A wheat tandem kinase and NLR pair confers resistance to multiple fungal pathogens

  1. Ping Lu
  2. Gaohua Zhang
  3. Jing Li
  4. Zhen Gong
  5. Gaojie Wang
  6. Lingli Dong
  7. Huaizhi Zhang
  8. Guanghao Guo
  9. Min Su
  10. Yueming Wang
  11. Keyu Zhu
  12. Qiuhong Wu
  13. Yongxing Chen
  14. Miaomiao Li
  15. Baoge Huang
  16. Beibei Li
  17. Wenling Li
  18. Lei Dong
  19. Yikun Hou
  20. Xuejia Cui
  21. Hongkui Fu
  22. Dan Qiu
  23. Chengguo Yuan
  24. Hongjie Li
  25. Jianmin Zhou
  26. Guan-Zhu Han
  27. Yuhang Chen
  28. Zhiyong Liu
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Abstract

Recently discovered tandem kinase proteins (TKPs) are pivotal to the innate immune systems of cereal plants, yet how they initiate plant immune responses remains unclear. This report identifies the wheat protein WTN1, a non-canonical NLR receptor featuring tandem NB-ARC domains, as crucial forWTK3-mediated disease resistance. Both WTK3 and its allelic variant Rwt4, known for conferring resistance to wheat powdery mildew and blast respectively, are capable of recognizing the blast effector PWT4, and activate WTN1 to form calcium-permeable channels, akin to ZAR1 and Sr35. This study unveils a unique plant defense mechanism wherein TKPs and associated NLRs operate as “sensor-executor” pairs against fungal pathogens. Additionally, evolutionary analyses reveal a co-evolutionary trajectory of the TKP-NLR module, highlighting their synergistic role in triggering plant immunity.

One Sentence Summary

An ancient synergistic TKP-NLR pair triggers innate immunity for multiple disease resistance in wheat.

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