Genetic Diversity of Testa Pigments and RAPD Marker of Yellow-Seeded Rapeseed (Brassica napus L.)

14 yellow-seeded rapeseed lines (Brassia napus L.) from different genetic sources were used to analyze diversity of testa pigments content, oil and protein content, and RAPD markers. The results showed that the anthocyanin and melanin were the most important pigments in testa and their content were responsible for the variation in seed color ranging from orange to black yellow, 14 yellow-seeded lines could be classified into 3 groups: high anthocyanin content group with anthocyanin content over 2. 54 mg g-1 DW, the seed color was light yellow or orange; low pigments content group with low content of anthocyanin and melanin, the testa was transparent and the seed color was light yellow, greenish yellow or twany; high melanin content group with melanin content over 178. 4U(A290nm) , the testa was black, the seed color was black yellow. Oil content changed from 36.2% to 45. 5%, protein content from 21.1% to 27.7% , and the correlation analysis revealed that the oil content is highly significantly negatively correlated with the protein content. The cluster analysis showed that the extensive genetic variation existed among 14 yellow-seeded lines by using unweighted paired group method with arithmetic average (UPGMA) based on RAPD markers which were amplified with decamer primers, the genetic similarity among them ranged from 0. 25 to 0.909, and 14 yellow-seeded lines could put into 2 clusters corresponding to genome difference.

Genetic Diversity Analysis of the Main Commercial Varieties of Brassica napus in Guizhou Province

[Objective] The aim was to investigate the genetic diversity of the main commercial varieties of Brassica napus in Guizhou Province at the molecular level. [Method] Nine main commercial rapeseed cultivars in Guizhou were detected by 40 pairs of SSR primers used in the national regional trial of B. napus, and then clus-tering analysis was carried out. [Result] A total of 191 bands were amplified, and 143 （accounting for 75%） of them showed polymorphism among the nine rapeseed cultivars. By cluster analysis, the nine cultivars were divided into two groups. Group A included seven varieties, and group B consisted of two cultivars from Guizhou In-stitute of Oil Crops. The cultivars in group A were further divided into sub-groups A1 and A2 at the similarity coefficient of 0.643 4. Sub-group A1 included three culti-vars from Guizhou Rapeseed Institute, and sub-group A2 included the other four cultivars from Guizhou Institute of Oil Crops. [Conclusion] The cultivars bred by the same institute had similar genetic background. The cultivars from Guizhou Institute of Oil Crops showed wider genetic basis. However, the genetic similarity coefficient between Qianyou 17 and Qianyou 29 was up to 0.87, suggesting that they shared closer genetic basis.

Genetic Diversity of Chinese and Swedish Rapeseed (Brassica napus L.) Analyzed by Inter-Simple Sequence Repeats (ISSRs)

We have compared genetic diversity of 24 Chinese weak-winter, Swedish winter and spring B. napus accessions by inter-simple sequence repeats (ISSRs). By cluster analysis (UPGMA) based on 125 polymorphism bands amplified with 20 primers, the 24 accessions were divided into three groups. Six Swedish winter lines and eight Chinese weak-winter lines were in the group I and the groupⅡwere two Chinese weak-winter lines XiangyoulS and Bao81. The third group contained eight Swedish spring lines. Principal co-ordinates analysis (PCO) showed similar groupings to cluster analysis. Results from cluster analysis and PCO analysis showed very clearly that Chinese weak-winter, Swedish spring and winter accessions were distinguished from each other and Chinese weak-winter accessions in this study were genetically closer to Swedish winter accessions than to Swedish spring accessions. The Chinese weak-winter accessions had larger diversity than Swedish spring or winter accessions did. This study indicated that ISSR is a suitable and effective tool to evaluate genetic diversity among rapeseed germplasm.

Relationship Between Hybrid Performance and Genetic Diversity Based on SSRs and ISSRs in Brassica napus L.

To investigate the relationship between genetic distance (GD) and hybrid performance, two types of molecular markers, microsatellites (simple sequence repeats, SSRs) and intro-simple sequence repeats (ISSRs), were employed to detect the genetic diversity of 3 double low self-incompatible lines and 22 male parental varieties of Brassica napus from different geographical origins. Hybrids were produced in a NCⅡ mating design by hand-pollination. The result indicated that 25 parental varieties (lines) could be divided into six groups by Un-weighted Pair Group Mathematics Average (UPGMA) clustering based on GDs. SI-1300 and SI-1320 could be singly clustered into one group, respectively. Varieties from China could be separated into another group, SI-1310 and varieties from foreign countries could be separated into other three groups. The grouping was generally consistent with parental pedigrees and geographical origins. Significant differences in yield, quality and phenological period traits were observed among these parent groups. Although hybrid yield/plant showed significantly positive correlation with genetic distance based on SSR and ISSR markers, but the determination coefficient was low. It appeared to be unsuitable for using the genetic distance based on SSR and ISSR markers to predict heterosis and hybrid performance in Brassica napus.

