TaBln1 negatively regulates wheat resistance to stripe rust by reducing Ca2+ influx

Abstract

Blufensin1 (Bln1) has been identified as a negative regulator of basal defense mechanisms that is unique to the cereal grain crops barley, wheat, and rice. However, the molecular mechanisms through which Blufensin1 regulates the wheat immune response are poorly understood. In this study, we found that TaBln1 is significantly induced by Puccinia striiformis f. sp. tritici (Pst) virulent race CYR31 infection. Knockdown the expression of TaBln1 by virus-induced gene silencing reduced Pst growth and development, and enhanced the host defense response. In addition, TaBln1 was found to physically interact with TaCaM3 on the plasma membrane. Silencing TaCaM3 with virus-induced gene silencing increased fungal infection areas and sporulation and reduced wheat resistance to the Pst CYR23 and CYR31. Moreover, we found that the TaCaM3 transcription level could be induced by treatment with chitin but not flg22. Silencing TaCaM3 decreased the Ca2+ influx induced by chitin, but silencing TaBln1 increased the Ca2+ influx in vivo using a non-invasive micro-test technique. Taken together, we identified the wheat negative regulator TaBln1, which interacts with TaCaM3 to impair Ca2+ influx and inhibits plant defenses. One-sentence summary TaBln1 negatively regulate wheat resistance to stripe rust possibly due to the interaction with TaCaM3 on the plasma membrane, which impairs the calcium influx modulated by TaCaM3.