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Among the multiple applications of DNA markers in breeding, the most promising for cultivar development is marker-assisted selection (MAS). Genetic improvement by MAS has been carried out with success in several legume crops such as soybean, common bean and pea, however, in other species such as faba bean it is still in its early stages. This article provides an overview of the genomic resources and molecular markers currently available in faba bean, with an emphasis on development and application of MAS for genetic improvement of the crop. In general, genetically simple traits have received more attention than genetically complex characters encoded by multiple genes. Research has mainly focussed on developing molecular markers for selecting resistance to a parasitic weed and other major diseases. As a result, molecular breeding for resistance to crenate broomrape, ascochyta blight, rust and chocolate spot is underway, and promising results have been obtained. Recently, markers linked to a gene controlling growth habit or to select against traits affecting the nutritional value of seeds (tannins, vicine and convicine content) have also been reported, which may facilitate a more efficient selection of new cultivars free of anti-nutritional compounds. In the near future, molecular markers should be developed for many other highly sought-after traits that are difficult to breed conventionally such as frost or drought tolerance. Comparative genomics and synteny analyses with closely related legumes, together with extensive mapping of resistance gene analogs (RGAs), will reveal new candidate genes and selectable markers for use in MAS. Finally genomic tools such as macro- and microarrays may eventually become available for use in faba crop improvement. 相似文献
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《Journal of Crop Improvement》2013,27(1-2):103-144
SUMMARY The use of genetic diversity to form modern crops is one of the most remarkable accomplishments of agriculture. Even in the age of genomics, genetic diversity remains the cornerstone of crop improvement. There is extensive diversity in soybean and its ancestors. Much of this diversity has been collected though opportunities to extend collections remain. Genetic diversity has been used extensively in Asian breeding but utilization of exotic germplasm has been limited in North America. Capturing the value of diversity is easy for some traits but quite difficult for other traits, such as yield. New procedures and technology may greatly facilitate understanding and effective use of these exotic yield alleles. For the foreseeable future though, progress in capturing yield value from exotic germplasm through traditional breeding will continue to outstrip our scientific understanding of the alleles themselves. Public institutions will need to facilitate access to germplasm to increase utilization of diversity so it favorably impacts humanity. 相似文献
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《Field Crops Research》2004,90(1):35-45
Traditional breeding efforts are expected to be greatly enhanced through collaborative approaches incorporating functional, comparative and structural genomics. Potential benefits of combining genomic tools with traditional breeding have been a source of widespread interest and resulted in numerous efforts to achieve the desired synergy among disciplines. The International Center for Tropical Agriculture (CIAT) is applying functional genomics by focusing on characterizing genetic diversity for crop improvement in common bean (Phaseolus vulgaris L.), cassava (Manihot esculenta Crantz), tropical grasses, and upland rice (Oriza sativa L.). This article reviews how CIAT combines genomic approaches, plant breeding, and physiology to understand and exploit underlying genetic mechanisms of abiotic stress adaptation for crop improvement. The overall CIAT strategy combines both bottom-up (gene to phenotype) and top-down (phenotype to gene) approaches by using gene pools as sources for breeding tools. The strategy offers broad benefits by combining not only in-house crop knowledge, but publicly available knowledge from well-studied model plants such as arabidopsis [Arabidopsis thaliana (L.) Heynh.]