构树种质资源遗传多样性SRAP分子标记研究

构树（Broussonetia papyrifera L.）为桑科（Moraceae）构树属（Broussonetia）落叶乔木，广泛分布于亚洲东部及太平洋岛屿。它是我国重要的经济林木，具有重要的经济价值，其树皮纤维品质优良，自古就是造纸的优良原料；叶片可用作饲料；果实具有重要的药用价值；环境适应性强，是迅速绿化荒山、荒滩和盐碱地的理想树种。因此对构树这些特性的深入研究和开发利用具有非常重要的实际应用价值。本研究以日本和国内构树主要分布区域的的10种生态型及杂交构树共23份材料，摸索并改进了构树DNA的提取方法，建立了稳定的SRAP分子标记体系，以杂交构树组培苗为材料从120对引物组合中筛选出条带信息较高的17对SRAP引物，以这些引物对23份构树材料进行PCR扩增和标记分析。 本研究取得的主要结果如下： （1）本实验首次将SRAP技术应用于构树的研究中，建立起构树稳定的SRAP-PCR反应体系；实验中对影响扩增的5个主要因素进行了优化，确定20 μL PCR反应体系中各因素最适浓度：模板DNA浓度80 ng/(20 μL)，Mg2+浓度2.0 mM，dNTP浓度0.6 mM，引物浓度0.8 mM，Taq 酶浓度1.5 U/(20 μL)。 （2）从120对引物组合中筛选出来的17对SRAP引物对21份不同生态型构树样本（21份材料指的是除两份杂交构树材料外的其它生态型构树，以下同）进行PCR扩增，共扩增出439条带，平均每对引物25.5条，其大小介于100～1,000 bp之间，其中多态性条带319条，占总数的72.67%。 （3）用Popgene1.32软件进行分析，计算出Shannon信息指数（I）值为0.2275（0.2042），物种水平的Nei基因多样性（H）值为0.1336（0.1436），表明各生态型构树之间的平均遗传多态性不高，中国大陆各生态型构树Shannon信息指数（I）值仅为0.1675（0.2271），物种水平的Nei基因多样性（H）值为0.1039（0.1540），群体遗传多样性较低，构树的遗传分化主要存在于中国和日本之间。 （4）用NTSYS-2.10e软件进行聚类分析，发现不同生态型构树按距离关系远近及分布区域可划分为不同类群。在遗传相似系数0.57附近，对21份材料进行聚类分析发现其可分为两个群体，一类为日本生态型，另一类为中国生态型，表明日本构树与中国野生种构树种源遗传相似性较小。中国各生态型构树在遗传相似系数0.91处可分为5类，总体而言，中国各地区之间的构树遗传相似度较高。对杂交构树分析表明，其亲缘关系与日本构树（母本）更接近。 （5）日本及杂交构树的SCAR标记。本研究找到两条日本及杂交构树的特异性条带，回收、测序，再根据序列往里重新设计引物，转变成稳定性更好，更直观的SCAR标记，这为挑选性状优良的日本及杂交构树提供重要的参考，对其育种有一定的指导意义。其中一条片段经与NCBI数据库比对发现与拟南芥磺基转移酶家族基因具有较高的同源性。

紫薇种质资源的研究

本文回顾了紫薇在国内外的栽培历史。在中国，紫薇的栽培虽历史悠久，但种质资源缺少系统的研究。本研究通过宏观与微观的技术和方法，探索紫薇种间及品种间的演化关系，并为今后开展种质鉴定、 品种分类以及有计划、有目的的进行新品种的培育提供依据，以期达到紫薇种质资源多样性保护的目的。主要的结果及结论： 1．认为紫薇栽培的历史是紫薇不同种质进行组合和渗透的历史，也在一定程度上反映了品种演化的历史。并提出除了抗病、矮型紫薇的育种外，还要重视重瓣紫薇的育种。 2．通过对紫薇的形态学性状进行聚类分析，寻找到了评价紫薇种质资源的标准，进而提出栽培观赏植物种质资源的评价标准， 即将其性状分为种源性状和观赏性状，这种对观赏植物性状的分解反映了栽培植物不同于野生植物的特点。同时，对其形态学性状进行主分量分析表明，花色与其它营养器官性状相关性不大，很难从其营养器官性状推测花的颜色。 3．通过对紫薇的分子生物学研究，建立了紫薇的DNA提取流程及RAPD扩增体系，利用RAPD标记可以进行紫薇种质的鉴定及探求不同种质间的关系。 4．综合形态学及分子生物学的结论，建立了紫薇种质资源的划分体系，在此基础上，建成了种质资源圃及紫薇种质资源数据库。

