AI Article Synopsis
- Wheat is a key food crop, and developing robust wheat varieties using elite genetics can help address challenges posed by climate change and growing populations.
- WRKY transcription factors, like TaWRKY51, play important roles in plant development and stress responses, although their specific functions related to wheat traits were previously unclear.
- Research identified haplotypes linked to desirable traits for wheat breeding, and transgenic rice experiments confirmed that these genetic resources can enhance root architecture and improve grain yield, making them valuable for marker-assisted selection in wheat breeding.
Article Abstract
Wheat is one of the staple food crops. The utilization of elite genetic resources to develop resource-efficient wheat varieties is an effective approach to deal with the challenges of climate change and population growth. WRKY transcription factors (TFs) are multifaceted regulators of plant growth and development and response to environmental stress. The previous studies have shown that TaWRKY51 positively regulates the development of lateral roots, while its roles in agronomic trait development are not clear, and there is no functional marker for molecular breeding. To bridge the gap, we cloned the three members of and found they were highly expressed in the roots and flag leaves at the flowering stage and were induced by the multiple abiotic stresses and phytohormones. The highest expression level was observed in , followed by and . The two haplotypes/alleles for each member were identified in the natural populations, and functional markers were developed accordingly. The association assays revealed that -2A-I was an elite haplotype for the large spike, -2B-II and allele-G were favorable haplotypes/alleles for long root. However, only -2A-I was selected for wheat breeding in China. The results of transgenic experiments showed that the rice lines overexpressing had large panicle, high thousand-grain-weight, and more crown and lateral roots, which further confirmed the results of association analysis. In short, is a positive regulator of the root architecture and grain yield (GY) contributing traits. The elite gene resources and functional markers may be utilized in the marker-assisted selection for high-yield breeding in wheat.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8567066 | PMC |
| http://dx.doi.org/10.3389/fpls.2021.734614 | DOI Listing |
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