In order to create new color of Phalaenopsis flower, a yellow pigment biosynthesis-related gene, aureusidin synthase gene, was cloned and analyzed from Oncidium. The gene fragment of aureusidin synthase from snapdragon (AmAS1) was used as probe to screen a genomic library of Oncidium. Based on restriction endonuclease maps and sequence analysis of genomic clone λOgAS9, aureusidin synthase gene from Oncidium was obtained and named OgAS1 (accession number AY858697 in GenBank). Nucleotide sequence analysis revealed that OgAS1 is 2,145 bp in length and contains two exons and one intron of 507 bp. OgAS1 encodes a polypeptide of 545 amino acid residues whose predicted molecular weight is 62.7 KDa. The deduced amino acid sequences of OgAS1 showed the highest homology with the duduced amino acid sequences of polyphenol oxidase gene from pineapple for 44.4％. Based on the result of Southern blot analysis, aureusidin synthase gene from Oncidium belongs to high-copy gene. The accumulation of mRNA was found primarily in the flowers. To understand the function of OgAS1, the open reading frame of OgAS1 was constructed into gene expression vector driven by 2 X CaMV 35S promoter. The HPLC chromatographic profile of the extract of untransformed yellow snapdragon revealed that the obvious peak at retention time 12.57 min was aureusidin which had the maximum absorption wavelength at 405 nm. Transient expression analysis of OgAS1 and AmAS1 in yellow snapdragon petals by particle bombardment displayed that the peak of aureusidin rose. However, transient expression analysis of OgAS1 and AmAS1 in white snapdragon petals showed the peak was downward. Co-transformation of chalcone synthase (CHS) gene from Phalaenopsis and AmAS1 in Phalaenopsis petals resulted that a rising peak of an unknown chemical whose retention time was 12.7 min and its maximum absorption wavelength was 370 nm. That was presumed to be a kind of chalcone. The HPLC chromatographic profile for yellow Oncidium petals transformed with OgAS1 revealed the peak of aureusidin was downward obviously. Gene silencing caused by transformed homologous gene could be one possible explanation for this phenomenon. In the promoter sequence analysis of Oncidium aureusidin synthase gene, many predicted responsive elements related to auxin, light, wounding and disease resistance were found.