应用RAPD标记进行茶树优异种质遗传多态性、亲缘关系分析与分子鉴别

采用RAPD分子标记技术,对茶树优异种质资源的遗传多态性、亲缘关系和分子鉴别进行了研究。结果表明,20个引物在15份优异资源中得到1050个RAPD位点,平均52．5个位点／引物,70个位点／资源。在所获得的137条可重现谱带中,8条是单态的,129条是多态的,多态性程度达94．2％;引物的多态性相对频度为0．24～0．83,总平均为0．47;遗传距离在0．16～0．62之间,平均为0．37,这可能与我国是茶树的原产地和起源中心有密切关系。RAPD数据的类平均法聚类结果显示,15份资源可划分为3个类群,从相似性系数讨论了资源间的亲缘关系。应用12个引物产生的20个特异标记的存在和11个特异的缺失,可以鉴别所有15份优异茶树种质资源。RAPD可以作为茶树优异种质资源遗传多态性、系统演化和分子鉴别研究的有效手段之一。     

Development of new markers to genotype the functional SNPs of SSIIa, a gene responsible for gelatinization temperature of rice starch

Gelatinization temperature (GT) is an important quality predictor that determines the cooking quality of rice. GT is genetically controlled by the starch synthase IIa (SSIIa) gene. Two functional single nucleotide polymorphisms (SNPs) inside the SSIIa have already been found to be responsible for the variation of GT. One of these, GC/TT SNP at 4329/4330 bp, could be genotyped by four primers in a single PCR ( Bao et al., 2006a), but another one, G/A SNP at 4198 bp, has not been detected by a PCR-based marker. Here, we developed cleaved amplified polymorphic sequence (CAPS) and derived cleaved amplified polymorphic sequence (dCAPS) markers to detect these SNPs. A dCAPS marker that the PCR products were cleaved by the BseR I restriction endonuclease was designed to detect GC/TT SNP. Both CAPS and dCAPS markers were designed to detect G/A SNP using the restriction endonuclease Nla III and Tsp45 I, respectively. All the markers developed were co-dominant. It was known that the A allele of G/A SNP was rare among rice germplasm, but it was still in use by rice breeders. 11 rice accessions including landrace and breeding lines with A allele of G/A SNP were detected. The F₂ individuals from two crosses were used to analyze the co-segregation between the SNP alleles and the GT. The segregation ratio of two SNPs did not conform to the expected Mendelian ratio of 1:2:1, but the SNPs were co-segregated with GT. The markers developed in the present study would be useful in molecular breeding for the improvement of the quality of rice grain.     

AFLP技术及其在植物和病原真菌研究中的应用

综述了AFLP分子标记技术的基本原理、方法及其在植物和病原真菌研究中的应用现状,并探讨了其中存在的一些问题。     

黄鳝线粒体DNA的提取及其酶切分析

用碱裂解法从黄鳝肝脏组织中提取线粒体DNA,并对提取的线粒体DNA纯度、完整性进行了检测.结果表明,其紫外吸收比值为OD26/280在1.72～1.96之间,纯度较高,琼脂糖凝胶电泳表明提取线粒体的完整性好;用EcoR Ⅰ和HindⅢ对黄鳝线粒体DNA进行酶切,用琼脂糖凝胶电泳检测,均能检测出两套不同的酶切片段,证明黄鳝线粒体DNA存在多态性.     

基于简化基因组测序技术的甘薯HRM分子标记开发及其应用

目前甘薯中针对SNP位点的分子标记开发及应用的报道较少。为开发甘薯特异SNP分子标记,本研究利用简化基因组测序技术对甘薯种质材料进行测序,筛选稳定的SNP位点,将其开发为基于HRM技术的分子标记,并在甘薯种质材料中进行验证。通过对23个甘薯种质材料简化基因组测序数据的分析,共发现835 756个SNP多态性位点,筛选其中的3 650个含有SNP多态性位点的高质量测序片段,成功设计了134对引物;初步验证发现,22对(16.42%)引物没有扩增产物,15对(11.19%)引物扩增产物2个以上,36对(26.87%)引物的扩增产物没有差异。61对(45.52%)引物在8个样本中的扩增特异性好,而且样本之间有差异。最后筛选34对扩增多态性丰富的引物对52份甘薯种质材料进行扫描,发现材料间多态性介于27.27%~90.91%之间,平均多态性达到59.35%。聚类分析表明,参试52份甘薯种质材料之间的差异较小,多数材料与骨干亲本南瑞苕、徐薯18之间关系较近,国外引进甘薯材料和地方品种差异较大。建议在今后甘薯育种中尽量选用地方品种和国外甘薯品种,从而更好地拓宽甘薯遗传背景。本研究初步建立了基于简化基因组技术和HRM技术开发甘薯SNP分子标记的新思路,为今后甘薯SNP分子标记开发提供了参考。同时本研究开发的甘薯分子标记,丰富了甘薯分子标记类型,为甘薯研究者开展快速的分子标记研究提供了支持。     

Isozyme polymorphism in Festuca rubraL.

