Morphological differences among Raphanus raphanistrum populations and their relationship to related crops

Wild radish (Raphanus raphanistrum) has developed introgressed populations after hybridization with its cultivated counterpart (R. sativus) in California. Hybridization with various Brassica and Sinapis species is also possible. To determine if hybridization is responsible of the genetic diversity of European populations, six wild radish populations with distinct morphological traits were sampled from geographically distant regions in Europe. Plants were cultivated in an oilseed rape field and in insect‐proof cages. Silique and flower morphology, growth, and reproductive traits were measured. The wild radish populations could be discriminated by the morphological traits, but not related to geographic regions. In particular, populations of one region showed wide variability in terms of silique shape and growth behaviour, and small‐sized flowers. Although the origin of morphological diversity in wild radish is unclear, i.e. native or due to gene flow from the cultivated radish or other Brassicaceae, significant morphological divergence was found that could have relevant effects on plant ecology and adaptation.     

酸枣叶保健饼干的研制

以低筋面粉为主要原料,添加不同量的酸枣叶粉、绵白糖、鸡蛋,设置不同的烘烤温度及烘烤时间,以感官品质评价为指标,采用单因素试验和正交试验相结合的方法确定酸枣叶保健饼干最佳工艺条件。结果表明,酸枣叶饼干最优工艺为：低筋面粉100 g,酸枣叶粉3 g,绵白糖35 g,鸡蛋50 g,碳酸氢钠0.8 g,泡打粉2 g,淀粉3 g,烘烤温度为145 ℃,烘烤时间为17 min,所烘烤的饼干具有良好的感官品质,色泽均匀,有酸枣叶独特的风味,甜度适中,质地细腻。     

‘冬枣’的五个自然变异材料评价

以‘冬枣’及其5个自然变异材料为试材,对其果实形态、果实营养、物候期、染色体倍性以及DNA指纹进行了比较分析,以期筛选出综合性状优异的‘冬枣’变异类型。结果表明:与普通‘冬枣’相比,变异1号材料为大果型,其单果质量显著增加,为25.22g,果实可溶性糖含量和糖酸比提高。在物候期上,变异1号和2号材料与‘冬枣’表现相近,但其它3个变异材料的果实成熟期比‘冬枣’晚约15d。流式细胞仪分析显示5个自然变异材料均为二倍体,15对SSR引物检测表明5个自然变异材料与‘冬枣’基因组DNA的SSR指纹相同,可能均为‘冬枣’的自然芽变。评价结果显示,变异1号属于优良大果变异,变异3、4、5号为晚熟变异。     

Dissecting Genetic Basis of Deep Rooting in Dongxiang Wild Rice

Deep rooting is an important trait in rice drought resistance. Genetic resources of deep-rooting varieties are valuable in breeding of water-saving and drought-resistant rice. In the present study, 234 BC₂F₇ backcross introgression lines were derived from a cross of Dongye 80 (an accession of Dongxiang wild rice as the donor parent) and R974 (an indica restorer line as the recurrent parent). A genetic linkage map containing 1 977 bin markers was constructed by ddRADSeq for QTL analysis. Thirty-one QTLs for four root traits (the number of deep roots, the number of shallow roots, the total number of deep roots and the ratio of deep roots) were assessed on six rice chromosomes in two environments (2020 Shanghai and 2021 Hainan). Two of the QTLs, qDR5.1 and qTR5.2, were located on chromosome 5 in a 70-kb interval. They were detected in both environments. qDR5.1 explained 13.35% of the phenotypic variance in 2020 Shanghai and 12.01% of the phenotypic variance in 2021 Hainan. qTR5.2 accounted for 10.88% and 10.93% of the phenotypic variance, respectively. One QTL (qRDR2.2) for the ratio of deep roots was detected on chromosome 2 in a 210-kb interval and accounted for 6.72% of the phenotypic variance in 2020. The positive effects of these three QTLs were all from Dongxiang wild rice. Furthermore, nine and four putative candidate genes were identified in qRDR2.2 and qDR5.1/qTR5.2, respectively. These findings added to our knowledge of the genetic control of root traits in rice. In addition, this study will facilitate the future isolation of candidate genes of the deep-rooting trait and the utilization of Dongxiang wild rice in the improvement of rice drought resistance.     

