Molecular breeding

About: Molecular breeding is a research topic. Over the lifetime, 2120 publications have been published within this topic receiving 56908 citations.

Towards Developing Drought-smart Soybeans.

Abstract: Drought is one of the significant abiotic stresses threatening crop production worldwide. Soybean is a major legume crop with immense economic significance, but its production is highly dependent on optimum rainfall or abundant irrigation. Also, in dry periods, it may require supplemental irrigation for drought-susceptible soybean varieties. The effects of drought stress on soybean including osmotic adjustments, growth morphology and yield loss have been well studied. In addition, drought-resistant soybean cultivars have been investigated for revealing the mechanisms of tolerance and survival. Advanced high-throughput technologies have yielded remarkable phenotypic and genetic information for producing drought-tolerant soybean cultivars, either through molecular breeding or transgenic approaches. Further, transcriptomics and functional genomics have led to the characterisation of new genes or gene families controlling drought response. Interestingly, genetically modified drought-smart soybeans are just beginning to be released for field applications cultivation. In this review, we focus on breeding and genetic engineering approaches that have successfully led to the development of drought-tolerant soybeans for commercial use.

Genome-wide study of an elite rice pedigree reveals a complex history of genetic architecture for breeding improvement.

Abstract: Improving breeding has been widely utilized in crop breeding and contributed to yield and quality improvement, yet few researches have been done to analyze genetic architecture underlying breeding improvement comprehensively. Here, we collected genotype and phenotype data of 99 cultivars from the complete pedigree including Huanghuazhan, an elite, high-quality, conventional indica rice that has been grown over 4.5 million hectares in southern China and from which more than 20 excellent cultivars have been derived. We identified 1,313 selective sweeps (SSWs) revealing four stage-specific selection patterns corresponding to improvement preference during 65 years, and 1113 conserved Huanghuazhan traceable blocks (cHTBs) introduced from different donors and conserved in >3 breeding generations were the core genomic regions for superior performance of Huanghuazhan. Based on 151 quantitative trait loci (QTLs) identified for 13 improved traits in the pedigree, we reproduced their improvement process in silico, highlighting improving breeding works well for traits controlled by major/major + minor effect QTLs, but was inefficient for traits controlled by QTLs with complex interactions or explaining low levels of phenotypic variation. These results indicate long-term breeding improvement is efficient to construct superior genetic architecture for elite performance, yet molecular breeding with designed genotype of QTLs can facilitate complex traits improvement.

Genetic association studies in Eucalyptus pilularis Smith (blackbutt)

Abstract: Breeding for wood quality is limited by the long generation times and the delay before wood quality can be measured reliably. Association studies allow links between phenotype and genotype to be made, and are a prelude to accelerated domestication of trees by molecular breeding approaches. This study uses association genetics to identify DNA polymorphisms that correlate with solid wood properties of Eucalyptus pilularis Smith (blackbutt). We undertook extensive phenotyping of dimensional stability, growth and structural wood properties on a nine-year-old progeny trial established by Forests NSW at Hannam Vale, near Port Macquarie in NSW. A subset of 372 phenotyped individuals representing 284 families collected from 37 provenances was used as the association population for genotypic assessment. Fifty-two out of 127 novel DNA polymorphisms were surveyed within four candidate genes, CCR, CAD, MYB1 and MYB2. Several putative associations between wood quality traits and selected DNA polymorphisms are reported, along with the likely mechanism of action on wood quality. Association studies such as this will facilitate non-destructive DNA tests for heritable wood properties that can be used to enrich breeding populations at any developmental stage with desirable alleles.

Marker Assisted Selection: Biotechnology Tool for Rice MolecularBreeding

Abstract: The biotechnology tool of MAS has irreversibly changed the disciplines of conventional rice breeding. Molecular markers are indispensable tools for measuring the diversity of rice varieties and rice breeding. However, MAS is not always advantageous, so careful analysis of the costs, convenience, ease of assay development and automation are important factors to be considered when choosing a technology relative to the conventional breeding programs. This review focuses on possibilities for the application of marker-assisted selection in the genetic improvement of rice breeding.