Abiotic Stress Response in Plants - Physiological, Biochemical and Genetic Perspectives

TL;DR: This draft genome sequence provides insight into the environmental adaptation of bread wheat and can aid in defining the large and complicated genomes of wheat species.

TL;DR: An insight is given into cross-tolerance between abiotic and biotic stress, focusing on the molecular level and regulatory pathways, which can lead to a cross-Tolerance and enhancement of a plant’s resistance against pathogens.

TL;DR: The data demonstrate that Cd perturbs the DNA methylation status through the involvement of a specific methyltransferase, linked to nuclear chromatin reconfiguration likely to establish a new balance of expressed/repressed chromatin.

TL;DR: Much of what is known about plant MRR centers around the response to a dysfunctional mtETC and subsequent induction of genes encoding proteins involved in recovery of mitochondrial functions, and genes encoding enzymes aimed at regaining ROS level/redox homeostasis.

TL;DR: It is proposed that the novel miRNAs present in common bean and other legumes, are involved in regulation of legume-specific processes including adaptation to diverse external cues.

TL;DR: Results suggest that the two subtypes of Arabidopsis metacaspases are functionally related to Yca1p with caspase-like characteristics, but it is found that bacterial and yeast extracts containing AtMCP1b, AtM CP2b, or YCA1p exhibit arginine/lysine-specific endopeptidase activities but cannot cleave caspases-specific substrates.

TL;DR: Measurement of expression levels showed a positive correlation between levels of miRNA expression and suppression of their target mRNA transcripts in dehydration-stress-treated barley.