野生大豆资源的研究现状与发展前景

本文对野生大豆种质资源的起源、新型应用、以及未来发展进行了阐述。对其遗传性状进行了简单分析,并从国内分布的地理位置、种质资源发展所需要面对的一些问题进行了探讨。为野生大豆资源的相关研究提供参考。     

东港市水田旅生稻防除技术研究

介绍了东港地区水田旅生稻的发生及危害状况,阐述了旅生稻现有种类及生育特点。同时,分析了旅生稻发生危害的原因,并提出了综合防治技术措施。     

基于26个微卫星标记的三江水系草鱼遗传多样性分析

选取26个微卫星标记对来自长江(监利、邗江)、黑龙江、珠江3个水系的4个野生草鱼(Ctenopharyngodon idellus)群体的遗传多样性进行了检测。结果表明,26个微卫星位点均为高度多态位点,草鱼4个地理群体的多态信息含量(PIC)平均值为0.581 3~0.638 6;共检测出141个等位基因,其中有102个为共有等位基因;每个位点有等位基因2~11个,平均等位基因5.46,平均有效等位基因3.455 6。4个地理群体野生草鱼的平均杂合度在0.711 4~0.804 5之间。群体间遗传固定指数(FST)及AMOVA分析表明,群体间遗传分化并不显著(FST=0.031 73)。基于DA遗传距离构建的UPGMA聚类树表明,监利群体与邗江群体这两个长江水系野生地理群体聚为一支,然后与珠江群体聚为一支,黑龙江群体单独聚为一支。长江群体是原始群体。综上所述,三江水系野生草鱼具有较高的遗传多样性,4个群体之间遗传分化并不明显。     

日本沼虾4种群肌肉营养品质的比较

4个种群日本沼虾(Macrobrachium nipponensis)于2001年8月分别取自太湖、洪泽湖、广西南宁3地天然水域及浙江德清养殖种群。肌肉营养成分测定结果表明,养殖种群的粗蛋白含量为(15.83±0.32)％(质量分数),显著低于3个野生种群(P<0.05),而粗脂肪质量分数为(1.37±0.02)％显著高于野生种群(P<0.05)。3个野生种群中洪泽湖种群鲜味氨基酸含量最高;但太湖种群粗蛋白含量(17.71±0.38)％最高,必需氨基酸组成最为均衡,且单不饱和脂肪酸总量和多不饱和脂肪酸总量均为最高,分别达25.904％和35.953％。比较得出太湖种群日本沼虾肌肉的营养品质最高,养殖种群最低。     

草鱼野生与选育群体遗传变异微卫星分析

为探究经过2个选育世代后选育群体遗传多样性和遗传结构的变化,实验采用多重PCR技术对4个野生草鱼群体(邗江、九江、石首、吴江)和2个选育群体(F1和F2)进行了微卫星序列遗传变异分析。结果显示,6个草鱼群体遗传多样性水平较高,2个选育群体除了平均等位基因数外,其他遗传多样性参数均小于4个野生群体。哈迪—温伯格平衡(Hardy-Weinberg equilibrium)检测显示,在120个群体—位点组合中有62个位点显著偏离哈迪—温伯格平衡,62个群体—位点组合中只有11个组合其近交系数值为负值,其余的51个组合的Fis均为正值。6个草鱼群体AMOVA分析结果显示,3.75%的变异来自于群体间,96.25%的变异来自于群体内,整体的遗传分化指数值为0.038。进一步分析各个群体间Fst,只有石首群体与F1、F2群体之间的Fst大于0.05,处于中等分化,其余群体间分化程度较低,且F2群体与4个野生群体之间Fst比F1群体与4个野生群体之间的Fst大。奈氏标准遗传距离分析结果显示,2个选育群体与野生群体之间的遗传距离大于野生群体之间的遗传距离。基于Dn建立的UPGMA系统发育树得出了相同的结果,即2个选育群体与野生群体之间的亲缘关系比4个野生群体之间的亲缘关系要远。研究表明,经过2个世代选育后,相比4个野生群体,2个选育群体遗传多样性虽有部分下降,但仍处于较高的水平,2个选育群体的遗传结构已发生变化,但其遗传分化程度尚不明显。本研究结果为制定出更加完善有效的选育方案提供了重要参考。