Formaldehyde-assisted isolation of regulatory DNA elements from Arabidopsis leaves.

Eukaryotic gene transcription is associated with the eviction of nucleosomes and the formation of open chromatin, which enables the recruitment of transcriptional coactivators and other regulatory factors. Open chromatin is thus a hallmark of functional regulatory DNA elements in genomes. In recent years, formaldehyde-assisted isolation of regulatory elements (FAIRE) has proven powerful in identifying open chromatin in the genome of various eukaryotes, particularly yeast, human, and mouse.

Isolation of Open Chromatin Identifies Regulators of Systemic Acquired Resistance.

Upon local infection, plants activate a systemic immune response called systemic acquired resistance (SAR). During SAR, systemic leaves become primed for the superinduction of defense genes upon reinfection. We used formaldehyde-assisted isolation of regulatory DNA elements coupled to next-generation sequencing to identify SAR regulators.

Innate immune memory in plants.

The plant innate immune system comprises local and systemic immune responses. Systemic plant immunity develops after foliar infection by microbial pathogens, upon root colonization by certain microbes, or in response to physical injury. The systemic plant immune response to localized foliar infection is associated with elevated levels of pattern-recognition receptors, accumulation of dormant signaling enzymes, and alterations in chromatin state.