The AUX and PIN auxin carrier proteins are transported by both ESCRT-dependent and ESCRT-independent pathways. The AUX and PIN auxin carrier proteins are.

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The AUX and PIN auxin carrier proteins are transported by both ESCRT-dependent and ESCRT-independent pathways. The AUX and PIN auxin carrier proteins are transported by both ESCRT-dependent and ESCRT-independent pathways. ESCRT is essential for the degradation of auxin influx carriers (AUX, red ovals) and pin-formed auxin efflux carriers (PIN1 or PIN2 proteins, black diamonds), but not for their recycling back to the plasma membrane (Spitzer et al., 2009). These auxin transporter proteins are essential for proper growth of the cell and the determination of cellular polarity. The proper positioning of AUX and PIN proteins at opposite poles of the cell dictates the flow of auxin through the cell, and AUX and PIN proteins are internalized by endocytosis and accumulate at the TGN or EE, as illustrated by the blue arrows (pathway 1). This pathway is ESCRT dependent. The ESCRT-mediated transport pathway directs the auxin carrier proteins to the internal vesicles of the MVB, where they will be eventually transported into the lumen of the vacuole for degradation. AUX and PIN proteins can also be recycled back to the plasma membrane as illustrated by the thick red arrows (pathway 2) in an ESCRT-independent pathway. Organelles are depicted as in Fig. 1. Anthony L. Contento, and Diane C. Bassham J Cell Sci 2012;125:3511-3518 © 2012. Published by The Company of Biologists Ltd