Marker-free transgenic cucumber expressing Arabidopsis cbf1 gene confers chilling stress tolerance
2012
Gupta, N., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research | Rathore, M., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research | Goyary, D., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research | Khare, N., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research | Anandhan, S., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research | Pande, V., Kumaon Univ., Nainital (India). Dept. of Biotechnology | Ahmed, Z., Ministry of Defence, Haldwani (India). Defence Inst. of Bio-Energy Research
Marker-free transgenic Cucumis sativus cv. Poinsett 76 SR plants were produced by Agrobacterium mediated transformation. A transformation efficiency of 1.62 was observed on using Agrobacterium tumefaciens strain LBA4404 harbouring Arabidopsis cbf1 gene driven by the inducible promoter RD29A in a binary vector system pCAMBIA. Transgene integration and single copy insert in transgenic cucumber was confirmed by polymerase chain reaction (PCR) and Southern blot analysis in T0 lines and also confirmed marker-free status in T1 generation. Transgene expression was confirmed by reverse transcription (RT)-PCR in T1 generation transgenic cucumber and advanced to T2 generation. Upon exposure to chilling stress (4 deg C), the T2 generation transgenic plants survived up to 36 h; however, wild-type plants could not survive and gradually died. A significant decrease in membrane injury index (MII), increase in activities of antioxidant enzymes (SOD and CAT), free proline content and relative water content in the leaves were observed in transgenic cucumber as compared to wild-type under chilling stress. Thus, the transgenic cucumber plants expressing Arabidopsis cbf1 gene conferred protection against chilling stress.
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