EST-SSR和RAPD标记检测油菜(Brassica napus)遗传多样性

亲本选配是杂种优势利用中强优势组合配制的关键环节，遗传距离决定优势强弱。本文采用EST—SSR和RAPD两种分子标记技术检测甘蓝型油菜4份不育系、3份保持系、10份恢复系和11份常规品种共35个材料的遗传多样性及与杂种优势的关系。结果共检测到399个等位位点，其中130个等位变异，占总检测位点的32．57％。NTSYS软件聚类分析结果表明：35份材料遗传距离范围为0．0280～0．2801，在遗传距离（GD）0．1401下分为6类，3个不育系Ogu、Polima和陕2A聚在第V类，Xin1 CMS（新1号不育系）遗传距离较远；不育系之间的遗传差异比不育系与保持系、恢复系及常规品种之间小，基本反映了品种（系）的遗传基础和系谱来源。

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。

RAPDs和RFLPs分析甘蓝型杂交油菜亲本的遗传多样性

利用RAPD和RFLP分子标记技术对甘蓝型杂交油菜亲本遗传多样性的分析结果表明 :(1) 2 0个亲本间具有丰富的遗传多样性 ,4 0个引物扩增出 2 77条多态性带 ,其中 2 1条带为 10个亲本所特有 ,12个探针得到了 117条多态性杂交带 ,其中 7条带为 5个亲本所特有 ;(2 )不育系与恢复系之间的遗传差异大于不育系内和恢复系内的遗传差异 ;(3)依RAPDs与RFLPs估计的亲本遗传多样性存在有一定的差异 ,这种差异由估计时所用多态性带的数目不同而引起 ;(4)NJT聚类方法将 2 0份亲本分为 3组 :不育系组、恢复系组和混合组。杂交种“秦油 2号”和“华杂 3号”的双亲都被聚在不同的组内。

甘蓝型黄籽油菜RAPD和种皮色素遗传多样性

以不同遗传背景的 14个甘蓝型黄籽油菜为材料 ,通过分析种皮内色素的种类、色素含量、蛋白质与含油量、RAPD标记等 ,研究了甘蓝型黄籽油菜资源的遗传多样性。结果表明 ,影响种皮色泽的色素主要为黑色素和花色素 ,根据其含量的不同 ,可分为高花色素类、高黑色素类和低色素类等 3个类群。其中 ,高花色素类的种子种皮花色素含量 >2 .5 4mg·g-1DW ,种子呈纯黄或橙黄色 ;高黑色素类种子的种皮色素含量 >178.4U(A2 90mm) ,种皮呈浅黑色 ,种子颜色为黑黄色 ;低色素类种子种皮的黑色素和花色素含量均较低 ,种皮半透明 ,种子部分因显现出胚的颜色而呈纯黄、绿黄或褐黄色。种子含油量为 36 .2 %～ 45 .5 %,蛋白质含量达 2 1.1%～ 2 7.7%,二者呈极显著负相关。对RAPD扩增结果进行UPGMA分析 ,发现甘蓝型黄籽油菜DNA存在着丰富的多态性 ,遗传相似系数为0 .2 5～ 0 .90 9,14个甘蓝型黄籽油菜材料可被划分为 2个类群。

我国部分白菜型油菜RAPD的研究

本研究用ＲＡＰＤ技术和统计学方法，对以湖南和湖北省油菜为主的３４个白菜型油菜品种的遗传多样性进行了分析。根据离差平方和，用Ｗａｒｄ’ｓ聚类方法进行聚类。结果表明：白菜型油菜的遗传变异与生态地理分布有密切的关系；湖南和湖北两省的白菜型油菜品种存在广泛的遗传变异；在ＤＮＡ水平上可将所分析的３４个品种分成８个类群。作者对研究结果在遗传育种中的应用进行了讨论。