. Successfully applying functional genomics in trait gene discovery requires diverse genetic resources, crop phenotyping, genomics tools integrated with bioinformatics and proof of gene function in planta (proof of concept). In applying genomic approaches to crop improvement, two major gaps remain. The first gap lies in understanding the desired phenotypic trait of crops in the field and enhancing that knowledge through genomics. The second gap concerns mechanisms for applying genomic information to obtain improved crop phenotypes. A further challenge is to effectively combine different genomic approaches, integrating information to maximize crop improvement efforts. Research at CIAT on drought tolerance in common bean and aluminum resistance in tropical forage grasses (Brachiaria spp.) is used to illustrate the opportunities and constraints in breeding for adaptation to abiotic stresses. 相似文献
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Nicolas Rispail Péter Kaló György B. Kiss T.H. Noel Ellis Karine Gallardo Richard D. Thompson Elena Prats Estibaliz Larrainzar Ruben Ladrera Esther M. González Cesar Arrese-Igor Brett J. Ferguson Peter M. Gresshoff Diego Rubiales 《Field Crops Research》2010
Faba bean is an excellent candidate crop to provide nitrogen input into temperate agricultural systems. However, its growth is hampered by several factors including environmental stresses and the presence of anti-nutritional factors. To solve these limitations, breeding programs have been initiated that were successful for monogenic traits but not so for multigenic traits. The large genome size of faba bean has slowed down breeding processes. Several other legumes have emerged as model legumes including Medicago truncatula, Lotus japonicus, Glycine max and Pisum sativum. The establishment of these models has already boosted our understanding of important processes such as the nitrogen-fixing symbiotic interaction. The high level of synteny and collinearity existing between legumes makes possible the transfer of key knowledge from model legumes to faba bean. Here we review the most recent knowledge gained from model legumes on grain quality, resistance to biotic and abiotic stresses, nitrogen-fixing symbiosis and how this knowledge can be employed for faba bean breeding. 相似文献
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自上世纪70年代以来,优质、抗逆、高配合力和适应性广的新种质匮乏,已成为影响玉米商业育种进一步发展“的瓶颈”。生产用种质的遗传脆弱性受到普遍关注,种质扩增、改良与创新成为作物育种研究最重要的发展方向。综述了CIMMYT和美国玉米遗传资源的搜集、评价、改良和利用情况,玉米遗传多样性的演变趋势与动力,杂种优势群和杂种优势模式研究进展,群体改良理论和技术的新发展及对杂种优势遗传机理的探索。Hallauer于2003年提出的两个杂种优势列(heteroticalignment)的概念,把对玉米杂种优势模式的认识从温带种质扩展到所有生态类型,为玉米种质扩增、改良和创新奠定了理论和方法学基础。两个群体间的相互轮回选择改良技术,是把种质资源大规模推向杂交育种应用的关键步骤。 相似文献
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野生大豆(G.Soja)资源的研究结果展示了野生大豆多花多荚、高蛋白含量、某些抗性等优异性状基因的导入,有可能为栽培大豆高产育种、优质育种、抗性育种带来新突破。 相似文献
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利用分子标记评价大豆种质的研究进展 总被引:11,自引:1,他引:10
中国农业科学院品种资源研究所大豆分子生物学实验室“九五”期间承担了大豆重要基因的分子标记和利用生物技术创造农作物特异新种质等国家科技攻关项目。经地三年的研究,已完成大豆耐盐性基因的分子标记,并申请了国家专利。在抗大豆花叶病毒病(SMV)基因标记、大豆遗传多样性评价、分子标记辅助育种和种质创新等方面也取得重要进展。 相似文献
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Rice is a model system used for crop genomics studies. The completion of the rice genome draft sequences in 2002 not only accelerated functional genome studies, but also initiated a new era of resequencing rice genomes. Based on the reference genome in rice, next-generation sequencing (NGS) using the high-throughput sequencing system can efficiently accomplish whole genome resequencing of various genetic populations and diverse germplasm resources. Resequencing technology has been effectively utilized in evolutionary analysis, rice genomics and functional genomics studies. This technique is beneficial for both bridging the knowledge gap between genotype and phenotype and facilitating molecular breeding via gene design in rice. Here, we also discuss the limitation, application and future prospects of rice resequencing. 相似文献
