Detection of active cell death markers in rehydrated lichen thalli and the involvement of nitrogen monoxide (NO).

Abstract: Lichen desiccation/rehydration cycles lead to an increased oxidative stress modulated by the multifaceted mediator nitrogen monoxide (NO). Active cell death, frequently triggered by oxidative damage with NO participation, has been confirmed even in unicellular organisms. This adaptive mechanism has not been studied in lichens and no specific experimental protocols exist. Hoechst 33,342 enters viable cells and DNA binding increases its fluorescence, particularly intense in condensed apoptotic chromatin. YO-PRO-… Show more

“…In some lichens, these layers contain inflated algal cell walls as well, while in others, the remnant algal walls stay put and supposedly support the architectural integrity of thalli. New results, such as the detection of caspase-like activity as a marker of programmed cell death in lichens [ 7 ], opens many new questions about the organization of vitality in long persisting thallus structures.…”

Lichens growing greenhouses en miniature

“…In some lichens, these layers contain inflated algal cell walls as well, while in others, the remnant algal walls stay put and supposedly support the architectural integrity of thalli. New results, such as the detection of caspase-like activity as a marker of programmed cell death in lichens [ 7 ], opens many new questions about the organization of vitality in long persisting thallus structures.…”

Lichens growing greenhouses en miniature

Increase in NO causes osteoarthritis and chondrocyte apoptosis and chondrocyte ERK plays a protective role in the process

Role of NO in lichens