恢复系和保持系RAPD分子标记与甘蓝型油菜杂种优势关系的研究

以6个甘蓝型油菜不育系及其同型保持系、5个恢复系及不育系同恢复系按NC (6×5)设计配成的30个杂交组合为材料,利用RAPD分子标记研究油菜遗传距离与杂种产量、杂种产量优势、特殊配合力的关系。结果表明:23个RAPD引物在6个保持系和5个恢复系间共扩增出89条多态性条带,据此计算出亲本间的相似系数为0.2706～0.6164。聚类分析将参试的6个保持系和5个恢复系分为4组,第1组包括6个保持系和1个恢复系C5,第2组包括C1和C42个恢复系,第3组包括1个恢复系C2,第4组包括1个恢复系C3,亲本分组结果与其地理来源关系不大;方差分析表明,组合间产量差异达极显著水平。特殊配合力与产量、产量杂种优势的相关关系达显著水平,但亲本遗传距离与杂种产量、产量杂种优势、特殊配合力的相关关系都未达显著水平,表明不能根据亲本RAPD遗传距离的大小预测杂种产量及产量杂种优势。

甘蓝型油菜种质资源遗传多样性的RAPD分析

为了研究甘蓝型油菜种质资源的多态性,对来自我国19个省市和国外8个油菜主产国的104份不同类型、不同性状的甘蓝型油菜种质资源进行了RAPD分析,在300条随机引物中筛选出条带清晰、多态性丰富、表现稳定的引物40条,在此基础上共扩增出DNA片段288条,其中具多态性的252条,多态率87.5%,每引物平均多态位点6.3个。采用非加权类平均法(UPGMA)对统计数据进行聚类分析,当遗传距离为0.3时,可将104份材料分为8大类,其中最大遗传距离0.646 7,最小0.072 9,表明来自不同国家、地区的各类种质资源间具有丰富的遗传多样性,聚类结果与材料的来源具有高度的相关性和对应性。研究结果表明目前甘蓝型油菜育种资源间材料的遗传关系已明显的表现出遗传多样、基因融合、区域弱化的复杂状态。

长江中、下游地区白菜型油菜遗传多样性RAPD分析及其与农艺性状的相关性

利用RAPD方法和统计学分析方法对代表我国长江中、下游地区的浙江省和湖北省89份白菜型油菜地方品种进行了遗传多样性及其相关性研究。从农艺性状的聚类分析将两省品种划分为独立的两大类群。RAPD指纹图谱以DNA分子水平的聚类分析可以将89份白菜型油菜品种分为2类群和2个簇及3个亚簇,进一步反映品种间亲缘关系,表明地方品种间具有非常丰富的遗传多样性。

甘蓝型油菜核不育基因的RAPD标记

用 Operon公司 OPA-0 1～ OPJ-2 0 2 0 0个 1 0碱基对随机序列引物对甘蓝型油菜隐性核不育株涪优A和可育株涪优 B、显性核不育株 3 7A和可育株 3 7B、广恢系 DGCR98-3 752、RGCR97-1及 F1 材料基因组DNA进行 RAPD扩增 ,共获得 1 3 3 4条扩增带 ,平均每引物扩增带约 6.7条 ,表明甘蓝型油菜存在遗传多样性。引物 OPA-0 5、OPA-0 9、OPA-1 2、OPA-1 3、OPA-2 0等分别扩增出了大小不同的多态性带 ,初步认为 OPA-1 2 75 0 、OPA-1 2 6 0 0 、OPA-1 2 5 0 0 是与 3 7A不育基因有关的带 ,OPA-0 9330 是与涪优 A不育基因有关的带 ;OPA-1 3 70 0 是与 3 7A不育恢复基因有关的带 ,OPA-2 0 5 0 0 、OPA-2 0 45 0 、OPA-2 0 35 0 是与涪优

甘蓝型油菜核不育材料育性基因的RAPD标记

通过BSA法,对甘蓝型油菜核不育材料S45A的育性基因进行分子标记,在980个随机引物中,找到了与可育基因连锁的2个RAPD标记UBC158-600、UBC187-600,其遗传图距分别为9.564cM(LOD,21.495)、17.700cM(LOD,13.244)。

芥菜16个变种的RAPD研究

利用ＲＡＰＤ技术对芥菜（ＢｒａｓｉｃａｊｕｎｃｅａＣｏｓ．）１６个变种的遗传变异进行研究。从６０个随机引物中筛选出２７个有效引物，共扩增出３３６条ＤＮＡ带，其中２７５条为多态性带，占８１８５％，平均每个引物扩增的ＤＮＡ带数为１２４４条。利用１９个有效引物扩增的２４０条ＤＮＡ带对芥菜１６个变种间的亲缘关系进行ＵＰＧＡ聚类分析，计算出１６个变种间的平均遗传距离为７３４，在此基础上建立了中国菜用芥菜１６个变种的ＤＮＡ分子系统树图。该系统将芥菜的１６个变种划归Ａ、Ｂ、Ｃ三个组，其中Ａ组７个变种，Ｂ组８个变种，Ｃ组只有１个变种，Ｂ组又可细分为两个亚组。对芥菜遗传多样性的分子基础进行了探讨。

