicide-resistant gene and a dwarfing mitigator gene, to preclude the risks of gene establishment in the related weed B. rapa and its backcross progeny. The transgenically mitigated and non-transgenic B. rapa  ×  B. napus interspecific hybrids and the backcrosses (BC₁) with B. rapa were grown alone and in competition with B. rapa weed. The reproductive fitness of hybrid offspring progressively decreased with increased B. rapa genes in the offspring, illustrating the efficacy of the concept. The fitness of F₂ interspecific non-transgenic hybrids was between 50% and 80% of the competing weedy B. rapa , whereas the fitness of the comparable T₂ interspecific transgenic hybrids was never more than 2%. The reproductive fitness of the transgenic T₂ BC₁ mixed with B. rapa was further severely suppressed to 0.9% of that of the competing weed due to dwarfism. Clearly, the mitigation technology works efficiently in a rapeseed crop–weed system under biocontainment-controlled environments, but field studies should further validate its utility for minimizing the risks of gene flow.     

Interspecific hybrids between a transgenic rapeseed (Brassica napus) and related species: cytogenetical characterization and detection of the transgene.

In interspecific hybrids produced between a transgenic rapeseed, an allotetraploid species, resistant to herbicide, phosphinotricin, and five diploid related species, the risk for gene introgression in weed genomes was explored through cytogenetic and bar gene characterizations. Among the 75 hybrids studied, most had the expected triploid structure, with the exception of B. napus - B. oleracea amphidiploid plants and one B. napus - S. arvensis amphidiploid plant. In triploid hybrid plants, the reciprocal hybrids did not exhibit any difference in their meiotic behavior. The comparison of the percentage of chromosome pairing in the hybrids with that of haploid rapeseed permit to conclude that allosyndesis between AC genomes and related species genomes took place. This possibility of recombination was confirmed by the presence of multivalent associations in all the interspecific hybrids. Nevertheless, in B. napus - B. adpressa hybrids a control of chromosome pairing seemed to exist. The possibility of amphidiploid plant production directly obtained in the F1 generation increased the risk of gene dispersal. The B. napus - B. oleracea amphidiploid plant presented a meiotic behavior more regular than that of the B. napus - S. arvensis amphidiploid plant. Concerning the herbicide bar gene characterization, the presence of the gene detected by DNA amplification was correlated with herbicide resistance, except for two plants. Different hypotheses were proposed to explain these results. A classification of the diploid species was established regarding their gene dispersal risk based on the rate of allosyndesis between chromosomes of AC genomes of rapeseed and the genomes of the related species.     

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     

Divergent patterns of allelic diversity from similar origins: the case of oilseed rape (Brassica napus L.) in China and Australia.

Oilseed rape (Brassica napus) in Australia and China have similar origins, with introductions from Europe, Canada, and Japan in the mid 20th century, and there has been some interchange of germplasm between China and Australia since that time. Allelic diversity of 72 B. napus genotypes representing contemporary germplasm in Australia and China, including samples from India, Europe, and Canada, was characterized by 55 polymorphic simple sequence repeat (SSR) markers spanning the entire B. napus genome. Hierarchical clustering and two-dimensional multidimensional scaling identified a Chinese group (China-1) that was separated from "mixed group" of Australian, Chinese (China-2), European, and Canadian lines. A small group from India was distinctly separated from all other B. napus genotypes. Chinese genotypes, especially in the China-1 group, have inherited unique alleles from interspecific crossing, primarily with B. rapa, and the China-2 group has many alleles in common with Australian genotypes. The concept of "private alleles" is introduced to describe both the greater genetic diversity and the genetic distinctiveness of Chinese germplasm, compared with Australian germplasm, after 50 years of breeding from similar origins.     

Tracing B-genome chromatin in Brassica napus x B. juncea interspecific progeny.

We used polymerase chain reaction (PCR) and fluorescence in situ hybridization (FISH) techniques to demonstrate the presence of Brassica B-genome chromosomes and putative B-genome introgressions in B. napus x B. juncea interspecific progeny. The B-genome--specific repeat sequence pBNBH35 was used to generate PCR products and FISH probes. The highest frequencies of viable progeny were obtained when B. napus was the maternal parent of the interspecific hybrid and the first backcross. B-genome--positive PCR assays were found in 34/51 fertile F2 progeny (67%), which was more than double the proportion found in fertile BC(1) progeny. Four B-genome--positive F(2)-derived families and 1 BC(1)-derived family were fixed or segregating for B. juncea morphology in the F(4) and BC(1)S(2), respectively, but in only 2 of these families did B. juncea-type plants exhibit B. juncea chromosome count (2n = 36) and typical B-genome FISH signals on 16 chromosomes. The remaining B. juncea-type plants had B. napus chromosome count (2n = 38) and no B-genome FISH signals, except for 1 exceptional F(4)-derived line that exhibited isolated and weak B-genome FISH signals on 11 chromosomes and typical A-genome FISH signals. B. juncea morphology was associated with B-genome--positive PCR signals but not necessarily with 16 intact B-genome chromosomes as detected by FISH. B-genome chromosomes tend to be eliminated during selfing or backcrossing after crossing B. juncea with B. napus, and selection of lines containing B-genome chromatin during early generations would be promoted by use of this B-genome repetitive marker.     

