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Acute fipronil toxicity in humans following intentional ingestion: a case report with favorable outcome from a resource-limited setting. [PDF]
Abebe AB, Ayenew DE, Asfaw SD.
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Deciphering the Neuroautophagic Interactome: Molecular Circuits Linking Selective Autophagy to Neuropathological Cascades in Neurological Disorders. [PDF]
Luo P +6 more
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Structural and functional investigation of the cytoplasmic domain of the Fas death receptor
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Biological Reviews, 2019
ABSTRACTThe death domain (DD) is a globular protein motif with a signature feature of an all‐helical Greek‐key motif. It is a primary mediator of a variety of biological activities, including apoptosis, cell survival and cytoskeletal changes, which are related to many neurodegenerative diseases, neurotrauma, and cancers.
Wensu Yuan, CARLOS F Ibanez, Zhi Lin
exaly +3 more sources
ABSTRACTThe death domain (DD) is a globular protein motif with a signature feature of an all‐helical Greek‐key motif. It is a primary mediator of a variety of biological activities, including apoptosis, cell survival and cytoskeletal changes, which are related to many neurodegenerative diseases, neurotrauma, and cancers.
Wensu Yuan, CARLOS F Ibanez, Zhi Lin
exaly +3 more sources
Biochemical and Biophysical Research Communications, 2005
Death receptors (DRs) can induce apoptosis by oligomerization with TRAIL, whereas death decoy receptors (DcRs) cannot, due to their lack of functional intracellular death domains. However, it is not known whether DRs and DcRs can interact with one another to form oligomeric complexes prior to TRAIL binding.
Hyun-Wook, Lee +5 more
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Death receptors (DRs) can induce apoptosis by oligomerization with TRAIL, whereas death decoy receptors (DcRs) cannot, due to their lack of functional intracellular death domains. However, it is not known whether DRs and DcRs can interact with one another to form oligomeric complexes prior to TRAIL binding.
Hyun-Wook, Lee +5 more
openaire +2 more sources

