about
Prenatal stress induces long-term effects in cell turnover in the hippocampus-hypothalamus-pituitary axis in adult male ratsSpectrin interacts with EVL (Enabled/vasodilator-stimulated phosphoprotein-like protein), a protein involved in actin polymerizationThe pathogenic activation of calpain: a marker and mediator of cellular toxicity and disease statesTraumatic brain injury: can the consequences be stopped?Analysis of VEGF-responsive genes involved in the activation of endothelial cellsCrystal structure of an intracellular protease from Pyrococcus horikoshii at 2-A resolutionConcerted multi-pronged attack by calpastatin to occlude the catalytic cleft of heterodimeric calpainsThe toxicity of antiprion antibodies is mediated by the flexible tail of the prion proteinMolecular mechanisms of acrolein-mediated myelin destruction in CNS trauma and diseaseCalpain-mediated cleavage of the cyclin-dependent kinase-5 activator p39 to p29c-Src binds alpha II spectrin's Src homology 3 (SH3) domain and blocks calpain susceptibility by phosphorylating Tyr1176The calpain system is involved in the constitutive regulation of beta-catenin signaling functionsClinical characteristics and pathophysiological mechanisms of focal and diffuse traumatic brain injuryHonokiol induces calpain-mediated glucose-regulated protein-94 cleavage and apoptosis in human gastric cancer cells and reduces tumor growthInhibition of calpain cleavage of huntingtin reduces toxicity: accumulation of calpain/caspase fragments in the nucleusLinkage of caspase-mediated degradation of paxillin to apoptosis in Ba/F3 murine pro-B lymphocytesCalpain-6 deficiency promotes skeletal muscle development and regenerationCaspase-1-induced calpastatin degradation in myoblast differentiation and fusion: cross-talk between the caspase and calpain systemsCalpain-mediated cleavage of Beclin-1 and autophagy deregulation following retinal ischemic injury in vivoCalpain activation is required for glutamate-induced p27 down-regulation in cultured cortical neuronsGlutamate-induced apoptosis in neuronal cells is mediated via caspase-dependent and independent mechanisms involving calpain and caspase-3 proteases as well as apoptosis inducing factor (AIF) and this process is inhibited by equine estrogensCalpain-cleaved type 1 inositol 1,4,5-trisphosphate receptor (InsP(3)R1) has InsP(3)-independent gating and disrupts intracellular Ca(2+) homeostasisCalpain 1 and Calpastatin expression is developmentally regulated in rat brainIntracellular interleukin-1 receptor 2 binding prevents cleavage and activity of interleukin-1α, controlling necrosis-induced sterile inflammationDynamic role of postsynaptic caspase-3 and BIRC4 in zebra finch song-response habituationRegional and temporal profiles of calpain and caspase-3 activities in postnatal rat brain following repeated propofol administrationCalpastatin modulates APP processing in the brains of β-amyloid depositing but not wild-type miceExpression of calpain-calpastatin system (CCS) member proteins in human lymphocytes of young and elderly individuals; pilot baseline data for the CALPACENT project.Calpain-mediated cleavage of collapsin response mediator protein-2 drives acute axonal degenerationCaspase-mediated death of newly formed neurons in the adult rat dentate gyrus following status epilepticus.Crucial role of calpain in hypoxic PC12 cell death: calpain, but not caspases, mediates degradation of cytoskeletal proteins and protein kinase C-alpha and -delta.Critical role of calpain-mediated cleavage of calcineurin in excitotoxic neurodegeneration.Self-reactivities to the non-erythroid alpha spectrin correlate with cerebral malaria in Gabonese children.Small molecule, non-peptide p75 ligands inhibit Abeta-induced neurodegeneration and synaptic impairment.Spillway-induced salmon head injury triggers the generation of brain alphaII-spectrin breakdown product biomarkers similar to mammalian traumatic brain injury.Discrete proteolysis of neuronal calcium sensor-1 (NCS-1) by mu-calpain disrupts calcium binding.Apoptosis induced by acrylamide is suppressed in a 21.5% fat diet through caspase-3-independent pathway in mice testis.A panel of neuron-enriched proteins as markers for traumatic brain injury in humans.ROCK2 is a major regulator of axonal degeneration, neuronal death and axonal regeneration in the CNS.alphaII-Spectrin breakdown product cerebrospinal fluid exposure metrics suggest differences in cellular injury mechanisms after severe traumatic brain injury.
