Add to ORKGThe autophagic pathway is an evolutionarily conserved homeostatic process, responsible for degradation and recycling of long-term proteins and cytoplasmic organelles in eukaryotic cells. This process constitutively occurs at basal levels and is involved in cell survival. Increased autophagy is induced by environmental cues, such as starvation and many stress agents, while excessive levels of autophagy can lead to autophagic Programmed Cell Death, with features that differ from those of the apoptotic process. We recently demonstrated massive activation of autophagy in P. lividus embryos, in cadmium stress conditions, and the existence of a temporal relationship between induced autophagy end apoptosis. Although there are numerous studies on ...
Marine invertebrates inhabit a key position as intermediate consumers in the pelagic as well as in t...
During oogenesis, the oocyte stores a large amount of maternally provided products, including mRNAs ...
Sea urchin embryos are able to activate different defense strategies against stress. This model syst...
The autophagic pathway is an evolutionarily conserved homeostatic process, responsible for degradati...
Autophagy is a major intracellular pathway for the degradation and recycling of cytosolic components...
It is well known that autophagy is a major intracellular pathway for the degradation and recycling o...
Autophagy is a highly regulated mechanism that enhances cell eukaryotic survival under various envi...
It is well known that sea urchin embryos are able to activate different defense strategies against s...
Sea urchin embryo is a developmental model that offers an excellent opportunity to investigate the p...
Sea urchin embryo is a developmental model that offers an excellent opportunity to investigate the po...
The sea urchin embryo is a suitable model system that offers an excellent opportunity to investigate...
The sea urchin embryo is a suitable model system that offers an excellent opportunity to investigate...
The sea urchin embryo is a suitable model that offers an excellent opportunity to investigate differ...
Autophagy is a lysosome-mediated degradation pathway used by eukaryotes to recycle cytosolic compone...
Sea urchin embryos are highly sensitive to several kinds of stressors, and able to activate differe...
Marine invertebrates inhabit a key position as intermediate consumers in the pelagic as well as in t...
During oogenesis, the oocyte stores a large amount of maternally provided products, including mRNAs ...
Sea urchin embryos are able to activate different defense strategies against stress. This model syst...
The autophagic pathway is an evolutionarily conserved homeostatic process, responsible for degradati...
Autophagy is a major intracellular pathway for the degradation and recycling of cytosolic components...
It is well known that autophagy is a major intracellular pathway for the degradation and recycling o...
Autophagy is a highly regulated mechanism that enhances cell eukaryotic survival under various envi...
It is well known that sea urchin embryos are able to activate different defense strategies against s...
Sea urchin embryo is a developmental model that offers an excellent opportunity to investigate the p...
Sea urchin embryo is a developmental model that offers an excellent opportunity to investigate the po...
The sea urchin embryo is a suitable model system that offers an excellent opportunity to investigate...
The sea urchin embryo is a suitable model system that offers an excellent opportunity to investigate...
The sea urchin embryo is a suitable model that offers an excellent opportunity to investigate differ...
Autophagy is a lysosome-mediated degradation pathway used by eukaryotes to recycle cytosolic compone...
Sea urchin embryos are highly sensitive to several kinds of stressors, and able to activate differe...
Marine invertebrates inhabit a key position as intermediate consumers in the pelagic as well as in t...
During oogenesis, the oocyte stores a large amount of maternally provided products, including mRNAs ...
Sea urchin embryos are able to activate different defense strategies against stress. This model syst...