Identification of 2,4-D-responsive proteins in embryogenic callus of Valencia sweet orange (Citrus sinensis Osbeck) following osmotic stress

Abstract

The compound 2,4-Dicholorophenoxyacetic acid (2,4-D) is an important growth regulator which is used in the majority of embryogenic cell and tissue culture systems. However, 2,4-D also appears to have a negative effect on growth and development of plant tissues and organs cultured in vitro. For example, 2,4-D exerts inhibition on in vitro somatic embryo initiation and/or development of most citrus species. To understand the molecular mechanism by which 2,4-D inhibits somatic embryogenesis (SE), proteomic changes of Valencia sweet orange (Citrus sinensis) embryogenic callus induced by treatments with a high concentration of 2,4-D (6 mg l−1) was investigated. Nine 2,4-D-responsive proteins were identified, of which eight were up-regulated and one was down-regulated. Interestingly, three of the eight up-regulated proteins were osmotic stress-associated, suggesting that 2,4-D induced osmotic stress in Valencia embryogenic callus. This speculation was supported by results from our physiological studies: 2,4-D treated callus cells exhibited increased cytoplasm concentration with a significant reduction in relative water content (RWC) and an obvious increase in levels of two osmolytes (proline and soluble sugar). Taken together, our results suggested that 2,4-D could inhibit somatic embryo initiation by, at least in part, inducing osmotic stress to citrus callus cells.