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DYNLL1 — RBBP4
Text-mined interactions from Literome
Kleine-Vehn et al., Plant Cell 2009
:
Our genetic, pharmacological, and cell biological approaches illustrate that PID and GNOM influence PIN polarity and plant development in an antagonistic manner and that the
PID dependent
PIN phosphorylation results in GNOM independent polar PIN targeting ... We propose a model that includes
PID dependent
PIN phosphorylation at the plasma membrane and the subsequent sorting of PIN proteins to a GNOM independent pathway for polarity alterations during developmental processes, such as lateral root formation and leaf vasculature development
Fozard et al., J Theor Biol 2013
:
The protein kinase
PINOID (PID) is
involved in regulating
PIN phosphorylation, and this is thought to affect PIN localization by biasing recycling towards shootwards ( apical ) ( rather than rootwards ( basal ) ) membrane domains