scholarly article | Q13442814 |
P356 | DOI | 10.1074/MCP.M400004-MCP200 |
P698 | PubMed publication ID | 14973157 |
P50 | author | Alma L Burlingame | Q78114859 |
Eran Perlson | Q96738848 | ||
Mike Fainzilber | Q37828795 | ||
P2093 | author name string | Katalin F Medzihradszky | |
Zsuzsanna Darula | |||
Naweed I Syed | |||
David W Munno | |||
P2860 | cites work | Increased calpain I-mediated proteolysis, and preferential loss of dephosphorylated NF200, following traumatic spinal cord injury | Q57839879 |
Proteomic analysis of NMDA receptor-adhesion protein signaling complexes | Q28138918 | ||
Calpain-induced proteolysis of beta-spectrins | Q28297300 | ||
Retrograde labeling of single neurons in conjunction with MALDI high-energy collision-induced dissociation MS/MS analysis for peptide profiling and structural characterization | Q30980944 | ||
Functional assignment of the 20 S proteasome from Trypanosoma brucei using mass spectrometry and new bioinformatics approaches. | Q30987433 | ||
Single-neuron analysis using CE combined with MALDI MS and radionuclide detection | Q32062515 | ||
Neuro-regeneration: plasticity for repair and adaptation | Q33733439 | ||
Implication of cysteine proteases calpain, cathepsin and caspase in ischemic neuronal death of primates | Q33935231 | ||
Calpain inhibitors as therapeutic agents in nerve and muscle degeneration | Q33936871 | ||
Remarkable conservation of structure among intermediate filament genes | Q34250558 | ||
A structural scaffolding of intermediate filaments in health and disease | Q34453208 | ||
Promoting axonal regeneration in the central nervous system by enhancing the cell body response to axotomy | Q34587533 | ||
Signaling the pathway to regeneration | Q34747085 | ||
Beyond structure: do intermediate filaments modulate cell signalling? | Q34811438 | ||
A new millenium for spinal cord regeneration: growth-associated genes | Q34832424 | ||
How does an axon grow? | Q35110672 | ||
Synapse signalling complexes and networks: machines underlying cognition | Q35591878 | ||
Calpain activity promotes the sealing of severed giant axons | Q36146625 | ||
Characterization of the nucleic acid binding region of the intermediate filament protein vimentin by fluorescence polarization | Q38317319 | ||
Long-term memory survives nerve injury and the subsequent regeneration process. | Q39897531 | ||
Identification of a cellular protein that functionally interacts with the C2 domain of cytosolic phospholipase A(2)alpha | Q40907657 | ||
Priming events and retrograde injury signals. A new perspective on the cellular and molecular biology of nerve regeneration. | Q41189046 | ||
Short window of opportunity for calpain induced growth cone formation after axotomy of Aplysia neurons | Q44124501 | ||
Filopodial calcium transients regulate growth cone motility and guidance through local activation of calpain. | Q44452757 | ||
Rapid electrical and delayed molecular signals regulate the serum response element after nerve injury: convergence of injury and learning signals | Q44615628 | ||
O-sulfonation of serine and threonine: mass spectrometric detection and characterization of a new posttranslational modification in diverse proteins throughout the eukaryotes. | Q44748819 | ||
Neurotrophic activities of trk receptors conserved over 600 million years of evolution | Q44929977 | ||
From snails to sciatic nerve: Retrograde injury signaling from axon to soma in lesioned neurons. | Q47285489 | ||
Axoplasmic importins enable retrograde injury signaling in lesioned nerve. | Q47306740 | ||
Appendix 5. Nomenclature for peptide fragment ions (positive ions). | Q50704572 | ||
Role of the intermediate filament protein vimentin in delaying senescence and in the spontaneous immortalization of mouse embryo fibroblasts. | Q52050056 | ||
RISK-1: a novel MAPK homologue in axoplasm that is activated and retrogradely transported after nerve injury. | Q52138106 | ||
P433 | issue | 5 | |
P304 | page(s) | 510-520 | |
P577 | publication date | 2004-02-18 | |
P1433 | published in | Molecular & Cellular Proteomics | Q6895932 |
P1476 | title | Differential proteomics reveals multiple components in retrogradely transported axoplasm after nerve injury | |
P478 | volume | 3 |
Q38170264 | Axon-soma communication in neuronal injury |
Q33855022 | Axonal transport proteomics reveals mobilization of translation machinery to the lesion site in injured sciatic nerve |
Q30494181 | Axoplasm isolation from peripheral nerve |
Q37580218 | Chapter 28: Future perspective in peripheral nerve reconstruction |
Q26752052 | Clinical proteomics of enervated neurons |
Q92867388 | Intermediate filaments in developing neurons: Beyond structure |
Q28088569 | Lessons in de novo peptide sequencing by tandem mass spectrometry |
Q37129344 | Local gene expression in axons and nerve endings: the glia-neuron unit |
Q28570174 | Localized regulation of axonal RanGTPase controls retrograde injury signaling in peripheral nerve |
Q33855014 | Neuroproteomics approaches to decipher neuronal regeneration and degeneration |
Q42548970 | Neuroproteomics: How Many Angels can be Identified in an Extract from the Head of a Pin? |
Q44748819 | O-sulfonation of serine and threonine: mass spectrometric detection and characterization of a new posttranslational modification in diverse proteins throughout the eukaryotes. |
Q46865780 | On-line confocal imaging of the events leading to structural dedifferentiation of an axonal segment into a growth cone after axotomy |
Q38911074 | Pain in the Blood? Envisioning Mechanism-Based Diagnoses and Biomarkers in Clinical Pain Medicine |
Q24655063 | Proteomic analysis of post-translational modifications in conditioned Hermissenda |
Q28251549 | Proteomics of the human brain: sub-proteomes might hold the key to handle brain complexity |
Q34555696 | Retrograde signaling in injured nerve--the axon reaction revisited |
Q27313834 | Soluble axoplasm enriched from injured CNS axons reveals the early modulation of the actin cytoskeleton |
Q35809020 | Spatiotemporal expression profiling of proteins in rat sciatic nerve regeneration using reverse phase protein arrays |
Q30523785 | Subcellular knockout of importin β1 perturbs axonal retrograde signaling |
Q38075511 | Understanding regeneration through proteomics |
Search more.