Ectopic overexpression of vacuolar and apoplastic Catharanthus roseus peroxidases confers differential tolerance to salt and dehydration stress in transgenic tobacco

CrPrx and CrPrx1 are class III peroxidases previously cloned and characterized from Catharanthus roseus. CrPrx is known to be apoplastic in nature, while CrPrx1 is targeted to vacuoles. In order to study their role in planta , these two peroxidases were expressed in Nicotiana tabacum . The transform...

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Bibliographic Details
Published in:Protoplasma 2012-04, Vol.249 (2), p.423-432
Main Authors: Kumar, Santosh, Jaggi, Monika, Sinha, Alok Krishna
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Catharanthus - enzymology
Cell Biology
Dehydration
Life Sciences
Nicotiana - drug effects
Nicotiana - enzymology
Nicotiana - genetics
Original Article
Peroxidases - genetics
Peroxidases - metabolism
Plant Sciences
Plants, Genetically Modified - drug effects
Plants, Genetically Modified - enzymology
Plants, Genetically Modified - genetics
Sodium Chloride - toxicity
Vacuoles - enzymology
Zoology
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Summary:CrPrx and CrPrx1 are class III peroxidases previously cloned and characterized from Catharanthus roseus. CrPrx is known to be apoplastic in nature, while CrPrx1 is targeted to vacuoles. In order to study their role in planta , these two peroxidases were expressed in Nicotiana tabacum . The transformed plants exhibited increased peroxidase activity. Increased oxidative stress tolerance was also observed in transgenics when treated with H 2 O 2 under strong light conditions. However, differential tolerance to salt and dehydration stress was observed during germination of T1 transgenic seeds. Under these stresses, the seed germination of CrPrx- transformed plants and wild-type plants was clearly suppressed, whereas CrPrx1 transgenic lines showed improved germination. CrPrx- transformed lines exhibited better cold tolerance than CrPrx1- transformed lines. These results indicate that vacuolar peroxidase plays an important role in salt and dehydration stress over cell wall-targeted peroxidase, while cell wall-targeted peroxidase renders cold stress tolerance.
ISSN:0033-183X
1615-6102
DOI:10.1007/s00709-011-0294-1