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Maize is the most widely planted and most productive food crop in the world, and it is vital to global food security.
The Xie Qi research group of the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences cooperated with the Chen Huabang research group to conduct a comparative transcriptome analysis of the selected extreme phenotypic lines through a detailed analysis of the drought tolerance of the maize recombinant inbred line population at the seedling stage , And clarified the molecular mechanism of a bHLH type transcription factor involved in the drought response process of maize.
By comparing the combined analysis of transcriptome and bin map subtraction, it was found that the changes in gene expression not only existed between drought-tolerant and drought-sensitive lines, but also existed between drought-tolerant lines RIL70 and RIL73.
The above research results were published online in Plant Biotechnology Journal (DOI:10.
Endoplasmic reticulum-related protein degradation (ERAD) plays an important role in plant growth, development and adaptation to stress.
The early research work of Xie Qi's laboratory found that UBC32 is a ubiquitin-coupled enzyme located in the endoplasmic reticulum and an important component of the ERAD complex.