Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.4 (kinesin)
 5,033 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The functional significance of biochemical and immunochemical heterogeneity in neuronal kinesin remains uncertain. Confocal laser scanning microscopy, cytofluorimetric scanning, and immunoblots were used for quantitative analyses of axonal transport and cellular distribution of immunochemically distinct kinesin heavy chain isoforms (H1 and H2) in rat peripheral nerve and spinal cord. H1 and H2 immunoreactivities (IR) were observed in axons proximal to a crush as early as 1 hr after the crush operation and increased linearly with time, consistent with fast axonal transport of both. Only approximately 10% of the proximal accumulations of H1-IR and H2-IR accumulated distal to the crush, in contrast to synaptophysin-IR (approximately 70%). H2-IR was widely present in peripheral nervous system and virtually colocalized with synaptic vesicle proteins synaptophysin, synaptobrevin I, and SNAP-25 and two neuropeptides [calcitonin gene-related peptide (CGRP) and substance P (SP)], although H2-IR was weaker in spinal cord terminals. In contrast, H1-IR appeared preferentially enriched in large axons, probably motor and large sensory neurons, which contained synaptophysin-IR, synaptobrevin I-IR, SNAP-25-IR, and CGRP-IR. However, H1-IR was weak or absent from SP-containing thin and medium-sized axons. In addition, H1-IR appeared to be absent from spinal cord nerve terminals. H1- and H2-IR kinesins are both transported with fast axonal transport, and comparatively small amounts of kinesins are retrogradely transported. H2 was widely distributed in motor, sensory, and sympathetic neurons, whereas H1 was enriched in large motor and sensory neurons.
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PMID:Axonal transport and distribution of immunologically distinct kinesin heavy chains in rat neurons. 1050 79

Cytoplasmic dynein is a motor for retrograde axonal transport for movement of membranous organelles toward the neuronal cell body. However, cytoplasmic dynein is synthesized in the cell body and conveyed along the axon to nerve terminals. To characterize the axonal transport of cytoplasmic dynein in relation to synaptic vesicles and other membrane compartments, immunocytochemical and cytofluorimetric scanning analyses of crush-operated rat sciatic nerves were performed. Distal to the crush, the kinetics of dynein accumulation were consistent with its role in the retrograde transport of membranous organelles. During the initial 3 hr after crush, only small amounts of dynein-immunoreactive material accumulated proximal to the crush. This is consistent with metabolic labeling studies showing that most of the dynein moving in the anterograde direction is in the slow component of axonal transport. Thereafter, the rate of proximal accumulation of dynein increased, and by 8 hr postcrush a large amount of dynein immunoreactivity was observed. This accelerated accumulation may be due to recruitment of dynein from slow component b onto organelles proximal to the crush. Double labeling demonstrated that dynein immunoreactivity colocalized with synaptophysin, a transmembrane protein found in small, clear synaptic vesicles. In contrast, dynein immunoreactivity did not colocalize well with calcitonin gene-related peptide (CGRP), a peptide matrix marker for some large dense-cored vesicles. Finally, dynein immunoreactivity colocalized with the anterograde transport motor kinesin both proximal and distal to a crush, suggesting that kinesin may carry some dynein-containing membrane compartments during fast anterograde axonal transport.
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PMID:Cytoplasmic dynein conversion at a crush injury in rat peripheral axons. 1087 88