Transmembrane auxin carrier systems – dynamic regulators of polar auxin transport

Treatment of etiolated zucchini (Cucurbita pepo L.) hypocotyl tissue with sub-micromolar concentrations of the cationophore monensin rapidly ( < 20 min) inhibited the transport catalytic activity of the specific auxin-anion efflux carrier and reduced the inhibition of this carrier by the phytotropin

The characteristics of transmembrane transport of 14Cqabelled indol-3yl-acetic acid ([1-14C]IAA) were compared in Chlorella vulgaris Beij., a simple unicellular green alga, and in Chara vulgaris L., a branched, multicellular green alga exhibiting axial polarity and a high degree of cell and organ sp

Correlatively inhibited pea shoots (Pisum satirum L.) did not transport apically applied 14C-labelled indol-3yl-acetic acid ([14C]IAA), and polar IAA transport did not occur in internodal segments cut from these shoots. Polar transport in shoots and segments recovered within 24 h of removing the dom

The transport of [14C]phenylacetic acid (PAA) in intact plants and stem segments of lightgrown pea (Pisum sativum L. cv. Alderman) plants was investigated and compared with the transport of [14C] indol-3yl-acetic acid (IAA). Although PAA was readily taken up by apical tissues, unlike IAA it did not

Phenylacetic acid (PAA), a naturally-occurring acidic plant growth substance, was readily taken up by pea (Pisum sativum L. cv. Alderman) stem segments from buffered external solutions by a pH-dependent, non-mediated diffusion. Net uptake from a 0.2 μM solution at pH 4.5 proceeded at a constant rate