|
- TaTCP6 is required for efficient and balanced utilization of nitrate . . .
High crop yields require adequate nutrients, particularly nitrate (N) and phosphorus (P) Identifying regulators for efficient N-P utilization is critical in wheat To explore N-P
- TaTCP6 is required for efficient and balanced utilization of nitrate . . .
High crop yields require adequate nutrients, particularly nitrate (N) and phosphorus (P) Identifying regulators for efficient N-P utilization is critical in wheat To explore N-P interactions, we analyze root transcriptomes under varying N-P supplies and identify TaTCP6 as a potential regulator
- New Research Unveils Key Role Of TaTCP6 In Wheat Nutrient Efficiency
To understand the interactions between nitrate and phosphorus, researchers conducted transcriptome analyses under varying nutrient supplies and found TaTCP6 to be pivotal The study showed how nitrate stimulates TaTCP6, which directly triggers the expression of nitrogen utilization genes
- China Agricultural University Unveils Wheat Gene Key to Balanced . . .
The research focuses on wheat, a staple crop that requires ample nutrients, particularly nitrate (N) and phosphorus (P), to achieve high yields The study identifies a key player in this nutrient ballet: a gene called TaTCP6
- TaTCP6 is required for efficient and balanced u. . . - Scoop. it
A nitrate-induced transcription factor TaTCP6 is identified as a central regulator for the efficient and balanced utilization of nitrate and phosphorus, and a moderate increase in its expression promotes wheat yield | RMH
- TaTCP6 Regulates the Coordinated Utilization of Nitrogen and Phosphorus . . .
On February 16, 2025, Jiewen Xing's team at China Agricultural University published a research paper titled "TaTCP6 is required for efficient and balanced utilization of nitrate and phosphorus in wheat" online in Nature Communications
- TaTCP6—— 调控小麦硝酸盐与磷高效平衡利用的关键 “密码”
为解决小麦氮磷高效利用的问题,中国农业大学的研究人员开展了 tatcp6 在小麦氮磷利用中作用的研究。他们发现 tatcp6 可协调氮磷利用,过表达能增产。该研究为培育高效利用氮磷的小麦品种提供关键依据,值得科研人员阅读。
- Nat Commun | 中国农业大学农学院孙其信院士团队在小麦“氮促磷”机制方面取得重要进展 - 川观新闻
从这些数据中,我们鉴定出一个I类TCP转录因子TaTCP6,它能够响应外部硝酸盐并直接调控硝酸盐的吸收和同化。此外,TaTCP6与TaSPXs和TaPHR2相互作用,从TaSPXs-TaPHR2复合物中释放TaPHR2并增强其转录激活能力,从而显著提高小麦的磷利用效率。
|
|
|