Transgenic melon (cucumis meloL.) and potential for expression of novel proteins important to food industry

Stimulation of benzyladenine-induced in vitro shoot organogenesis and endogenous proline in melon (Cucumis melo L.) by fish protein hydrolysates in combination with proline analogues

A previous study demonstrated that proline is beneficial for improving melon in vitro shoot organogenesis. A natural source of proline and proline precursors can be obtained from fish protein hydrolysates (FPH), a byproduct of the fishery industry. Proline analogues azetidine-2-carboxylate and hydroxyproline in combination with standardized FPH were used to stimulate proline synthesis and benzyladenine-induced shoot organogenesis by exploiting the proposed proline-linked pentose phosphate pathway (PPP). In the presence of elevated levels of endogenous proline, potential stimulation of cytokinins and auxin may occur via the PPP and shikimate pathways, respectively. Treatments with FPH singly and in combination with the above proline analogues significantly increased the endogenous proline content and the extent of differentiation, suggesting that in vitro organogenesis is closely linked to proline synthesis, strengthening the hypothesis that purine metabolism via the proline-linked PPP may be important for organogenesis. Thioproline addition resulted in increased proline levels but without corresponding stimulation of organogenesis. This study also provides potential use of fishery waste for value-added application in plant micropropagation industry.