State Key Laboratory for Agrobiotechnology and Key Laboratory of Crop Heterosis and Utilization, Beijing Key Laboratory of Crop Genetic Improvement, China Agricultural University, Beijing, 100193, China.
National Plant Gene Research Centre, Beijing, 100193, China.
Theor Appl Genet. 2019 Nov;132(11):3047-3062. doi: 10.1007/s00122-019-03405-1. Epub 2019 Aug 9.
One QTL qLRI4 controlling leaf rolling index on chromosome 4 was finely mapped, and ZmOCL5, a member of the HD-Zip class IV genes, is likely a candidate. Leaf rolling is an important agronomic trait related to plant architecture that can change the light condition and photosynthetic efficiency of the population. Here, we isolated one EMS-induced mutant in Chang7-2 background with extreme abaxial rolling leaf, named abrl1. Histological analysis showed that the increased number and area of bulliform cells may contribute to abaxial rolling leaf in abrl1. The F and F populations derived from Wu9086 with flat leaves and abrl1 were developed to map abrl1. Non-Mendelian segregation of phenotypic variation was observed in these populations and five genomic regions controlling the leaf rolling index (LRI) were identified, which could be due to the phenotypic difference between Chang7-2 and Wu9086. Moreover, one major QTL qLRI4 on chromosome 4 was further validated and finely mapped to a genetic interval between InDel13 and InDel10, with a physical distance of approximately 277 kb using NIL populations, among which one 602-bp insertion was identified in the promoter region of HD-Zip class IV gene Zm00001d049443 (named as ZmOCL5) of abrl1 compared with wild-type Chang7-2. Remarkably, the 602-bp InDel was associated with LRI in an F population developed by crossing abrl1 mutant and its wild-type. In addition, the 602-bp insertion increased ZmOCL5 promoter activity and expression. Haplotype analysis demonstrated that the 602-bp insertion was a rare mutation event. Taken together, we propose that the rolled leaf in the abrl1 mutant may be partially attributed to the 602-bp insertion, which may be an attractive target for the genetic improvement of LRI in maize.
一个控制第 4 号染色体叶卷指数的 QTL qLRI4 被精细定位,ZmOCL5,一个 HD-Zip 类 IV 基因的成员,可能是一个候选基因。叶卷是一个与植物结构有关的重要农艺性状,可以改变植物群体的光照条件和光合作用效率。在这里,我们在 Chang7-2 背景下分离出一个 EMS 诱导的突变体,具有极端的下卷叶,命名为 abrl1。组织学分析表明,增加的泡状细胞数量和面积可能导致 abrl1 的下卷叶。从具有平叶的 Wu9086 和 abrl1 衍生的 F 和 F 群体被开发出来以定位 abrl1。这些群体中观察到表型变异的非孟德尔分离,并且鉴定出五个控制叶卷指数(LRI)的基因组区域,这可能是由于 Chang7-2 和 Wu9086 之间的表型差异。此外,一个位于第 4 号染色体上的主要 QTL qLRI4 被进一步验证,并在 NIL 群体中精细定位到 InDel13 和 InDel10 之间的遗传间隔内,物理距离约为 277 kb,其中在 abrl1 与野生型 Chang7-2 相比,在 HD-Zip 类 IV 基因 Zm00001d049443(命名为 ZmOCL5)的启动子区域中发现一个 602-bp 插入。值得注意的是,在由 abrl1 突变体与其野生型杂交产生的 F 群体中,602-bp 缺失与 LRI 相关。此外,602-bp 插入增加了 ZmOCL5 启动子活性和表达。单倍型分析表明,602-bp 插入是一个罕见的突变事件。总之,我们提出 abrl1 突变体中的卷曲叶可能部分归因于 602-bp 插入,这可能是玉米 LRI 遗传改良的一个有吸引力的目标。
