Salt- and osmotic stress-induced choline monooxygenase expression in Kochia scoparia is ABA-independent

Salt- and osmotic stress-induced choline monooxygenase expression in Kochia scoparia is ABA-independent

Choline monooxygenase (CMO) is the first regulatory enzyme in the biosynthetic pathway for glycine betaine, an effective osmoprotectant in Kochia scoparia, a highly drought- and salt-tolerant species. In seedlings, CMO transcript levels are rapidly increased in response to both NaCl and osmotic stre...

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Veröffentlicht in:Biologia plantarum 2012-12, Vol.56 (4), p.699-704
Hauptverfasser: Kalinina, E. B, Keith, B. K, Kern, A. J, Dyer, W. E
Format: Artikel
Sprache:eng
Schlagworte:
abscisic acid
Bassia scoparia
betaine
Biomedical and Life Sciences
choline
gene expression
glycine betaine
iso-osmotic treatments
Life Sciences
messenger RNA
northern hybridization
osmotic stress
osmotolerance
Plant Sciences
reverse transcription quantitative pcr
roots
salt stress
seedlings
shoots
signal transduction
sodium chloride
stress tolerance
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Zusammenfassung:Choline monooxygenase (CMO) is the first regulatory enzyme in the biosynthetic pathway for glycine betaine, an effective osmoprotectant in Kochia scoparia, a highly drought- and salt-tolerant species. In seedlings, CMO transcript levels are rapidly increased in response to both NaCl and osmotic stress treatments. The mRNA level in shoots was substantially higher than in roots. The rapid induction seen in whole plants was in contrast to the apparent down-regulation observed in suspension-cultured K. scoparia cells in response to the same salt stress. Treatment with exogenous abscisic acid (ABA) or fluridone shows that CMO induction proceeds via an ABA-independent signal transduction pathway. Examination of the CMO upstream regulatory region reveals a number of stress response-related elements, some of which may be involved in the stress tolerance shown by this species.
ISSN:0006-3134
1573-8264
1573-8264
DOI:10.1007/s10535-012-0132-0