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低植酸水稻种质资源筛选、遗传生理调控与环境生态适应性研究进展 总被引:1,自引:0,他引:1
提高或维持水稻产量的同时,提高稻米品质已成为目前水稻育种的首要目标之一。其中,通过降低籽粒中植酸等抗营养因子,增加锌、铁生物有效性以提升水稻营养品质,是目前水稻品质改良的一个重要方向。本文主要综述了水稻籽粒中植酸合成的代谢路径、低植酸水稻的筛选及相关功能基因的遗传特点、植酸生理代谢的调控网络、低植酸水稻农艺性状劣变和生态适应性降低的生理原因、籽粒植酸合成的环境调控效应等相关研究进展。可为低植酸水稻品质改良以及栽培调优提供借鉴。 相似文献
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Faba bean breeding for disease resistance 总被引:1,自引:0,他引:1
Josefina C. Sillero Angel M. Villegas-Fernández Jane Thomas Maria M. Rojas-Molina Amero A. Emeran Mónica Fernández-Aparicio Diego Rubiales 《Field Crops Research》2010
Faba bean is a major grain legume widely cultivated in many countries for food and feed purposes. A number of aerial fungi, together with soil-borne pathogens associated with foot and root rot complexes, nematodes, parasitic weeds and viruses may cause severe diseases in faba bean crops. The use of genetic resistance is the most economical and environmentally friendly control method. However, to date no efficient sources of resistance have been described to some diseases, or it is scarce and of complex nature, making necessary the implementation of other control measures. Phenotypic expression of resistance is usually poorly described. As a consequence of this, and of the poorly developed genomic resources available, the genetic basis of resistances is, in most cases, largely unknown. Effectiveness of MAS might soon increase with the adoption of new improvements in marker technology together with the integration of comparative mapping and functional genomics. In this paper we will review and critically discuss current and future strategies on breeding faba bean for disease resistance. 相似文献
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D. K. Harder 《Plant foods for human nutrition (Dordrecht, Netherlands)》1994,45(2):127-137
The winged bean,Psophocarpus tetragonolobus (L.) DC has been widely recognised as a potentially useful source of protein for tropical regions of the world. A neglected aspect of the plants nutritional quality has been the reporting of the accumulation of aluminum (Al) in the edible parts of the plant; the leaves, pods, seeds and tubers. The accumulation of Al in the plant on acidic tropical soils and the implication of Al to human health problems further justified the inclusion of Al in nutritional analysis. Field experiments on two varieties of the winged bean, the USDA-releaseHi-Flyer and an unnamed variety from the Phillipines, showed that all edible portions of the plant accumulate Al from high to very high levels when compared to an average of usually less than 300 ppm in other crop plants. Aluminum accumulation is generally highest in the youngest tissues particularly in the young roots with levels recorded as high as 25,000 ppm and these contents are as high as levels for recognised Al accumulators such as the leaves ofPinus and tea. Future improvement breeding programs for the winged bean will necessarily require identifying and taking advantage of possible variation in Al accumulation between varieties. 相似文献
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Dhan Prakash P. N. Misra P. S. Misra 《Plant foods for human nutrition (Dordrecht, Netherlands)》1987,37(3):261-264
Twenty one cultivars of winged bean (17 of Indian origin and 4 exotic strains obtained from Sri Lanka) were cultivated on marginal (alkaline) soils in the sub-tropics and evaluated for their food value. Whereas the seeds showed wide variations in total protein content (38.1 to 45 per cent), the amino acid compositions were in close proximity to those of soybean. Nevertheless, some strains of winged bean registered higher levels of certain amino acids as compared to soybean. 相似文献