A Regional Multiple Stressor Risk Assessment of the Codorus Creek Watershed Applying the Relative Risk Model

The relative risk model (RRM) used in Port Valdez, AK, and in Oregon's Willamette/McKenzie Watershed was applied to the Codorus Creek Watershed in south central Pennsylvania. The assessment evaluated the relative risk model for its applicability for ranking ecological risks within the Codorus Creek Watershed. The Codorus Creek Watershed approach included ranking stressors and habitats for regions within the watershed. Geographical Information Systems were vital in compiling and comparing stressor and habitat spatial data from regions in the watershed. The risk of ecological impacts to degrade assessment endpoints were calculated and ranked by quantitatively determining the interactions of the stressors and habitats as defined in the conceptual site model. Uncertainty assessment was conducted and the impact upon the relative ranks and risk conclusions evaluated. To determine regional risks, risk management information was gathered identifying areas to be protected, areas of high stress, and areas where additional information is needed. The results supported the applicability of the RRM and suggested areas and stressors for restoration efforts in the Codorus Creek Watershed. Two critical sets of conclusions were drawn from the assessment. First, in the Codorus Creek Watershed, the most significant stressor is agriculture land use, the most significantly impacted endpoint is water quality, and the most vulnerable habitats are those for macroinvertebrates and warm-water fish. Second, this risk assessment demonstrates the feasibility of using the RRM for assessing risk from multiple stressors on habitats with multiple assessment endpoints in an eastern watershed.     

芥菜型和甘蓝型油菜及其杂种后代种子硫甙组成差异的研究

用高效液相色谱技术分析了芥菜型油菜（Ｂｒａｓｓｉｃａ ｊｕｎｃｅａ）和甘蓝型油菜（Ｂｒａｓｓｉｃａ ｎａｐｕｓ）种间杂种后代及共亲本的硫甙组成。结果表明,与亲本农艺性状相似的后代,那么其硫甙组成与亲本亦相似。各后代中硫甙组成与亲本相比,虽发生了不同管理的变化,但都有倾向母体的趋势。芥菜型油菜烯丙基硫甙含量,２－羟基－３－丁烯基硫甙含量低,而甘蓝型油菜２－羟基３－丁烯基硫甙含量高,烯丙基硫甙含量最低     

Competitive interactions and the effect of herbivory on Bt-Brassica napus, Brassica rapa and Lolium perenne

1.  The probability of a transgenic crop establishing a feral population outside cultivated areas and possibly outcompeting naturally occurring species needs to be assessed to make an ecological risk assessment of the transgenic crop.
2.  The interaction between herbivory and competition is thought to determine the ecological success of insect-resistant plants, and this interaction was investigated in a competition experiment with transgenic insect-resistant Bt- Brassica napus , Brassica rapa , Lolium perenne , and herbivory from the large white butterfly Pieris brassicae .
3.  As expected, herbivory had a negative effect on the biomass of B. rapa at high plant densities. The competitive ability of L. perenne , when growing with B. rapa , increased significantly with the level of herbivory on B. rapa .
4.  To predict the effect of herbivory in a natural ecosystem, plant competition between the two annual Brassica species was analysed in a population ecological model. It was concluded that it is probable that transgenic Bt- B. napus plants may invade a natural habitat if herbivory is sufficiently high and the habitat is suitable for B. napus .
5.   Synthesis and applications . The results indicate that it is important to study the interaction between herbivory and competition when assessing the ecological risk of insect-resistant genetically modified crops. Furthermore, combining ecological data from manipulated experiments with population ecological modelling is a fruitful approach when conducting environmental risk assessments.     

Mitigation of establishment of Brassica napus transgenes in volunteers using a tandem construct containing a selectively unfit gene

Transgenic oilseed rape ( Brassica napus ) plants may remain as 'volunteer' weeds in following crops, complicating cultivation and contaminating crop yield. Volunteers can become feral as well as act as a genetic bridge for the transfer of transgenes to weedy relatives. Transgenic mitigation using genes that are positive or neutral to the crop, but deleterious to weeds, should prevent volunteer establishment, as previously intimated using a tobacco ( Nicotiana tabacum ) model. A transgenically mitigated (TM), dwarf, herbicide-resistant construct using a gibberellic acid-insensitive (Δ gai ) gene in the B. napus crop was effective in offsetting the risks of transgene establishment in volunteer populations of B. napus . This may be useful in the absence of herbicide, e.g. when wheat is rotated with oilseed rape. The TM dwarf B. napus plants grown alone had a much higher yield than the non-transgenics, but were exceedingly unfit in competition with non-transgenic tall cohorts. The reproductive fitness of TM B. napus was 0% at 2.5-cm and 4% at 5-cm spacing between glasshouse-grown plants relative to non-transgenic B. napus . Under screen-house conditions, the reproductive fitness of TM B. napus relative to non-transgenic B. napus was less than 12%, and the harvest index of the TM plants was less than 40% of that of the non-transgenic competitors. The data clearly indicate that the Δ gai gene greatly enhances the yield in a weed-free transgenic crop, but the dwarf plants can be eliminated when competing with non-transgenic cohorts (and presumably other species) when the selective herbicide is not used.