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Adaptor protein complex interaction map in Arabidopsis identifies P34 as a common stability regulator.

Peng WangWei SiaoXiuyang ZhaoDeepanksha AroraRen WangDominique EeckhoutJelle Van LeeneRahul KumarAnaxi HoubaertNancy De WinneEvelien MylleMichaël VandorpeRuud A KorverChrista TesterinkKris GevaertSteffen VannesteGeert De JaegerDaniёl Van DammeEugenia Russinova
Published in: Nature plants (2023)
Adaptor protein (AP) complexes are evolutionarily conserved vesicle transport regulators that recruit coat proteins, membrane cargoes and coated vesicle accessory proteins. As in plants endocytic and post-Golgi trafficking intersect at the trans-Golgi network, unique mechanisms for sorting cargoes of overlapping vesicular routes are anticipated. The plant AP complexes are part of the sorting machinery, but despite some functional information, their cargoes, accessory proteins and regulation remain largely unknown. Here, by means of various proteomics approaches, we generated the overall interactome of the five AP and the TPLATE complexes in Arabidopsis thaliana. The interactome converged on a number of hub proteins, including the thus far unknown adaptin binding-like protein, designated P34. P34 interacted with the clathrin-associated AP complexes, controlled their stability and, subsequently, influenced clathrin-mediated endocytosis and various post-Golgi trafficking routes. Altogether, the AP interactome network offers substantial resources for further discoveries of unknown endomembrane trafficking regulators in plant cells.
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