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91.
92.
抗虫转基因植物鉴定方法的研究进展 总被引:1,自引:0,他引:1
农作物受害虫侵害严重,给农业生产带来巨大损失,喷施化学杀虫剂使害虫产生抗药性,且污染环境。近年来,转基因技术研究不断深入,抗虫转化研究工作进展迅速。鉴定转基因植物的方法技术有很多种,在此主要阐述了利用标记基因进行鉴定,分子标记,免役技术三大类方法,并对其原理分别进行了简单介绍。 相似文献
93.
94.
谷子显性雄性不育基因Msch的AFLP标记 总被引:1,自引:0,他引:1
利用雄性不育是实现谷子杂种优势利用最经济、有效的途径之一.为了寻找与不育基因Msch紧密连锁的分子标记,提高不育系的选育效率,本研究构建了Msch不育/可育近等基因系(NILs),通过对400对AFLP引物组合进行筛选,找到了与不育基因紧密连锁的两个AFLP标记(P17/M37224和P35/M52208),与不育基因的遗传距离分别是2.1 cM和1.4 cM,而且位于不育基因的同一侧,标记间相距0.7 cM.这两个AFLP标记可有效用于分子标记辅助选择育种. 相似文献
95.
Breeding for boron tolerance in lentil (Lens culinaris Medik.) using a high‐throughput phenotypic assay and molecular markers 下载免费PDF全文
Matthew S. Rodda Shimna Sudheesh Muhammad Javid Dianne Noy Annathurai Gnanasambandam Anthony T. Slater Garry M. Rosewarne Sukhjiwan Kaur 《Plant Breeding》2018,137(4):492-501
This study describes the identification of a quantitative trait locus (QTL) in the recombinant inbred line population of ILL2024 × ILL6788 and subsequent validation of associated molecular markers. A high‐quality genetic linkage map was constructed with 758 markers that cover 1,057 cM, with an average intermarker distance of 2 cM. QTL analysis revealed a single genomic region on Lc2 to be associated with B tolerance and accounted for up to 76% of phenotypic variation (Vp). The best markers for B tolerance were assessed for their utility in routine breeding applications using validation panels of diverse lentil germplasm and breeding material derived from ILL2024. A marker generated from the dense genetic map of this study was found to be the most accurate of all markers available for B tolerance in lentil, with a success rate of 93% within a large breeding pool derived from ILL2024. However, given the number of the unrelated lines for which the marker–trait association was not conserved, B tolerance screening is still required at later stages to confirm predicted phenotypes. 相似文献
96.
Muhammad Amir Maqbool Muhammad Aslam Abdurahman Beshir Muhammad Sarwar Khan 《Plant Breeding》2018,137(4):451-469
Vitamin A deficiency is widely prevailing in children and women of developing countries. Deficiency of vitamin A causes night blindness, growth retardation, xerophthalmia and increases the susceptibility against epidemic diseases. Among different interventions of overcoming malnutrition, biofortification is the most acceptable and preferred intervention among researchers, growers and consumers. Maize is grown and consumed in those regions where vitamin A deficiency is most prevalent; thus, targeting this crop for provitamin A biofortification is the most appropriate solution. Different breeding strategies including diversity analysis, introduction and stability analysis of exotic germplasm, hybridization, heterosis breeding, mutagenesis and marker‐assisted selection are practised for exploring maize germplasm and development of provitamin A‐enriched cultivars. Genome‐wide association selection and development of transgenic maize genotypes are also being practised, whereas RNA interference and genome editing tools could also be used as potential strategies for provitamin A biofortification of maize genotypes. The use of these breeding strategies for provitamin A biofortification of maize is comprehensively reviewed to provide a working outline for maize breeders. 相似文献
97.