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为了最大程度降低豆浆中抗营养因子含量的同时保证品质优良,以干豆制浆为对照,利用不同浸泡介质(水、柠檬酸溶液、NaHCO_3溶液)及不同浸泡条件,探究前处理工艺条件以及介质的改变对豆浆中抗营养因子及营养品质的影响。结果表明:浸泡处理能有效降低豆浆中胰蛋白酶抑制因子活性和植酸含量,但不同介质对不同抗营养因子的效果不同。经浸泡处理后的胰蛋白抑制因子的最低活性为30.88±1.35 TIU·mg-1,相对于未处理组降低了54%;植酸最低含量为3.46±0.15 mg·mL-1,相对于未处理组降低了77.4%;而经浸泡处理后的单宁含量却显著上升(P<0.05)。从降低胰蛋白酶抑制因子活性的效果来看,NaHCO_3>水>柠檬酸;从降低单宁含量的效果来看,柠檬酸>NaHCO_3>水;从降低植酸含量的效果来看,柠檬酸>水>NaHCO_3。除抗营养因子外,豆浆的品质指标也发生了显著变化,NaHCO_3浸泡组的总体品质最优,除了个别品质指标(蛋白质含量)与水浸泡组相比差异不显著(P>0.05),其它品质成分含量均显著高于水浸泡组,而柠檬酸浸泡组的品质为3组中最差。选取NaHCO_3溶液作为浸泡介质进行正交工艺优化,当浸泡温度为25℃,浸泡时间为16 h,浸泡豆水比为1∶4,NaHCO_3浓度为0.45%时,豆浆的抗营养因子的去除效果最好,品质最优。 相似文献
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对吉林省1923~2007年以来育成大豆品种的亲缘关系进行了分析。结果表明:含黑龙江和辽宁省血缘品种(品系)进入吉林省最早,并且较多,20世纪50年代以前就开始应用,1923~2007年以来引入黑龙江和辽宁品种(品系)分别29个、15个;其它省份引入血缘品种较少,总计9个品种(品系);外国品种在吉林省应用较晚,20世纪80年代才开始应用,但引入速度较快,90年代以后有19个外国品种被引入吉林做亲本,含有外国血缘品种占其育成品种38.5%。随着年代推移,含有外来血缘品种比例越来越大,表明吉林省一直在努力拓宽大豆种质资源的遗传基础。 相似文献
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Due to adaptation to new ecological and manmade conditions, the large diversity evolved in the European common bean germplasm is of particular interest for plant breeding. The knowledge of the genetic relationships within and among races and gene pools and their performance per se will provide bean breeders with a starting point in designing crosses using contrasting and complementary parents to broaden the genetic base within the different commercial classes. A genetic study of seed size variation and protein markers in progeny derived from 16 intraracial, interracial and inter-gene pools European common bean populations was conducted. General and specific combining ability (GCA and SCA) values were significant for seed weight, indicating that both additive and nonadditive genetic effects were involved in conditioning seed weight. Interracial populations showed transgressive values due to the accumulation of large-seeded alleles. Genetic variation inside Andean germplasm, and Chile and Peru races in particular, exhibited useful genetic progress in these populations, providing lines with a large seed size, and so, an excellent market potential. The distribution of incompatibility between both gene pools (Mesoamerican and Andean) of the common bean was explored. Inter-gene pool populations provided lower means of inbred segregants than the mid-parent value. Therefore, a good option it would be select for large seed size according to a recurrent or congruity inbred-backcrossing selection programs. Analysis of allele markers frequencies in inter-gene populations showed segregation distortion with a higher than expected frequency of alleles from the Mesoamerican gene pool, many of which were fixed in the F7 lines. The presence of a great percentage of markers that showed segregation distortion in these populations (87%) indicated that this phenomenon can be amplified by using distance related common bean genotypes. In addition, a high percentage of heterozygotes for the Phs locus (for the seed storage protein phaseolin) was found, which suggest that the Andean homozygous TT could not be expressed in Mesoamerican genetic background due to the action of some form of female specific mechanisms that affected gene exchange between parental germplasm in inter-gene pool populations. The present work provides useful information in the establishment of large seed size germplasm that could have a great deal of interest among breeders and may offer some possibilities to exploit existing variation within and between common bean races. 相似文献
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花生基因组资源的开发及应用 总被引:4,自引:0,他引:4
花生是世界主要的油料作物,但由于花生本身的遗传特性,导致其基因组资源的开发和利用存在较大难度。花生的高度闭花授粉、初级基因库遗传基础狭窄以及栽培种与二倍体近缘野生种之间的杂交不亲和性,导致花生栽培种的分子遗传多样性偏低,成为花生分子遗传改良的主要瓶颈。然而,近五年来,花生基因组资源开发迅速,分子标记的开发、遗传和物理图谱的构建、表达序列标签(ESTs)的产生、突变体资源的创建和功能基因组学平台的构建促进了QTL的鉴定以及与农艺性状相关的耐/抗生物和非生物胁迫基因的挖掘。本文概述了当前花生基因组资源的研究现状,并对下一步的发展方向进行了展望。 相似文献