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. 2019 Sep 25;36(3):181–185. doi: 10.5511/plantbiotechnology.19.0814a

Figure 1. T-DNA transformed in Oncidum “Honey Snow” MF-1 and floret appearance. (A) Schematic diagram of T-DNA transformed in transgenic Oncidium “Honey Snow” MF-1.PSY, a 150-bp fragment of the phytoene synthase gene, intronGUS, a β-glucuronidase gene containing an intron of the castor bean catalase gene; HPTII, hygromycin phosphotransferase II derived from E. coli; Pchrc, promoter of the OgCHRC gene; 35S-P, CaMV35S promoter; NOS-T, terminator of the nopalin synthase gene derived from Rhizobium radiobacter; RB and LB, right and left border. (B) Typical floret of non-transgenic Oncidium “Honey Angel”. (C) Typical floret of Oncidium “Honey Snow” MF-1.

Figure 1. T-DNA transformed in Oncidum “Honey Snow” MF-1 and floret appearance. (A) Schematic diagram of T-DNA transformed in transgenic Oncidium “Honey Snow” MF-1.PSY, a 150-bp fragment of the phytoene synthase gene, intronGUS, a β-glucuronidase gene containing an intron of the castor bean catalase gene; HPTII, hygromycin phosphotransferase II derived from E. coli; Pchrc, promoter of the OgCHRC gene; 35S-P, CaMV35S promoter; NOS-T, terminator of the nopalin synthase gene derived from Rhizobium radiobacter; RB and LB, right and left border. (B) Typical floret of non-transgenic Oncidium “Honey Angel”. (C) Typical floret of Oncidium “Honey Snow” MF-1.