作者
Tao Yao,Jin Zhang,Timothy B. Yates,Him K. Shrestha,Nancy L. Engle,Raphaël Ployet,Cai John,Kai Feng,William P. Bewg,Margot S. S. Chen,Haiwei Lu,Scott A. Harding,Zhenzhen Qiao,Sara Jawdy,Mengjun Shu,Wenya Yuan,Khadijeh Mozaffari,Anne E. Harman‐Ware,Renee M. Happs,Larry M. York,Brad M. Binder,Yuko Yoshinaga,Christopher Daum,Timothy J. Tschaplinski,Paul E. Abraham,Chung‐Jui Tsai,Kerrie Barry,Anna Lipzen,Jeremy Schmutz,Gerald A. Tuskan,Jin‐Gui Chen,Wellington Muchero
摘要
Summary Plant establishment requires the formation and development of an extensive root system with architecture modulated by complex genetic networks. Here, we report the identification of the PtrXB38 gene as an expression quantitative trait loci (eQTL) hotspot, mapped using 390 leaf and 444 xylem Populus trichocarpa transcriptomes. Among predicted targets of this trans ‐eQTL were genes involved in plant hormone responses and root development. Overexpression of PtrXB38 in Populus led to significant increases in callusing and formation of both stem‐born roots and base‐born adventitious roots. Omics studies revealed that genes and proteins controlling auxin transport and signaling were involved in PtrXB38‐mediated adventitious root formation. Protein–protein interaction assays indicated that PtrXB38 interacts with components of endosomal sorting complexes required for transport machinery, implying that PtrXB38‐regulated root development may be mediated by regulating endocytosis pathway. Taken together, this work identified a crucial root development regulator and sheds light on the discovery of other plant developmental regulators through combining eQTL mapping and omics approaches.