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Stacked traits have become an important trend in the current development of genomically modified crops. The bidirectional promoter can not only prevent the co-suppression of multigene expression, but also increase the efficiency of the cultivation of transgenic plants with multigenes. In <i>Gossypium hirsutum</i>, <i>Ghrack1</i> and <i>Ghuhrf1</i> are head-to-head gene pairs located on chromosome D09. We cloned the 1429-bp intergenic region between the <i>Ghrack1</i> and <i>Ghuhrf1</i> genes from <i>Gossypium hirsutum</i>. The cloned DNA fragment GhZU had the characteristics of a bidirectional promoter, with 38.7% G+C content, three CpG islands and no TATA-box. Using <i>gfp</i> and <i>gus</i> as reporter genes, a series of expression vectors were constructed into young leaves of tobacco. The histochemical GUS (Beta-glucuronidase) assay and GFP (green fluorescence protein) detection results indicated that GhZU could drive the expression of the reporter genes <i>gus</i> and <i>gfp</i> simultaneously in both orientations. Furthermore, we transformed the expression vectors into <i>Arabidopsis</i> and found that GUS was concentrated at vigorous growth sites, such as the leaf tip, the base of the leaves and pod, and the stigma. GFP was also mainly expressed in the epidermis of young leaves. In summary, we determined that the intergenic region GhZU was an orientation-dependent bidirectional promoter, and this is the first report on the bidirectional promoter from <i>Gossypium hirsutum</i>. Our findings in this study are likely to enhance understanding on the regulatory mechanisms of plant bidirectional promoters.