小麦—偏凸山羊草6Mv/6B代换系的研究

小麦条锈病（Puccinia striiformis f. sp. tritici）是世界性小麦病害，可导致受害小麦减产30%以上，甚至绝收。小麦条锈病在我国西南、华北麦区危害严重，四川麦区是小麦条锈病发病最重的地区之一，每年因条锈病流行造成小麦产量损失巨大。利用抗条锈病品种是控制该病害最安全、经济的有效途径，因此挖掘利用抗病新基因，开展抗病遗传基础研究是当前育种工作中面临的重要任务。 偏凸山羊草（Aegilops ventricosa，DDMvMv，2n=28）是一年生草本植物，起源于地中海西部沿岸地区，具有对小麦白粉病、锈病等高抗或免疫、耐盐、抗寒、蛋白质含量高等优良性状，是小麦遗传育种很好的种质资源。本研究以高抗条锈病的小麦—偏凸山羊草6Mv/6B代换系（Moisson 6Mv/6B）为材料，对其含有的带条锈病抗性基因的偏凸山羊草6Mv染色体在四川小麦背景中的传递情况、与小麦—簇毛麦双端体附加系所具有的白粉病抗性的聚合以及对Moisson 6Mv/6B进行电离辐射诱变筛选抗条锈病的小麦—偏凸山羊草易位系三个方面进行了研究。取得的主要研究结果如下： 1. Moisson 6Mv/6B与高感条锈病的四川地区普通小麦品种绵阳26、绵阳93-124和SW3243的杂种F1与其普通小麦亲本分别作为父、母本回交，通过对其BC1和F2的结实率、根尖细胞有丝分裂中期染色体的观察以及对条锈病抗性的鉴定，发现含6Mv染色体的F1植株作母本时的回交结实率（83.10%）普遍高于含6Mv染色体的F1植株作父本（48.61%），结实率与普通小麦基因型密切相关（χ2=34.15>>χ20.05=5.99（df=2））；6Mv染色体在三种四川小麦中通过雌、雄配子传递的传递方式与其传递率间没有显著相关性，其传递率与普通小麦基因型呈显著相关性（χ2=6.42>χ20.05=5.99（df=2））。 2. Moisson 6Mv/6B与高抗白粉病的小麦—簇毛麦双端体附加系Pana（2n=42+2t）正反杂交，希望在聚合两者抗性的同时观察不同受体背景下的抗性反应。对Moisson 6Mv/6B和Pana正反杂交的结实率、杂交后代的农艺性状进行观察，并对杂交后代进行基因组荧光原位杂交（GISH）分析及条锈病和白粉病的抗性鉴定。结果表明Moisson 6Mv/6B作母本时杂交结实率（80.56%）高于Pana作母本时（58.33%），结实率与杂交方式间紧密相关（χ2=4.96>χ20.05=3.84（df=1））；Moisson 6Mv/6B和Pana杂交后代株高比最高亲本高约10cm，成熟期也较两亲本提前两个星期左右；正反杂交后代中具有偏凸山羊草6Mv染色体的植株具有条锈病抗性，具有簇毛麦端体的植株具有白粉病抗性，同时筛选到4株含有偏凸山羊草和簇毛麦遗传物质并对条锈病和白粉病兼抗的材料，证明来自偏凸山羊草6Mv染色体的条锈病抗性与来自簇毛麦端体的白粉病抗性已经聚合在一起，且没有产生相互抑制的作用，暗示通过这两个抗性基因的聚合是完全能获得兼抗条锈病和白粉病的小麦新种质。 3. 对Moisson 6Mv/6B在减数分裂时期的成株进行总剂量为6Gy、辐射频率为120rad/min的60Co-γ射线辐射，对辐射植株自交后代进行农艺性状及根尖细胞有丝分裂中期染色体形态观察和条锈病抗性鉴定。结果为辐射植株自交结实率为2.22%，根尖细胞有丝分裂中期的染色体存在明显碎片，辐射自交后代植株对条锈病具有成株期抗性。 小麦—偏凸山羊草6Mv/6B代换系对条锈病抗性稳定，是培育条锈病抗性品种的良好供体。本研究证明在四川小麦背景中要利用该品种抗性，在结实数满足需要时，可将其作父本，亦可作母本，但关键是要选择好一个优良的受体基因型；同时其条锈病抗性与来自簇毛麦的白粉病抗性没有相互抑制作用，可将两者抗性有效聚合用于小麦育种中。 Wheat stripe rust (Puccinia striiformis f. sp. Tritici) is a worldwide disease of wheat, and could lead to victims of 30 percent or even total destruction of wheat production. Wheat stripe rust harms badly in China's southwest and North China. Sichuan province is one of the regions damaged by wheat stripe rust heavily. The use of resistant varieties is the most secure and economical way to control the wheat stripe rust. Therefore, it is essential to identify new disease-resistant genes and genetically research of disease resistance. Aegilops ventricosa (DDMvMv, 2n = 28) is an annual herbaceous plant, originating in the coastal areas of the western Mediterranean, with good characters such as resistance of wheat powdery, rust, salt, cold and high protein content. It is a good germplasm resource. In this study, the wheat- Aegilops ventricosa 6Mv/6B substitution line Moisson 6Mv/6B (highly resistant to the wheat stripe rust) was used to study on the transmission of chromosome 6Mv of Aegilops ventricosa in different genetic background of Sichuan wheat varieties, hybridization with wheat- Haynaldia villosa ditelosomic addition line Pana (highly resistant to the powdery mildew) and screening of wheat- Aegilops ventricosa translocation line by exposuring Moisson 6Mv/6B under ionizing radiation. The main results are as following: 1. Moisson 6Mv/6B was crossed with Sichuan wheat varieties mianyang26, mianyang93-124 and SW3243 (highly susceptible to stripe rust), respectively. Their F1 hybrids were further backcrossed as male and female to corresponding wheat varieties. The seed-setting