新疆春小麦品种加代模式和遗传转化效率探究OA
Exploration of Rapid Generation Advancement Models and Genetic Transformation Efficiency in Xinjiang Spring Wheat Cultivars
全球气候变化和耕地退化对小麦(Triticum aestivum)育种效率提出了新的挑战,传统育种周期长、效率低,难以满足日益增长的粮食需求.新疆作为我国优质小麦生产区,亟待建立适合当地小麦品种的快速加代体系和高效遗传转化平台,以缩短育种周期并拓宽转基因受体材料的选择范围.以新疆主栽小麦品种新春9号、新春37、新春44和核春137为研究材料,以小麦品种Fielder为对照,通过优化温室环境参数和培养条件建立了快速加代模式,并系统评估了这些小麦品种的幼胚遗传转化效率.快速加代实验结果表明,与常规温室条件相比,人工气候室快速加代条件下,5个品种的生育期均明显缩短,其中新春37由92天缩短至59天,差异最显著.农杆菌介导的幼胚遗传转化比较实验结果表明,新春37的转化效率(23.30%)优于其它3个品种,但低于对照品种Fielder(27.95%).而新春9号、新春44和核春137也表现出一定程度的转化效率.综上,该研究建立了新疆主栽小麦品种快速加代技术体系,并评价了不同受体的遗传转化效率,为新疆地区小麦种质创新提供了关键技术支撑.
INTRODUCTION:Global climate change and soil degradation have posed new challenges to the breeding efficiency of wheat(Triticum aestivum).Traditional breeding cycles are lengthy and inefficient,making it difficult to meet the e-ver-growing demand for breeding new cultivars adapting to the changing environment.As a major high-quality wheat producing region in China,Xinjiang urgently needs to establish a rapid generation-advancement system and an efficient genetic transformation platform tailored to its local cultivars,in order to shorten breeding cycles and expand the range of transgenic recipient materials. RATIONALE:Accelerating generation turnover and establishing efficient transformation protocols are critical bottlenecks in wheat functional genomics research and breeding.Conventional greenhouse conditions impose long generation times,while transformation efficiency varies greatly and is often unacceptably low in many elite cultivars.This study was de-signed to systematically evaluate whether controlled artificial climate chamber conditions could significantly shorten the lifecycle of key Xinjiang wheat cultivars,and to assess the Agrobacterium-mediated transformation efficiency of their immature embryos.The goal was to identify cultivars with both a shortened generation time and satisfactory transforma-tion capability,thereby facilitating their use in genetic research and speed breeding applications. RESULTS:Under artifiicial climate chamber conditions compared to conventional greenhouse conditions,all five wheat cultivars showed a significant reduction in generation time.Xinchun37 exhibited the greatest reduction,shortening its life cycle from 92 days to 59 days;in Agrobacterium-mediated embryo transformation assays,Xinchun37 achieved a trans-formation efficiency of 23.30%,outperforming the other three Xinjiang cultivars but remaining lower than the Fielder con-trol.Xinchun 9,Xinchun44,and Hechun137 also demonstrated measurable transformation efficiencies. CONCLUSION:This study successfully established a novel rapid generation-advancement system for the main wheat cultivars of Xinjiang,and increased their embryonic genetic transformation efficiency.These methods will greatly shorten breeding cycles and provide key technological support for expanding the selection of transgenic recipient materials,the-reby contributing to germplasm innovation and food-security strategies in Xinjiang and beyond.
邱四春;康禧;张舒琪;孙羽晨;刘世岩;张跃强;史雪;许盛宝
西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100西北农林科技大学,杨凌 712100
小麦新疆地区快速加代遗传转化
wheatXinjiang regionrapid generation advancementgenetic transformation
《植物学报》 2026 (2)
291-299,9
小麦种业创新工程(No.K3031222159)
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