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The protein encoded by MAPK8IP3 shares similarity with the product of Drosophila syd gene, required for the functional interaction of kinesin I with axonal cargo. Additionally we are shipping Mitogen-Activated Protein Kinase 8 Interacting Protein 3 Antibodies (50) and and many more products for this protein.
our data provide strong evidence that Jip3 in fact serves as an adapter protein linking these cargos to dynein
The crystal structure of an N-terminally truncated form of LZII of JIP3 alone shows an unexpected antiparallel arrangement.
Results demonstrated the increased expression of JIP3 in the temporal neocortex of TLE patients and in the experimental model of epileptic seizures
JSAP1 and JLP (show SPAG9 ELISA Kits) play critical roles in kinesin-1-dependent axonal transport
The results of this study finding suggested that a model by which the self-assembly of SYD-2/Liprin (show PPFIA1 ELISA Kits)-alpha proteins mediated by the coiled-coil LH1 domain is one of the key steps to the accumulation of presynaptic components at nascent synaptic junctions
This study demonistrated that JIP3 mediates TrkB (show NTRK2 ELISA Kits) axonal anterograde transport and enhances BDNF (show BDNF ELISA Kits) signaling by directly bridging TrkB (show NTRK2 ELISA Kits) with kinesin-1.
Expression of constitutively active PI3K (show PIK3CA ELISA Kits) stimulated translocation of Tiam1 to the membrane, increased Rac1 activity, and increased wound healing of airway epithelial cells. Increased Rac1 activity resulted in increased phosphorylation of JNK1 (show MAPK8 ELISA Kits).
demonstration that JSAP1 bound ASK1 (show MAP3K5 ELISA Kits) and enhanced ASK1 (show MAP3K5 ELISA Kits)- and H2O2-induced JNK (show MAPK8 ELISA Kits) activity
Pressure application of 160 mmHg for 3 h produced cell proliferation and activated ERK (show EPHB2 ELISA Kits) and c-JUN N-terminal kinase
JIP1 (show MAPK8IP1 ELISA Kits) and JIP3, have a cross-talk that leads to the regulation of the ASK1 (show MAP3K5 ELISA Kits)-SEK1 (show MAP2K4 ELISA Kits)-JNK (show MAPK8 ELISA Kits) signal during glucose deprivation; cross-talk between JIP3 and JIP1 (show MAPK8IP1 ELISA Kits) is mediated through SEK1 (show MAP2K4 ELISA Kits)-JNK2 (show MAPK9 ELISA Kits) and Akt1 (show AKT1 ELISA Kits).
JSAP1.FAK (show PTK2 ELISA Kits) complex functions cooperatively as a scaffold for the JNK (show MAPK8 ELISA Kits) signaling pathway and regulator of cell migration on FN
These results establish the critical role of JIP3-dependent axonal lysosome transport in regulating amyloidogenic amyloid precursor protein (show APP ELISA Kits) processing and support a model wherein Abeta (show APP ELISA Kits) production is amplified by plaque-induced axonal lysosome transport defects.
Data show that c-Jun NH2-terminal kinase (JNK (show MAPK8 ELISA Kits))-interacting protein-3 (JIP3) participates in the migration of cortical neurons during cortical development by mediating TrkB (show NTRK2 ELISA Kits) receptor axonal anterograde transport.
JSAP1/JIP3 and JLP (show SPAG9 ELISA Kits) regulate kinesin-1-dependent axonal transport to prevent neuronal degeneration
These findings reveal that JIP3 regulation of kinesin-1 motility is critical for axon elongation and regeneration.
JSAP1 and JLP (show SPAG9 ELISA Kits), which might be paralogous to each other, are critical and functionally redundant in cytokinesis and control ARF6 (show ARF6 ELISA Kits) localization to the midbody by forming a tripartite complex of JSAP1/JLP (show SPAG9 ELISA Kits), active ARF6 (show ARF6 ELISA Kits), and kinesin-1.
JIP3 regulates neuronal axon elongation in a kinesin- and JNK (show MAPK8 ELISA Kits)-dependent manner
Results suggest that JSAP1 is required for the pathfinding of the developing telencephalic commissures in the early brains.
syd activates kinesin heavy chain for transport & enhances its motility, increasing its velocity & run length. syd mutants binding KHC but not kinesin light chain are transported to axons & dendrites normally.
The results provide evidence that ARF6 (show ARF6 ELISA Kits)/JIP3 signaling regulates neurite morphogenesis.
The protein encoded by this gene shares similarity with the product of Drosophila syd gene, required for the functional interaction of kinesin I with axonal cargo. Studies of the similar gene in mouse suggested that this protein may interact with, and regulate the activity of numerous protein kinases of the JNK signaling pathway, and thus function as a scaffold protein in neuronal cells. The C. elegans counterpart of this gene is found to regulate synaptic vesicle transport possibly by integrating JNK signaling and kinesin-1 transport. Several alternatively spliced transcript variants of this gene have been described, but the full-length nature of some of these variants has not been determined.
mitogen-activated protein kinase 8 interacting protein 3
, C-Jun-amino-terminal kinase-interacting protein 3
, JNK-interacting protein 3
, c-Jun-amino-terminal kinase-interacting protein 3-like
, C-jun-amino-terminal kinase interacting protein 3
, JNK MAP kinase scaffold protein 3
, JNK/SAPK-associated protein-1
, JNK/stress-activated protein kinase-associated protein 1
, homolog of Drosophila Sunday driver 2
, mitogen-activated protein kinase 8-interacting protein 3
, JNK/SAPK-associated protein 1
, JNK/SAPK-associated protein 1c
, JUN/SAPK-associated protein 1
, c-Jun NH2-terminal kinase (JNK)/stress-activated protein kinase-associated protein 1
, mitogen activated protein kinase 8 interacting protein 3
, sunday driver 2