The plant hormone ethylene is produced in response to a variety of environmental stresses. Previous work has shown that flooding or anaerobic stress in the roots of tomato plants caused an increase in the production of the ethylene precursor 1-aminocyclopropane-1-carboxylate (ACC) in the roots, due to flooding-induced activity of ACC synthase (EC 4.4.1.14). RNA was extracted from roots and leaves of tomato plants flooded over a period of 48 h. Blot analysis of these RNAs hybridized with probes for four different ACC synthases revealed that the ACC synthase gene LE-ACS3 is rapidly induced in roots. LE-ACS2 is also induced, but at later times. The genomic clone for LE-ACS3 was isolated and sequenced. At all time points, the probe from the LE-ACS3 coding region hybridized to two bands in the RNA blots. Hybridization using the first and third introns of LE-ACS3 separately as probes indicate that flooding may inhibit processing of the LE-ACS3 transcript. Sequence homology analysis identified three putative cis-acting response elements in the promoter region, corresponding to the anaerobic response element from the maize adh1 promoter, the root-specific expression element from the cauliflower mosaic virus 35S promoter and a recognition element for chloroplast DNA binding factor I from the maize chloroplast ATP synthase promoter.
Many terrestrial plants respond to flooding with enhanced ethylene production. The roots of flooded plants produce 1-aminocyclopropane-1-carboxylic acid (ACC), which is transported from the root to the shoot, where it is converted to ethylene. In the roots, ACC is synthesized by ACC synthase, which is encoded by a multigene family. Previously, we identified two ACC synthase genes of tomato that are involved in floodinginduced ethylene production. Here, we report the cloning of LE-ACS7, a new tomato ACC synthase with a role early during flooding but also in the early wound response of leaves. The promoter of LE-ACS7 is tagged by a Sol3 transposon. A Sol3 transposon is also present in the tomato polygalacturonase promoter to which it conferred regulatory elements. Thus, Sol3 transposons may affect the regulation of LE-ACS7 and may be involved in the communication between the root and the shoot of waterlogged tomato plants.
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