Abstract
Previously, we developed a particle bombardment-mediated transformation protocol in Phyllostachys nigra bamboo by expressing hygromycin phosphotransferase gene (HPT) and neomycin phosphotransferase II gene (NPT II). Although these marker genes could introduce to several tissue cultured organs (e.g. leaves, buds, and calli) of Phyllostachs bamboo species, some organs showed a high susceptibility and/or a low selectivity to hygromycin and kanamycin. In this report, therefore, we describe advantages and technical details for generating stable transgenic bamboo cells using the particle bombardment method with the mutated-acetolactate synthase gene (mALS) from rice (W548L/S627IOsALS) as a non-antibiotic selection marker. A facile and efficient transformation was achieved with the mALS gene and enhanced fluorescent protein gene (mCherry). Approximately 490 and 1400 mCherry-expressing cells/dish/shot in average were observed in both P. bambusoides and P. nigra under fluorescent stereo-microscope. Stable transgenic bamboo cell lines were generated in a selection medium supplemented with 0.1 μM of bispyribac-sodium (BS) as ALS inhibitor. The integration of mALS gene was identified by in vivo ALS enzyme assay and a PCR-restriction fragment length polymerphism (RFLP) based detection procedures.
Highlights
Acetolactate synthase (ALS: EC 2.2.1.6) is the common enzyme in the biosynthetic pathway of the branchedchain amino acids leucine, isoleucine, and valine
We describe advantages and technical details for generating stable transgenic bamboo cells using the particle bombardment method with the mutated-acetolactate synthase gene from rice (W548L/S627IOsALS) as a non-antibiotic selection marker
We described advantages and technical details for generating stable transgenic bamboo cells using the particle bombardment method with mutated-acetolactate synthase gene (mALS) gene as a non-antibiotic selection marker
Summary
Acetolactate synthase (ALS: EC 2.2.1.6) is the common enzyme in the biosynthetic pathway of the branchedchain amino acids leucine, isoleucine, and valine. It was developed that the mALS gene can be used as a new selectable marker to produce transgenic plants such as Arabidopsis [2], rice [3,4,5], soybean [6], and wheat [7]. These contributions allow us to overcome many difficulties for the selection of transformants of the target plants. In order to investigate/improve biosynthetic pathway(s) of bamboo plants, it is essential to develop an efficient transformation protocol for a model cell culture system
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