Lei Huang Ailan Zeng Pengyin Chen Chengjun Wu Dechun Wang Zixiang Wen 《Plant Breeding》2018,137(5):714-720
Salinity is a common abiotic stress causing soybean [Glycine max (L.) Merr.] yield loss worldwide. The use of tolerant cultivars is an effective and economic approach to coping with this stress. Towards this, research is needed to identify salt‐tolerant germplasm and better understand the genetic and molecular basis of salt tolerance in soybean. The objectives of this study were to identify salt‐tolerant genotypes, to search for single‐nucleotide polymorphisms (SNPs) and QTLs associated with salt tolerance. A total of 192 diverse soybean lines and cultivars were screened for salt tolerance in the glasshouse based on visual leaf scorch scores after 15–18 days of 120 mM NaCl stress. These genotypes were further genotyped using the SoySNP50K iSelect BeadChip. Genomewide association mapping showed that 62 SNP markers representing six genomic regions on chromosomes (Chr.) 2, 3, 5, 6, 8 and 18, respectively, were significantly associated with salt tolerance (p < 0.001). A total of 52 SNP markers on Chr. 3 are mapped at or near the major salt tolerance QTL previously identified in S‐100 (Lee et al., 2014). Three SNPs on Chr. 18 map near the salt tolerance QTL previously identified in Nannong1138‐2 (Chen, Cui, Fu, Gai, & Yu, 2008). The other significant SNPs represent four putative minor QTLs for salt tolerance, newly identified in this study. The results above lay the foundation for fine mapping, cloning and molecular breeding for soybean salt tolerance. 相似文献
98.
为充分了解及更合理地利用无核葡萄的种质资源,辅助无核葡萄育种,本研究采用SRAP分子标记技术,对23 个国内外主流无核葡萄品种的种质亲缘关系进行分析。结果表明:从45 对SRAP引物中筛选出38 对多态性引物,共扩增出236 条谱带,其中171 条为多态性谱带,多态性谱带百分率为72.4%。遗传相似分析显示,供试材料间遗传相似系数的变化范围为0.58~0.90,遗传距离在1.0313~4.9643 范围内变化。在遗传相似系数为0.61 处,可将供试材料分为2 个大类群,在相似系数为0.66 处,Ⅰ类群和Ⅱ类群均可分为2个亚群。说明23个品种总体来讲亲缘关系较远,特别欧美杂种具有较高的遗传多样性,部分欧亚种品种间亲缘关系较近,杂交育种时应注意亲本选择。 相似文献
99.
Breeding for insect resistance in oilseed rape: Challenges,current knowledge and perspectives 下载免费PDF全文
Maxime R. Hervé 《Plant Breeding》2018,137(1):27-34
Dealing with insect pests is one of the biggest challenges facing the cultivation of oilseed rape (Brassica napus, OSR). Insect pests are usually controlled using insecticides, but the increasing occurrence of insecticide‐resistant populations and the socio‐economic context argue against the sole use of these substances. Plant resistance is a classical and proven alternative crop protection strategy that is the basic tool of integrated pest management. However, no insect‐resistant OSR cultivar is currently available on the market. Here, I review some of the constraints that make phenotyping for insect resistance particularly challenging with OSR and give perspectives to develop this resistance. Some studies have proved that breeding OSR for insect resistance could be achieved, and three strategies have been considered: introducing resistance transgenes into the OSR genome, exploiting natural variation in resistance already present in B. napus and introgressing resistance from other brassicaceous species. The white mustard, Sinapis alba, seems a particularly promising source of resistance against most of the OSR insect pests. 相似文献
100.
分子标记技术与常规育种技术相互紧密结合能显著提高育种效率。为了更好地阐明分子标记在甜菜育种中的作用,总结了国内外分子标记在甜菜亲缘关系及遗传多样性研究、遗传连锁图谱构建、数量性状基因定位(QTL)、分子标记辅助选择育种、杂种优势及种质鉴定中的研究现状和存在的问题。指出建立相应的高效分子标记辅助选育体系,创造出高产、优质、多抗或具广谱抗性的甜菜种质或品种是甜菜分子育种的研究方向。当前甜菜种质资源鉴定的关键任务是大力开发新型的分子标记进行甜菜种质资源遗传分析,绘制指纹图谱、进一步构建甜菜种质分子身份证。今后应加强对甜菜重要农艺性状基因进行精细定位,充分发掘QTL的信息,构建更为饱和的分子标记连锁图谱。 相似文献