Leaf senescence is a highly organized process and not a passive decay. Photosynthesizing mesophyll cells lose their functions in an early phase, while the epidermal layer with the stomates and the phloem remains functional throughout senescence. The subcellular compartmentation is maintained and allows the cooperation of different organelles in the remobilization of constituents. Nitrogen metabolism changes at the onset of senescence from assimilation to remobilization. Enzymes involved in nitrate reduction are lost, while some enzymes of intermediary nitrogen metabolism are maintained longer, and some catabolic enzymes reach highest activities during senescence. Chloroplasts are dismantled early, but mitochondria remain active and may fuel...
Delay in leaf senescence to a maximal extent is an agronomically desired trait. The photosynthetic c...
Senescence, nitrogen remobilization and proteolytic activities in the flag leaf lamina of detached w...
Leaf senescence is a developmental process characterized by two events: (1) dismantling of the photo...
Plants are able to utilize nitrogen very economically. The high mobility of this macronutrient in xy...
This review covers the changes in the nitrogen metabolism during senescence of annual plants. The re...
Senescence is a highly organized and well‐regulated process. As much as 75% of total cellular nitrog...
Senescence-associated coordination in amounts of enzymes localized in different cellular compartment...
Leaf senescence has an important role in the plant’s nitrogen economy. Chlorophyll catabolism is a v...
The functions of mitochondria during leaf senescence, a type of programmed cell death aimed at the m...
Leaf senescence is a long developmental process important for nutrient management and for source to ...
Leaf senescence is currently considered the last stage of leaf development and is a genetically prog...
How do organisms, organs, tissues and cells change their fate when they age towards senescence and d...
International audienceDifferential palisade and spongy parenchyma structural changes in oilseed rape...
The extracellular space of leaves is a highly dynamic compartment harboring a number of activities i...
Leaf senescence is a developmentally controlled process, which is additionally modulated by a number...
Delay in leaf senescence to a maximal extent is an agronomically desired trait. The photosynthetic c...
Senescence, nitrogen remobilization and proteolytic activities in the flag leaf lamina of detached w...
Leaf senescence is a developmental process characterized by two events: (1) dismantling of the photo...
Plants are able to utilize nitrogen very economically. The high mobility of this macronutrient in xy...
This review covers the changes in the nitrogen metabolism during senescence of annual plants. The re...
Senescence is a highly organized and well‐regulated process. As much as 75% of total cellular nitrog...
Senescence-associated coordination in amounts of enzymes localized in different cellular compartment...
Leaf senescence has an important role in the plant’s nitrogen economy. Chlorophyll catabolism is a v...
The functions of mitochondria during leaf senescence, a type of programmed cell death aimed at the m...
Leaf senescence is a long developmental process important for nutrient management and for source to ...
Leaf senescence is currently considered the last stage of leaf development and is a genetically prog...
How do organisms, organs, tissues and cells change their fate when they age towards senescence and d...
International audienceDifferential palisade and spongy parenchyma structural changes in oilseed rape...
The extracellular space of leaves is a highly dynamic compartment harboring a number of activities i...
Leaf senescence is a developmentally controlled process, which is additionally modulated by a number...
Delay in leaf senescence to a maximal extent is an agronomically desired trait. The photosynthetic c...
Senescence, nitrogen remobilization and proteolytic activities in the flag leaf lamina of detached w...
Leaf senescence is a developmental process characterized by two events: (1) dismantling of the photo...