此外，研究还发现PhyB与氨转运蛋白（AMT1）表达调控密切相关。PhyB通过与蛋白激酶CIPK31的相互作用，调节NH4+的吸收，从而进一步影响水稻的抗逆性。研究人员证实，CIPK31不仅参与AMT1基因的表达调控，还通过与TCP19的相互作用影响氮的利用效率（NUE）。这一机制为水稻的氮素吸收和稳健生长提供了潜在的生物学基础。

Since the development of the first genetically encoded calcium biosensor in 1997 (Miyawaki et al., 1997), fluorescent biosensors have become indispensable molecular tools for real-time bioimaging at ...

As an important type of interplant competition, line-spacing shrinkage and row-spacing expansion (LSRE) can increase the number of tillers and improve resource utilization efficiency in wheat. Wheat ...