Login / Signup

Genome assembly and genetic dissection of a prominent drought-resistant maize germplasm.

Tian TianShuhui WangShiping YangZhirui YangShengxue LiuYijie WangHuajian GaoShuaisong ZhangXiaohong YangCaifu JiangFeng Qin
Published in: Nature genetics (2023)
In the context of climate change, drought is one of the most limiting factors that influence crop production. Maize, as a major crop, is highly vulnerable to water deficit, which causes significant yield loss. Thus, identification and utilization of drought-resistant germplasm are crucial for the genetic improvement of the trait. Here we report on a high-quality genome assembly of a prominent drought-resistant genotype, CIMBL55. Genomic and genetic variation analyses revealed that 65 favorable alleles of 108 previously identified drought-resistant candidate genes were found in CIMBL55, which may constitute the genetic basis for its excellent drought resistance. Notably, ZmRtn16, encoding a reticulon-like protein, was found to contribute to drought resistance by facilitating the vacuole H + -ATPase activity, which highlights the role of vacuole proton pumps in maize drought resistance. The assembled CIMBL55 genome provided a basis for genetic dissection and improvement of plant drought resistance, in support of global food security.
Keyphrases
  • climate change
  • arabidopsis thaliana
  • genome wide
  • heat stress
  • plant growth
  • human health
  • copy number
  • dna methylation
  • public health
  • gene expression
  • single cell