rate, chromosomes confirmation in the mitotic metaphase of root tip cells, and resistance to stripe rust of the subsequent BC1 and F2 plants were investigated. The average seed-setting rate of backcross via 6Mv as female donor (83.10%) was higher than that of backcross via 6Mv as male donor (48.61%), suggesting that the seed-setting rate was associated with the wheat genotypes（χ2=34.15>>χ20.05=5.99（df=2））. In all analyzed populations, transmission frequencies of chromosome 6Mv were not correlated with the ways of 6Mv through male or through female. However, transmission frequencies of chromosome 6Mv were significantly correlated with Sichuan wheat genotypes（χ2=6.42>χ20.05=5.99（df=2））. 2. To aggregating the resistances to stripe rust and powdery mildew, as well as research on the resistance reactions in different genetic background, Moisson 6Mv/6B was reciprocally hybrided with the wheat- Haynaldia villosa ditelosomic addition line Pana (highly resistant to the powdery mildew). The seed-setting rate, agronomic characters, genomic in situ hybridization (GISH) of hybrid progenies，and resistances to stripe rust and powdery mildew were investigated. The results showed that the seed-setting rate of hybridization via Moisson 6Mv/6B as female donor (80.56%) was significant higher than that via Pana as female donor (58.33%). The seed-setting rate was associated with the hybrid methods (χ2 = 4.96> χ20.05 = 3.84 (df = 1)). The plant height of hybrid progenies was about 10 cm higher than Pana, the parent with maximum height. And the maturity of hybrid progenies was about two weeks earlier than that of the parents. In the hybrid progenies, the plants with the 6Mv chromosome have the resistance to stripe rust and the plants with the telosome from Haynaldia villosa have the resistance to powdery mildew. It was found that four plants with both the 6Mv chromosome and the telosome from Haynaldia villosa were resistant to stripe rust and powdery mildew. It indicated that the resistance to stripe rust and powdery mildew aggregated, and no mutual inhibition was found. It implied that the aggregation of the two resistance genes was able to provide the new wheat germplasm with the resistances to stripe rust and powdery mildew. 3. Moisson 6Mv/6B was irradiated with 60Co-γ rays of 6Gy (120rad/min) during meiosis. The agronomic characters and chromosomes confirmation in the mitotic metaphase of root tip cells，as well as resistance to stripe rust were investigated. The seed-setting rate of irradiated plants was only 2.22%. The chromosomes in mitotic metaphase had clear fragments. The resistance to stripe rust of progeny of irradiated plants was the adult-plant resistance. The wheat- Aegilops ventricosa 6Mv/6B substitution line is a good stripe rust resistance donor for its stabile resistance. Our study demonstrated that the key for use the resistance is to choose a good receptor. There is no difference between Moisson 6Mv/6B be the female and be the male if the seed number meets the requirement. At the same time, the stripe rust resistance of Moisson 6Mv/6B did not have the mutual inhibition with the powdery mildew resistance from Haynaldia villosa. It is able to aggregate the two resistances for wheat breeding.