Auxin-responsive protein MaIAA17-like modulates fruit ripening and ripening disorders induced by cold stress in ‘Fenjiao’ banana

Cold stress severely affects the banana fruit softening and de-greening, significantly inhibiting the ripening processes. However, the mechanism of ripening disorder caused by chilling injury (CI) in banana fruit remains largely unknown. Herein, MaIAA17-like, an Auxin/Indole-3-Acetic Acid (Aux/IAA) family member, was found to be highly related to the softening and de-greening in 'Fenjiao' banana. Its expression was rapidly increased with fruit ripening and then gradually decreased under normal ripening conditions (22 °C). Notably, cold storage severely repressed MaIAA17-like expression but was rapidly increased following ethephon treatment for ripening in fruits without CI. However, the expression repression was not reverted in fruits with serious CI symptoms after 12 days of storage at 7 °C. AtMaIAA17-like bound and regulated the activities of promoters of chlorophyll (MaNOL and MaSGR1), starch (MaBAM6 and MaBAM8), and cell wall (MaSUR14 and MaPL8) degradation-related genes. MaIAA17-like also interacted with ethylene-insensitive 3-binding F-box protein (MaEBF1), further activating the expression of MaNOL, MaBAM8, MaPL8, and MaSUR14. Generally, the transient overexpression of MaIAA17-like promoted fruit ripening by inducing the expression of softening and de-greening related genes. However, silencing MaIAA17-like inhibited fruit ripening by reducing the expression of softening and de-greening related genes. These results imply that MaIAA17-like modulates fruit ripening by transcriptionally upregulating the key genes related to fruit softening and de-greening.