Summary Six Festuca rubra populations from Europe and Scandinavia were studied for variation at three isozyme loci; phosphoglucoisomerase (PGI-2), glutamate oxaloacetate transaminase (GOT-3) and superoxide dismutase (SOD-1). Seven alleles were found at the Pgi-2 locus, four at the Got-3 locus and five at the Sod-1 locus. Most plants were heterozygous and up to five alleles were found in the same plant at the Pgi-2 locus. Each population could be distinguished by the presence or absence of certain alleles or by differences in the frequencies of the alleles present. Values for the Shannon diversity index were calculated which showed that there was considerable heterogeneity both within and between loci. In general, 53% of this diversity could be attributed to within population variation.     

水稻籼粳特异性RFLP标记及广亲和品种亲缘关系分析

 应用160个RFLP标记分析了21个水稻广亲和品种6个籼粳测验种，发现其中68个标记可以区分籼粳测验种。21个广亲和品种根据与籼粳测验和共有片段比率的大小 可以分为籼，粳和籼粳中间型三类。68个标记在15个籼粳品种中进一步筛选，得到24个籼粳特异性RFLP标记。它们在亚种内杂交带型相同而亚种产不一样。其中RG358、G318为籼稻专一性探针，在粳稻中表现为零等位。以此24个探针为基础构建了广亲和品品种亲缘关系的树状图。讨论了籼粳特异性RFLP标记在水稻遗传育种实践中的应用。     

氨胁迫对猪粪厌氧消化性能的影响

以猪粪为原料,采用批式试验方法,研究不同氨氮添加量(0、400、800、1600、2400、3200、4000 mg·L^-1)对厌氧消化产气效果的影响.结果表明:随着氨氮添加量的增加,总产气量和CH₄产率均呈现先升高后降低的变化趋势,氨氮添加量 ≥2400 mg·L^-1时,厌氧消化过程受到显著抑制;不同处理中猪粪挥发性固体(VS)的CH₄产率分别为328.5、338.1、323.2、304.9、276.2、124.9、56.1 mL·g^-1.氨氮添加量为0~800 mg·L^-1时,最大VS产CH₄速率分别为18.3、18.4、17.1 mL·g^-1·d^-1;氨氮添加量为2400 mg·L^-1时,产气高峰推迟,产CH₄速率明显降低;氨氮添加量 ≥400 mg·L^-1时,厌氧消化30 d底物的生物转化产CH₄效率随氨氮添加量的增加逐渐降低,分别为56.7%、54.5%、52.4%、30.6%、1.6%和1.3%;氨氮添加量为400~2400 mg·L^-1时,乙酸利用型产甲烷菌Methanosaeta的相对丰度总体随氨氮质量浓度的增加而降低,而氢利用型产甲烷菌Methanosarcina和Methanococcus具有相反的变化规律.     

我国紫薇属植物AFLP分子标记体系的优化

以采自广西、云南和河南等地的紫薇属Lagerstroemia植物紫薇L.indica,南紫薇L.subcostata,福建紫薇L.limii和桂林紫薇L.guilinensis叶片为材料,利用改良CTAB（十六烷基三甲基溴化铵）法提取叶片基因组DNA,获得了高质量的紫薇叶片DNA,并以其基因组DNA为模板进行了酶切连接,利用酶切连接的产物稀释一定倍数作为预扩增的模板,最后以稀释一定倍数的预扩增产物进行选择性扩增,进行紫薇和南紫薇的AFLP（扩增片段长度多态性）银染反应体系的优化。AFLP体系中每一步反应都设置了不同的反应体系,采用了160对引物作为初选引物,筛选出了10对适合紫薇基因组扩增的引物。结果表明,适宜紫薇基因组扩增的最佳酶切、预扩增和选择性扩增体系为：酶切连接体系1;预扩体系3;选扩体系3,反应体系中Mg2＋质量浓度为1.2×10-6kg.L-1时扩增效果较好。     

Using of AFLP Marker to Predict the Hybrid Yield and Yield Heterosis in Rice

利用AFLP分子标记对46个水稻品种进行遗传多样性分析,继而研究分子标记遗传距离与按照NC设计获得的195个杂交组合的产量及特殊配合力的相关性,探讨预测杂种优势的可能性。结果表明:(1)通过UPGMA聚类分析(图3),可将供试材料分为16个类群,并把来源不明的品种(系)划分到相应类群中,从而对这些材料进行初步鉴定。可见,AFLP分子标记是检测类内品种间遗传差异的有效方法,为水稻品种(系)亲本选配提供理论依据。(2)分子标记遗传距离与杂种产量优势、F1产量、特殊配合力之间都呈显著正相关,相关系数介于0.3235-0.7713之间。但相关程度还不足以预测杂种优势。增效座位和减效座位以及使用与杂种优势有关的QTL连锁标记位点可能提高杂种优势的预测能力,但最终解决,将依赖于杂种优势遗传机理的研究。