Phalaenopsis belongs to Orchidaceae, and is one of the most valuable flower crops for sale abroad in Taiwan. In orchid nursery, Phalaenopsis is subjected to infection by many pathogens during different growing periods, and severe economic losses to growers often occur. Coronatine-insensitive 1 gene (COI1) is responsible of sensing jasmonic acid (JA) inside cells, and regulates downstream JA-responsive genes involved in disease resistance, senescence, root development, and male fertility. In this study, we utilized Arabidopsis COI1 gene sequence to search against Phalaenopsis EST library, and identified a partial 256 bp fragment of Phalaenopsis COI1 homologue. By Rapid Amplification of Complementary DNA Ends (RACE) methods, the full length of Phalaenopsis aphrodite COI1 (PaCOI1) cDNA was obtained and found PaCOI1 encodes a 585 amino acid residues protein. Phylogenetic analysis revealed that PaCOI1 is more closely related to homologues of monocot plants such as Oryza sativa and Triticum aestivum. The basal PaCOI1 transcript levels can be detected in root, stem, leaf, stalk and flower. After wounding and exogenous MeJA treatments, PaJAZ1 and PaMYC2 genes, two downstream targets in JA signaling pathway, were quickly and dramatically induced within two hours. Wound-induced accumulation of e PaJAZ1 and PaMYC2 mRNAs was largely dependent on PaCOI1. In response to pathogen infection, PaJAZ1 and PaMYC2 were also differentially regulated. In order to determine the function of PaCOI1 gene, silencing and overexpression vectors were constructed and Agrobacterium-mediated transient gene expression and silencing systems were used. Gene expression studies confirmed that PaCOI1 in VIGS silencing plants was reduced to 30-40％ of the wild-type level. When challenging silencing plants with different pathogens, more severe symptoms were found by F. solani infection. No significant difference in lesion development of PaCOI1 overexpression plants was found when infected with F. solani or E. chrysanthemi. Finally, Fast Agro-mediated Seedling Transformation (FAST) method was successfully employed to deliver and express PaCOI1 in Arabidopsis. Our studies demonstrate that PaCOI1 is an important P. aphrodite gene involved in pathogen and wounding induced JA signaling pathway.