摘要
Roots play a critical role in acquisition and utilization of nitrogen in wheat,influencing nitrogen use efficiency(NUE),and ultimately determining yield.However,the detailed responses of root tips to fluctuations in nitrogen availability and the underlying regulatory mechanisms enabling adaptation to nitrogenlimited conditions,remain elusive.In this study,we used single-cell nuclear transcriptomics of the highnitrogen utilization variety(HNV)Zhengmai 1860(ZM1860)to construct a comprehensive map of root tip cells under both controlled and nitrogen starvation(N-starv)conditions.Identification of various cell types and their associated genes highlighted the diversity of cellular processes.Using single-nucleus consensus weighted gene co-expression network analysis(hdWGCNA),we identified key modules central to nitrogen metabolism.These identified the prominent role of epidermal cells(EC).The gene TaGS1.2,which is involved in glutamine synthesis,exhibited increased expression under nitrogen-deficient conditions,validating its functional significance in nutrient acquisition.Serving as a key functional gene that adapts to nitrogen-deficient conditions this gene also positively regulated root development.Analysis of the transcriptional regulatory network in EC further revealed the pivotal role of TaG S1.2 in the nitrogen metabolism network.We also uncovered mechanisms that enhance cell-to-cell communication in nitrogen-deficient environments by identifying specific receptors.Single-cell nuclear transcriptome mapping offers valuable insights into the complex responses of root tip cells to nitrogen scarcity and guides future breeding strategies aimed at developing more nitrogen-efficient wheat varieties.
基金
supported by the National Key Research and Development Program(2022YFD1200204)
the Henan Provincial Science and Technology Research and Development Program Joint Fund(222301420025)
the Fund of Shennong Laboratory(SN01-2022-01)。