P2860
Q21134959-A536C65B-6E4A-4CA8-802E-207AB33CFA6FQ24298319-77B1EFA3-9082-4667-95D6-E05AFC62D5E0Q24643397-3387DA0E-84D9-440D-BFD5-90062D4E35DFQ24655846-896EC5E2-21A9-47C7-9DAA-0900249C5EAAQ24793121-226A01CC-0041-43AB-AC8B-B8D453523F52Q27628891-4AC2D37C-C8EB-4E0A-B581-442BC1B2DFE4Q27652953-3E82CFA3-19CE-4F84-B0B0-7B7161F33E4AQ27685314-85FEC81F-DCF4-4363-9BF6-2DC6B2CBA2F9Q28081607-80074610-0B72-407E-ACE8-C652E726F31CQ28215152-9A01356D-9334-45E6-A124-48AA62687620Q28215739-167F147A-2CDD-4CAE-950B-238CA8C12DA2Q28244055-E26A7EC7-2441-4F7D-9E1D-F0162996D193Q28390792-6F78C18A-AB3F-46AD-9330-E9757857B103Q28469331-52294AB0-05A5-4E0C-8D6C-55B7E11FE6EDQ28505053-474AF0E9-EA1D-4C57-A012-2E51642D7E6CQ28508545-D2CE329B-8E65-4A23-9B8B-DFBBAE981CCFQ28535028-D11DC311-8C3A-4299-ACA1-CE3638150A6BQ28564654-3D7F4A24-933D-400D-9751-CC25B13E4414Q28566495-7F5BA619-46EC-4809-A534-85223A6AA55FQ28568449-3162E232-92EC-4063-B9A5-4A1174C8C22EQ28575769-E62BBD04-7C14-400F-9BC6-A97C5D37D88EQ28576191-0EA89BA7-8F1E-4BDB-83EA-8A5F9FAFA3DCQ28584194-1C9E5A9F-AA09-47EF-9466-4E68BF0A147EQ28591187-9BDFA48F-BD9F-4569-B4CB-03B0E2E05B55Q28762978-5BEB1AEF-C11F-4AE5-AF60-02B451AFDD18Q30429452-02446E83-AB13-4AD5-B806-FD70B54F50C2Q30454134-78B89062-0579-42EA-B8FA-82CAA8B1CBA2Q30654017-0726E955-4D0A-479E-80D0-B3BDFA3AA1FEQ30828633-1BD91F75-9DCB-4F95-A383-34A417FC4CDBQ31116411-0F1FC970-8B25-4199-AADB-E24AEEA7E6DEQ33182268-F1385296-4943-435C-9971-872FF62633A5Q33195171-E829D701-F7A4-4353-AB60-6DF990595FE9Q33282860-607B563C-C43A-4BAF-96BA-01D5421BB1ABQ33382120-19B59DAD-A1B7-4A48-89F8-8EF5C671D433Q33408828-5EA7E49A-C58D-4C92-9373-8E49D21A7928Q33500422-F2A4FE69-BE32-4922-B447-65067E1D693CQ33502720-2A690337-0BDC-4749-81EC-D2076205AE86Q33657708-54153C3D-4D10-4364-9C2F-95E62BC048E6Q33720369-F620B1F4-DAEC-4B32-ACD2-0C5B570823FBQ33766805-23A8A73A-3F7D-4593-A075-83FD377DCDE8
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Calpain and caspase: can you tell the difference?
@ast
Calpain and caspase: can you tell the difference?
@en
type
label
Calpain and caspase: can you tell the difference?
@ast
Calpain and caspase: can you tell the difference?
@en
prefLabel
Calpain and caspase: can you tell the difference?
@ast
Calpain and caspase: can you tell the difference?
@en
P1476
Calpain and caspase: can you tell the difference?
@en
P2093
P356
10.1016/S0166-2236(99)01479-4
P577
2000-01-01T00:00:00Z