WebLamina inclination is a key agronomical character that determines plant architecture and is sensitive to auxin and brassinosteroids (BRs). Loose Plant Architecture1 (LPA1) in rice … WebLoose Plant Architecture 1 (LPA1) has been suggested to regulate the tiller angle and leaf angle by affecting shoot gravitropism and encodes an indeterminate domain protein in rice (Wu et al., 2013). The suppression of OsPIN1 or overexpression of OsPIN2 , two auxin efflux transporters, can alter PAT capacity and increase the tiller angle in rice (Chen et al …
Tiller Angle Control 1 Is Essential for the Dynamic Changes in Plant ...
WebLoose Plant Architecture!., an INDETERMINATE DOMAIN Protein Involved in Shoot Gravitropism, Regulates Plant Architecture in Rice1[wl Xinru Wu2, Ding Tang2, Ming … Web16 de fev. de 2016 · Here plant architecture factors (PAFs) ... Similarly, the Atahk4 mutation leads to a more loose PA with higher branch height and fewer branches 52, which is similar to the performance of Hua_5 ... unused leave tax table
(PDF) Loose Plant Architecture1 ( LPA1 ) determines lamina joint ...
WebTransgenic rice overexpressing DNA binding with one finger12 (OsDof12) affects plant architecture by reducing rice height, leaf blade, and panicle number, which is associated with hyposensitivity ... Web24 de out. de 2024 · In our previous studies, we found that overexpression of loose plant architecture 1 (LPA1) reduced the tiller and lamina joint angle but increased resistance … Web17 de out. de 2024 · Loose Plant Architecture 1 (LPA1) is an ortholog of Arabidopsis INDETERMINATE DOMAIN (IDD) 15/SHOOT GRAVITROPISM 5, which encodes an IDD-containing protein. LPA1 regulates tiller angle and shoot gravitropism by impacting the rate of amyloplast sedimentation (Wu et al. 2013, Liu et al. 2016b, Sun et al. 2024). unused latin letters