Cold stress and acclimation – what is important for metabolic adjustment?
Janská A., Maršík P., Zelenková S., Ovesná J.
PLANT BIOLOGY 12 [3]: 395–405, 2010
Keywords: Cold acclimation; crops; metabolomics; proteomics; signalling; transcriptomics.
Abstract: As sessile organisms, plants are unable to escape from the many abiotic and biotic factors that cause a departure from optimal conditions of growth and development. Low temperature represents one of the most harmful abiotic stresses affecting temperate plants. These species have adapted to seasonal variations in temperature by adjusting their metabolism during autumn, increasing their content of a range of cryo-protective compounds to maximise their cold tolerance. Some of these molecules are synthesised de novo. The down-regulation of some gene products represents an additional important regulatory mechanism. Ways in which plants cope with cold stress are described, and the current state of the art with respect to both the model plant Arabidopsis thaliana and crop plants in the area of gene expression and metabolic pathways during low-temperature stress are discussed.
DOI:
Fulltext: contact IEB authors
IEB authors: Petr Maršík
PLANT BIOLOGY 12 [3]: 395–405, 2010
Keywords: Cold acclimation; crops; metabolomics; proteomics; signalling; transcriptomics.
Abstract: As sessile organisms, plants are unable to escape from the many abiotic and biotic factors that cause a departure from optimal conditions of growth and development. Low temperature represents one of the most harmful abiotic stresses affecting temperate plants. These species have adapted to seasonal variations in temperature by adjusting their metabolism during autumn, increasing their content of a range of cryo-protective compounds to maximise their cold tolerance. Some of these molecules are synthesised de novo. The down-regulation of some gene products represents an additional important regulatory mechanism. Ways in which plants cope with cold stress are described, and the current state of the art with respect to both the model plant Arabidopsis thaliana and crop plants in the area of gene expression and metabolic pathways during low-temperature stress are discussed.
DOI:
Fulltext: contact IEB authors
IEB authors: Petr Maršík