用RAPD标记分析中国和捷克甘蓝型油菜的遗传多样性

中国和捷克等 5 0个甘蓝型油菜品种 (系 )的RAPD分析结果表明 ,10个随机引物共扩增出 79条多态带 ,Hamman遗传距离及聚类分析结果与材料的地理起源和系谱关系一致。根据遗传差异将参试材料分为三大组 ,即中国材料组、捷克材料组和中捷材料组。中国材料与捷克材料之间遗传差异最大 ,以中国和捷克交换甘蓝型材料为育种亲本 。

利用RAPD标记研究中国芥菜型油菜遗传多样性

利用RAPD标记，对以我国西北和西南为主的68个芥莱型油菜地方品种和4个加拿大引进品种（系）的遗传多样性进行了研究。通过31个随机引物的RAPD分析，表明选用的72个品种（系）间存在广泛的遗传变异，多态性位点比率达85．31％。经UPGMA聚类分析将它们划分为6大类群，从聚类图可得如下结论：（1）地理差异和生态环境对遗传差异有重要影响，即来自同一省份的品种基本上聚在同一类群中。（2）我国冬播和春播芥菜型油菜在遗传上有较大差异，且冬播油莱的遗传多样性比春播油菜更为丰富。（3）长江中下游湖北、江苏两地品种与贵州地方品种亲缘关系密切。（4）陕西芮城地方品种与众不同，自成一类；而中原地区河南省的品种和陕西其它地方品种亲缘关系较近。（5）地处华北的山西省春油菜与西北的甘肃春油菜品种亲缘关系很近，而与新疆着油菜亲缘关系较远。（6）目前加拿大芥菜型油菜育种中的部分种质资源主要引自印度，近十年来又向我国引种，因而它们可能具有我国西北地方品种的亲缘关系，这也许就是它们与新疆品种亲缘关系较近的原因所在。

26份贵州省芥菜型油菜地方品种遗传多样性的RAPD分析

采用RAPD标记,对26份贵州省芥菜型油菜地方品种的遗传多样性进行了分析。16条RAPD随机引物共扩增出148条带,其中85条带具有多态性,多态率达57%。通过UPMGA法建立了贵州省26份芥菜型油菜的亲缘关系聚类图,在遗传距离0.30740上,26份材料分为Ⅰ、Ⅱ两个类群,第Ⅰ类群2个品种,第Ⅱ类群24个品种;在遗传距离0.903 37上,第Ⅱ类群划分为3个亚簇ⅡA、ⅡB、ⅡC,亚簇ⅡA有1个品种,亚簇ⅡB有6个品种,亚簇ⅡC有17个品种。万山苦油菜和镇远苦油菜之间的遗传距离最小,为0.441 68,亲缘关系最近。结果表明,贵州芥菜型油菜资源间差异明显,具有丰富的遗传多样性。

福建笋子芥种质资源遗传多样性的RAPD分析

从200个随机引物中筛选出10个引物,对11份笋子芥材料进行RAPD分析,并对笋子芥遗传多样性和分类进行研究.结果表明:10个引物共扩增出93个位点,其中多态性谱带65条,多态性程度为69.9%;平均每个引物产生9.3条多态性谱带,每个引物可扩增出7-13条,谱带大小为100-2000 bp.聚类分析结果表明,遗传距离为0.38时,11份笋子芥可聚成四大类群.

芥菜遗传多样性的RAPD分析(英文)

随机扩增多态性DNA (RAPD)是一种新的分子标记技术 利用RAPD标记对芥菜 (BrassicajunceaCoss .) 16个变种的遗传多样性进行了分析 从 60个 10bp随机引物中筛选出 2 7个有效引物 这 2 7个有效引物共扩增出 336条DNA带 ,其中 2 75条为多态性带 ,占总数的 81 85% 平均每个引物扩增出的DNA带数为 12 4 4 不同引物扩增出各自不同的DNA指纹图谱 ,大部分图谱均有特征或特征带型 芥菜的RAPD多态性百分率和平均每个引物扩增的DNA带数均明显高于已研究的其它物种 。